# Groundbreaking research reveals the 50 NEW gut bacteria you need to reshape body fat ## Метаданные - **Канал:** ZOE - **YouTube:** https://www.youtube.com/watch?v=xELtC21lAW0 ## Содержание ### [0:00](https://www.youtube.com/watch?v=xELtC21lAW0) Segment 1 (00:00 - 05:00) Is there really a link between bacteria in our guts and our long-term health? — Absolutely. — We now know which specific foods change which specific microbes that are most associated with certain health outcomes, whether it's cardiovascular disease, type 2 diabetes, certain cancers and so forth. — And there are some microbes that no one saw before us and they are influencing our health. — Are we stuck with these bad microbes? — No, we can improve the microbiome. Professor Nicholas Agata is a co-author of Zoe's groundbreaking new study and a leading light in the science of the microbiome. Professor Sarah Bry is a professor in nutrition at King's College London and chief scientist at Zoey. We have discovered hundreds of bacteria in our gut. For example, some of the good microbes are able to digest fibers but bad microbes. They are more inflammatory associated with simple sugars that are present in many foods. A couple of years ago, we randomly allocated 350 people to either follow the US dietary guidance or follow the best food for your gut microbiome from Nicola's team with the analysis they've done. — And we found actually that the top 50 bacteria after the intervention increased in number, the bottom 50 bacteria decreased and some of them were not detectable anymore. and Sarah, what things that we might eat that might actually increase the number of good gut microbes. Can I be honest? Creating this show takes a lot. Research, interviews, editing, all of it, week after week. But we do it because we believe in it. We want to change the way that people think about their health. And if you're watching this, it probably means we're doing something right. So if you believe in what we're doing, just hit that subscribe button. It's small for you, but it means the world to us. Okay, let's go back to the show. Nicola, thank you so much for joining me again today. — Thank you, Jonathan. It's great to be here. — And Sarah, thank you also. — Pleasure. I'm really excited to be here with Nicola. — And that also means you're a bit experts on this, so you know I'm going to hit you with a rapid fire Q&A. Are you ready to go? — Yep. — Nicola, is there really a link between the species of bacteria in our gut and our long-term health? — Absolutely. Yes. — If our gut contains lots of bad microbes, are we stuck with them? — No, we can change it. — Sarah, if we change the food that we eat, can we increase the number of good gut bugs? — Absolutely. Yes. Will taking a fiber supplement guarantee a diverse gut microbiome? — No. — And Nicola, what's the most exciting thing that you discovered in this groundbreaking new research? — I think it's exciting that now we have the panel of the top 50 the best bacteria we may want to have in our gut. — I'm thrilled to discuss today what I think is the biggest breakthrough in microbiome science for a decade. So, Nature, like the world's most influential scientific journal, recently published a science paper by Zoey Scientists, and the two of you are lead authors on this paper, which established this sort of first reliable, repeatable way to measure the health of an individual's gut microbiome. And I'm excited because it's sort of like the culmination of more than eight years of work at Zoey. And it's also only been possible thanks to more than 34,000 Zoey members who took part in this research. And I think many of those uh members will be listening today in which case I'd like to say thank you to all of you for being part of this. And I suspect Nicola and Sarah the same. — Thank you so much. — So today I'm really excited to share how a listener can use this groundbreaking research to improve their gut health and [snorts] therefore their overall health and sort of show the link between something that can seem very abstract, right? Some sort of complicated science paper and something that's really actionable. Before we get into sort of what's uncovered in the paper, Nicola, why is publishing in nature like such a big deal if you're a scientist? — Well, you naturally is the most respected and most uh read um scientific journal in the world. So everyone wants to publish there because uh your results will then be amplified to all the audience of scientists but also non-scientist and also it's very difficult now because you have a very strict policy of your work being reviewed know it's called a peer reviewing process and so there were five in our case uh reviewers that really scrutinize our work from you know the first word to the last number in the supplement and so it means that is also they recognize that our work was extremely valuable and high impact. — The peerreview process that it goes through is tough in most journals, but the peer review process that this piece of work went through, poor Nicholas team were working around the clock for many ### [5:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=300s) Segment 2 (05:00 - 10:00) many months, you know, responding to some of the peer-review comments and ultimately it makes the science even better than it already is. — We improve thanks to them, too. — And Sarah, what makes this research so groundbreaking from your perspective? So I think firstly for me there's the community science element to it and you've already thanked the many people that have contributed their data to make this possible and I think the beauty of it is the size of it and whilst size isn't always important in science actually when it comes to microbiome research you know there's so much noise surrounding the microbiome that it's very difficult often to disentangle what's noise versus what's we call a real signal a real idea that there is that actual link between in this case for example diet and a change in the microbes or microbiome and a change in health outcomes. — Also these numbers are not only because of noise also because the we are much more microbiologically different than genetically. So there is an intrinsic variability in the vest of the microbiome that you can only cope with that only if you are really big numbers and 34,000 went to the papers we have even more now and it's also exciting to continue looking inside that. — You're saying that you need huge numbers and partly that's um you know because of this sort of noise and complexity but it's partly because there's just such huge variation in our microbiome. It's much bigger than the difference between like my genes and your genes. — Correct. We are 99. 9% identical on the genome level. No, the human genome level. But if you look at the microbial species we have in the gut, we are only around 33% identical. And if you look at the variance of these species in each of us, we are much less uh similar. So around 0 something similar. So you need big numbers to to interpret all this diversity. And I think this has been the problem with previous research that when it's on really small numbers, you just can't get a signal that's above that noise. So it's very difficult to then translate that into something that's actually meaningful. If I can add on this is not only the number no but also the diversity of population because we have the American population, the English population and covered all cities more or less all regions and this is very important because there can be other signal other characteristics of the microbiome that are linked to two aspects that are not really what we want to explore. — Yeah. And even something so simple as whether you live in a city versus if rural setting. So you live in a countryside that has a huge impact on your microbiome. So when you're trying to actually decipher well what is due to diet you've got to get rid of all of that other noise that's going on and it's only by having this large amount of data thanks to all of the community scientists and all of the members that have taken part in Zoey that we can actually achieve that — and Sarah you were telling me beforehand that you think about the paper as having almost two different parts. — Yeah. So I think from a research point of view there's two elements that are really interesting. One is that we've been able to collect a lot of data at one point in time that shows us these very clear links between what we eat and the composition of our microbiome and also very clear links between a whole host of different health outcomes from inflammation to blood cholesterol to blood pressure to body composition. But then where it gets really interesting as a researcher is that we've actually been able to look at what we call longitudinal or interventional data. And this is data where we have looked at how by changing the diet in clinical trials does that bring about a change in the microbiome and how is that then linked to a change in health outcomes. And this is really important because a lot of the microbiome research out there just like a lot of diet and health research doesn't show that causal link. Doesn't show okay diet does actually lead to a change in this microbiome. A lot of it just shows that association. And so whilst these might seem like very boring technical terms, causality versus association, actually it's critical in human research. And it's really important that we can show that changing the diet changes the microbiome. And that's exactly what Nicola's team with the analysis they've done has shown in this paper using our fantastic Zoey data. — I can tell that you're both incredibly proud and excited about this paper and so am I to have some association with it. So let's maybe jump into the first of those two things that you talked about Sarah which is this idea that for the first time it establishes a way to know how healthy your microbiome is. Nicola can you explain this to us? Yes. So we have hundreds of bacteria in our gut and overall there are thousands in the population and our question was can we look at which of them are always or almost always associated with healthy diets on one side and healthy cardio metabolic markers on the other side. Uh because this gives us some sort of guil ### [10:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=600s) Segment 3 (10:00 - 15:00) by association. No, if in healthy people that are eating well, we always find the same eye microbes, I mean both present but also highly abundant, it has to be meaningful. No. And so what is exactly what we did was ranking the abundance. So dependence and the presence of of bacteria in our gut with these set of markers on one side for the diet on the other side for card metabolic health and we have this ranking 661 if I remember well total species that were enough abandoned to be profiled and seen uh with statistics and we have our top 50 and the bottom 50 that the top 50 is like the most wanted bacteria that we would all love to have in our gut. If I ask you which micro should you have in your gut, you can look at this list and say yeah I want the one on the top then a bit of the others and so on and so forth. That does not mean that we all have only the good bugs and not the bad bugs. No, of course, but we should all aim to have more of the top 50 than of the bottom 50. — And I think what's really interesting here, Jonathan, is until now I don't believe there's ever been a good enough marker of what a healthy microbiome is. And it's even something that we've had challenges with some of the research that we've been publishing at Zoe from our clinical trials is reviewers often say, "Well, how do we know what a healthy microbiome is? " And I think that's the most groundbreaking part of this research is that not just will it help us um at Zoe with the dietary advice that we give, it will also help researchers be able to have a way of measuring whether an intervention, a food, a diet, a lifestyle change improves your microbiome in a way that we believe is healthy. — Yeah. And in fact, is not the healthiness of the microbiome itself. No. is the microbiome most associated with healthy human characteristics and this is the way we define it because otherwise the concept of a healthy microbiome is difficult if we don't bring into the picture also our body — so I think what you're saying is for the first time you can actually do this analysis of someone's microbiome which means measuring all the different species that are in there and then you can find oh you've got like these 27 ones which are from the good and these 13 from the bad And therefore you're actually able to give a like a measurement of the health of the microbiome. And before you know you knew you had species in here, but you just weren't able to tell whether or not this was good or bad. — Exactly. And which of them were more good uh than others or else associated as we prefer to say actually. — And so what makes a micro good or bad? — That is actually much more difficult to define and is not what we did here. But we do think that the good microbes are those that are able to digest fibers and produce imuno stimulatory metabolites. So for example, short chain fatty acids and and a whole other series of metabolites. I say that we don't know very well also because inside our top 50 microbes there are some microbes that no one uh saw before us. So we defined them, we saw them but no microbiologist before us was able to uh have them growing in vitro. So they never seen these bacteria but we saw them directly using these techniques called metagenomics in the samples and especially the good ones are a lot unknown — and I think that's really exciting again that we've now identified in simple terms these new bugs and so again at Zoey but also as researchers we can now be on the lookout for these as well when we're thinking about how to improve um health outcomes via microbiomediated mechanisms. I've heard you use this phrase the dark matter of the microbiome Nicola. — Yes, there are the unknowns no in the top 50. So these are bacteria that we see from our analysis but again they are not grown in the lab. They are not handled in the lab. We don't know the name. Uh we named some of them actually one of them was called uh Seatella. So uh you know there is a segella in your gut Jonathan which is not in the top 50. Well, what do we need to do to get one named after us? — Well, I I didn't name my bacteria. No, because it's only other scientists that can name after you. So, — you have to be really nice to Nicholas era. — I just I've just taken him out for lunch, Jonathan. — Then there'll be a berry for sure. — But there are some bacteria to be named in the top 50. There are a lot of bacteria in the family of the lactobacteria um lacnospirasia actually sorry uh which are bacteria told to be able to degrade uh fibers complex fibers and produce surf fatty acids and those are all name all bugs that you can name after whoever you want Sara you need a bit of more characterization but it's doable — so you're saying that you found these 50 good bugs and these are like the best bugs you want to have them inside you and amazingly lots of them have never ### [15:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=900s) Segment 4 (15:00 - 20:00) been discovered by science before and you've identified them sort of from their DNA in the way you analyze this, but no one has ever like grown them in a petri dish. It's literally like in the past going into like the Amazon jungle for the first time and discovering all these [snorts] animals that nobody knew about. — Correct. We recognize I know elephants for example from the genome but we never seen elephants. We don't have them in a zoo. And this is the same with the bacteria. So we see their genome, we characterize the genome, we know they exist, we know whether you and I have genomes from the same species, but we don't know the micological features of these bacteria. There is still 5 10 15% of our gut microbiomes that are really unknown. So still to be discovered even by metagenomics. — Now you help to explain I think the good bugs we don't understand completely but you're saying they break down these fibers and they make these sort of positive chemicals. What about a bad micro? What's that doing? They are more inflammatory associated with simple sugars that are present in many foods. Uh so they are not specialist. They are generalist and they are inducing inflammation to some extent. There are exceptions. There are some that are bad in any situation in any gut. Others that are only bad under certain circumstances, certain diets or certain conditions, disease and so forth. But mostly they are uh inflammatory um for the gut environment. I think a really fascinating example is where you look at some of the detrimental effects um of meat. And there's certain bugs that live in our gut that are able to convert certain compounds from red meat into a particular chemical that can be further metabolized to be quite harmful for us. And that's a great example of where you can see the complexity of okay, it's partly dependent on what you eat. So are you even eating red meat in the first place? It's partly dependent on what species you've got in there. Is it then converting some of those compounds in that red meat to that harmful chemical which then goes on to impact your health? These are chemical is called tmet in this specific case and I mentioned it also because there are many other chemicals that also in this case we don't know they are dark matter and they are influencing our gut and we think that these are uh the link between the bad microbes and uh our head — and Sarah you and Tim convinced me that Zoe should publish this list of bugs rather than keep it a secret. Can you tell us why? — Well, first and foremost, we're academic researchers and therefore it is inherent in us as academic researchers to get our science out there to publish our research so that other scientists can benefit. We're a community as scientists. We are not here to sit and just make millions for Zoey. Um otherwise we wouldn't have [clears throat] published all the 40 50 manuscripts that we've already published. And we want to benefit from all of these amazing community scientists that are enabling us to create this new research. It's important it's out there in the scientific community and it can advance as we've already said other people's research by developing this kind of signature of this health associated microbiome — and Nicola I understand that therefore this can be used as a way that is better than just thinking about this gut diversity we've been talking about for the last decade. — Correct. And it is what we do know. So looking at which of the top 50 and bottom 50 you have and also the others to to be honest and we can also uh you know report overall uh what are the amount of top 50 in a gut of someone. We also can look at their abundance and we can kind of derive a score out of these to to try to give a summary of how health associated the microbiome is. You know, when I think about going to the doctor, there's a sort of simple score and they'll say something like, "Oh, well, this is good, but you know, your cholesterol level is a bit too high. " And then sometimes give you this sort of little read out. How can this information that's been presented in the paper actually be used to create a sort of measurable score for my microbiome? — So, it's actually been very difficult to give a single score for the microbiome because like Nicholas explained, you know, it's so complex. You've got trillions of different bacteria. You've got different types, some associated with favorable health effects, some associated with unfavorable health effects. You've also as well as got the different types. You've got different amounts of each one. So, it's not like simply saying, "Oh, your cholesterol is high or your blood pressure is high or low. " And again, I think this is what's really exciting about this research is that by very clearly ranking those most closely associated with favorable health outcomes and unfavorable health outcomes, we can take that information and we can actually create a score that has some meaning in terms of health. And so with the score that we've created, which is out of a thousand, it ### [20:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=1200s) Segment 5 (20:00 - 25:00) considers the different types of bugs, how many of the good ones do you have, bad but it also considers the abundance. for the amount of each of ones that you have. It then goes into this black box again where the amazing data scientists at Zoe have created all of these algorithms that are very complicated that are further tweaked to maximize their relationship with the different health outcomes. And that gives a score out of a thousand where the higher your score is, the healthier your gut microbiome is. So in really simple kind of summary terms, it means you've kind of got more of the good bugs and less of the bad bugs with a bit of complex data science mixed in there. So, one of the things I know I've heard you both talk about is that normally there's something like a 20-year gap between a research paper being published in like a cutting edge journal like Nature and like a new drug or like something like that actually being available to consumers. Is that right? — Well, I think in our case is it can be much faster. No, because we can act on diet to change the microbiome. I think the most exciting thing about the microbiome from my viewpoint is that we can change the microbiome. Your body is difficult to change it almost impossible. Our microbiome can be changed. The challenge is to understand how of course and the rankings are very important to me because by improving the diet uh we can see whether our microbiome improves as a response to that. So is also for us to understand whether we are going in the right direction or not. for example, — but this has been quite rapid, I think, in the typical timeline of scientific research, particularly nutrition and dietary research. And so, you talk about a 20 year lag between maybe a new drug being developed and out on the market. Yes. because there's lots of safety stuff. But even the kind of studies that I do at King's College London, which are quite safe randomized control trials looking at how a particular fat might impact a particular health outcome, that's often a massive time delay. I published a paper only a couple of weeks ago to do with a particular type of fat from a randomized control trial that I first had the idea back in 2012. I actually got the funding in 2014. I started the trial about two years later because of all the bureaucracy and red tape at the university and then you've got to run the trial, do the analysis, write the paper. 14 years ago I had that idea. 12 years ago I got the funding for it. Back then no one had heard of Zoe. I hadn't had the pleasure of meeting you and then look where we are now. So we are talking quite different time scales. And I do remember meeting you Jonathan. I did say well there's Zoe time frames and then there's just the rest of the world time frames. That's lovely. I think the other thing that you said to me, Nicola, is that because this is sort of all this new information is being applied to this sort of genetic information that's been collected from our sample of poop — that you can actually apply this new analysis to microbiome samples that have been done in the past. — Absolutely. Yes. U the way we sequence the microbiome, the way we read the microbiome didn't change in the last 10 years or so. uh it got maybe less expensive if you like but so the information is the same is that we learn how to mine that information better and this was again due to the availability of large data sets data to discover these new unknowns so we can go back in samples even of 10 years ago and now we can see those bacteria that were not known at that time so yeah I think this is a huge potential uh of the science that is building upon data from the past — and That's why it's really important that we are publishing this, that we are identifying the names of all of these different species, that they are there for scientists to be able to then go back and look in their own data sets as well. — And just for clarity in case anyone's listening to this that has had their microbiome sampled in the past because you're saying it could be any test in the last 10 years, — but I think it needs to been done in a particular way. — Yes, it needs to be the wall metagomic sequencing as we call it. is the sequencing of the wall genetic material inside the sample. There were other techniques especially in the past that were looking only at some fraction of the bacterial genome and that are not accurate enough for what we did. And I also want to expand a little bit because our list of micro is also important for other resources because someone else may find that some of the these bacteria are associated with another disease, a disease that we are not looking inside or the risk for another disease. And so it will be very important for us to take back that information and because we may know how to act on diet to increase or decrease that specific bacteria that someone else found to be associated with, you know, a disease. — Yeah. And we're continually scientists ### [25:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=1500s) Segment 6 (25:00 - 30:00) learning from each other within our own discipline and from other disciplines. So again, sharing this kind of information really enables us as a science community internationally to advance science in a way that wasn't possible before. So I understand that there's also some further research that is not captured in this Nature paper where you found what you call clusters of gut microbes linked to specific health conditions. Can you give us a little sneak peek into that? Yeah. So the cluster work that we've been doing at Zoey is a way of looking at those rankings that Nicholas has been talking about of those microbes that are most associated with certain health outcomes and putting them into meaningful groups from a health perspective. So the clusters are kind of how we're packaging this information and feeding it back to individuals. And what we've done is we've developed four clusters. We've developed a cluster related to inflammation. We have a cluster for blood sugar control. So that's considering um how we respond to carbohydrates, but also what our baseline sugar levels are. We have a cluster related to heart health and cholesterol. So that's considering lots of different fat measures, not just simple measures of cholesterol, but we have lots of different ways that we look at what we call blood lipids, uh which are different types of cholesterol. And then we have one to do with body composition. So whether it's a healthy distribution um of fat in our body and what we've done is we've taken the work that Nicholas team's been working on and we've looked at which of those species are most closely associated for example with inflammation which are the ones most positively associated i. e. so particularly bad for inflammation and which are most negatively associated as in particularly good potentially for inflammation. same we've done for some of the other clusters. So for cholesterol and for blood sugar. Uh and then when we test people's microbiome, we can tell them if they have more of an inflammatory microbiome cluster or less cluster, whether they have more of a blood cholesterol, heart health cluster, and so forth. So it's kind of a nice way of packaging up these results in a way that a user I think can understand what's very complex science. And Nicola, I I've had a tendency just to think about, oh, well, there's like good bugs and bad bugs, but it seems like this is saying that these bugs are more specifically linked to particular either like health supporting or potentially like harmful causes. Do we understand at all what's going on? Why particular bugs could be linked to any of these things? We know that there is a cross talk between our bacteria and our gut especially and this uh happens at the level of chemicals as Sara mentioned and also other molecules that are interacting with our immune system our cardio metabolic system and so on and so forth. So usually the basic mechanism is that some healthy foods they contain a diversity of fibers especially or polyphenol also rather chemicals that are stimulating several bacteria some bacteria that are fermenting the these molecules and that's why it's also very important to have a diversity of these molecule as input to our gut. So a diversity of bacteria can specialize on fermenting the single components because every bacteria will produce something different. No. So those usually starting from fibers are producing in modulatory um and positive uh chemicals and the more variety we have of that the better. That's why it's also important not only to have the best bug uh of our list of our ranking but also a diversity of bugs toward the high end of our ranking. — So I can't just have like one good bug. No — that helps but actually these different good bugs are actually sort of creating different goods. — Exactly. Correctly. So one bacterium cannot do thousands of different main functions. No. So you need thousands of different microbes to do thousand of positive actions in your gut. — Different bugs eat different bits of food coming into our gut as well as producing different chemicals. So you need that diversity of foods, fibers, bioactives like polyphenols as well as the diversity of the bugs that might preferentially choose one food over the other and also produce different chemicals. And on the contrary, most sugars can metabolize by all bacteria. Those that are less specialized in good fibers are those that are growing probably if you eat only um you know simple sugars and those usually unfortunately uh you may say are the bad uh microbes in our gut. — So the bad guys like the sugar, the good guys like all of those wonderful fibers and polyphenols. — Correct. — I feel somehow everyone listening is not surprised to hear that. There is more ### [30:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=1800s) Segment 7 (30:00 - 35:00) than that I think because uh it's something we're still investigating know but the microbiome is a community a complex community in which the community is working more than just the sum of each single bacterium. So there's the layer in which health associated bacteria a diversity of them are building something a network of interacting chemicals uh that are adding more than what each single micro can do. I'd like to move on now to the sort of second part Sarah of what you described in this paper because you know it's really cool to be able to measure that your gut microbiome is healthy or not but I think what everybody's really interested in is can I improve my [snorts] score right can I increase the number of good gut bacteria or is it like so many things in my life well you know I would have liked to been a bit taller but you know your height is fixed and I understand that this is something that is really novel that's been addressed in this paper. Can you tell me about this Sarah? — Yes. So, one thing that we have always known is that the microbiome is very malleable. So, we know it changes through diet, but we haven't known which specific foods change which specific bugs except in a few uh unus, you know, rare cases. And so what we did with this research is as well as looking what we call cross-sectionally at one point in time, we also took data from two randomized control trials that we've run at Zoey together with Nicola. Um the first of one of these trials was called our method study and this was a study that we conducted a couple of years ago where we randomly allocated over 350 people to either follow the US dietary guidance. This is called the my plate guidance or follow the Zoey personalized nutrition program which is leveraging all of this research from Nicola's group around the best food for your gut microbiome. We followed them over 12 to 18 week period. We took various samples at the beginning of the study. end of the study. We measured lots of health metrics as well as taking microbiome samples. And as part of this new paper, what Nicola's team did is they went back and they had a look at what dietary changes occurred, but also what microbiome changes occurred during that 18week period. — Nicola, what did you find? — So, we found actually that uh the toughest bacteria in the gut environment after the intervention increased in number and abundance. So exactly what we were hoping for and the opposite thing for the bottom 50 bacteria that decreased both in abundance and so in their amounts and also in their presence some of them were not detectable anymore. — And when you say number and abundance could you just help me to understand what that means? — Yes. So one thing is counting how many of those 50 top or bottom 50 uh bacteria you have but then each bacterium in your gut will be part of a community and you can quantify it. So you may have a bacterium at 1% of the total amount of bacterial cells in your gut or 90%. So when I say increase in abundance, maybe they move from being at 5% to being 7 or 8% is an increase meaning that positive or negative bacteria is counting more inside the microbial community in the gut. So what this research showed is that by following this healthy dietary program, then you're increasing the number of what we call these good bugs, you're decreasing the number of these bad bugs, but you're also increasing how much they're dominating the good bugs, your overall amount of bacteria that are in your gut. And the statistical methods that we use to quantify them strictly speaking is a little bit more complex. But we arrived to what is called statistical significance. So we proved in the paper that is it cannot be by chance. It's really associated with a change of the diet. — And that's really important is because when you're dealing with large numbers also a large diversity of different outcomes which is what we're dealing with when you've got so many hundreds of different species that they're more than 600. quite often you can find things by chance and so that's why scientists or in the analysis that Nicholas group does there's lots of ways that you can make sure that when you do the analysis it's not just a chance finding so it really gives us great confidence that what we're seeing is relevant is significant and also is due to the changes in the diet that have come about through our intervention. So what you're saying is in a relatively short period of time then you're saying like sort of 12 to 18 weeks your microbiome can really change in a way that means that it is healthier afterwards than it was at the beginning. — It's not just that I want to have one of these good microbes. I need to have lots. — We have several examples of bacteria moving from being barely detectable so traces to be uh a part of the community. These are the positive bacteria that are increasing and this is a strong signal ### [35:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=2100s) Segment 8 (35:00 - 40:00) — and you often talk about this being the gold standard. Sarah, can you explain to us why this is such a big deal? — So in nutrition research and a lot of human biological research, randomized control trials are the gold standard. So these are the trials where you will randomly allocate people to a control or an intervention. And so instead of just looking at association, you can start to see a causal link. So what this enables us to do is to say, okay, the diet is causing the change that we're seeing in the microbiome. Just cuz something's associated doesn't mean that it's actually going to bring about a change in a given health outcome. But this shows that cause a link. What we know then is that this change or these microbes that are increasing, we know from our other research is associated with all of these favorable health outcomes. So, it gives us some confidence to say, okay, the change that we're making in our diet is causing this change in our microbiome which we believe is associated or will be associated with an improvement in these various health outcomes. A question that maybe can arise here is uh can we take health associated bacteria and give it to people to increase it. Well, this is something very difficult to do. Um is incredibly difficult to grow this bacteria in the lab is even more difficult to put it in a pill or something arriving to our gut and it's something we cannot do right now also for regulatory reason. We need to make sure this is safe from many different viewpoints. So yes, this will also validate the final causality. No, if that is the bacterium changing, but the diet uh you know, we don't need to wait 20 years to make sure that these microbes we have the technology to give you the those new microbes. So again is important uh for us to act on diet and is actually what we are trying to do. — I'd like to share my favorite healthy habit with you. It's called daily 30. Daily 30 is our gut supplement made with over 30 plants individually selected by our science team here at Zoey. In just one scoop, you get ingredients that support gut health, digestion, energy, and daily nutrition. And it's also packed with 4 g of fiber. And why is it my favorite healthy habit? Cuz it's so easy. Going to the gym is hard. Getting enough sleep is hard. Not eating chocolate in front of the TV is hard. Taking Daily 30 is easy. Every morning, I add a scoop to berries and yogurt for a delicious boost of fiber and plant diversity. A healthy habit completed before it's even 9:00 a. m. Supplementing with Daily Throat is easy because it tastes great. My taste buds know this is good for me, just like they seem to know that chalky, highly processed powders aren't. Now for the part I think you'll love, the science. Unlike many synthetic supplements, Daily 30 uses intact plant structures which naturally break down more gradually than isolated extracts. When Zoe first developed Daily 30, we ran our own randomized control trial to check if it worked. The results blew us away and they helped us to create the formulation that we sell today. I eat Daily 30 every day and I take it with me whenever I travel because I feel the difference. So, if you'd like an easy health habit, I recommend trying Daily 30, the unique supplement that's built for gut health. And gut health is health. By the way, whenever we talk about daily 13, UK law requires us to say it's a natural source of calcium, which contributes to the normal function of digestive enzymes, and copper, which contributes to normal energy yielding metabolism and the normal function of the immune system. Daily 30 is also high in fiber, omega-3s, and plant protein. Ready to feel better? Start Daily 30 today. Head to zoey. com/3030. Now, I understand that because this was nature, you didn't just do one of these gold standard trials. You had to do a second one as well that's in here. — Of course, we're greedy. I'm greedy. I love RCTs. So, we actually also conducted another randomized control trial. This was called our biome study. And the biome study was a randomized control trial where we randomly allocated people to either of three interventions. And we had about 130 people in each intervention. our daily 30, which is our whole food prebiotic supplement, or to consume a functional control, and in this case it was like bread croutons, or to consume, and they were allocated to either uh consumed over-the-counter probiotics that you get in many health stores, — which means it had some live bacteria in it. Yes, and ### [40:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=2400s) Segment 9 (40:00 - 45:00) we had to prove that it had some live bacteria in order for us to actually get ethical approval to conduct this study because we had to make sure what we were doing was correct. We took measurements before they started. We took measurements 6 weeks later. We took measurements for how people were feeling, their mood, their energy, their hunger, their sleep. We took measurements of their gut microbiome as well as some blood measures. So you had these three different arms, Sarah, and I think what you were looking at is like, does this really shift the microbiome? What were the results? — So what we found is for those taking the prebiotic whole food supplement, we saw a huge shift in the gut microbiome. We saw a large increase in our good bugs and we saw also a decrease in our bad bugs. And this was really quite pronounced compared to those taken the probiotic. We saw only one bug, didn't we, change, which was the bug that was from the probiotic. And we saw almost no change or very little change from the control. These bread croutons, lots of people have said, "Oh, why did you use bread croutons as the control? " In nutrition research, it's really important you try and use a functional equivalent because most of the time it's not like a drug trial where you can have an active pill and then a placebo pill. And this is why dietary studies are so difficult because when you add something in, you're taking something out or what are you going to use as a comparator? And so because the whole food prebiotic supplement is intended to be added onto food as a kind of salad topper sprinkler, we wanted to use something that would be used in the same way, which is why we had these bread croutons. — And Nicola, I'd love to understand like what happened to the microbiome for people who were taking this supplement. Y — because I know that that's a big part of what was in the paper. — Yes. uh again uh the top 50 bacteria increased uh in their presence and their uh amounts. This was really strong and not only in the top 50 also you know still the top 100 or so we see huge increases especially something called lacnospirasia again on the other side instead we saw disappearing entrocluster or rather bacteria like ruminccus that we know they are pro-inflammatory [snorts] and uh this made a lot of sense to us now because we know in the um prebiotic uh w food supplement there are thousands of different chemicals associated with healthy plant foods. No. And so this is exactly what we were discussing before different healthy input chemicals stimulating many of the top 50 and top 100 uh species in our gut. They were increasing and we really measured it and saw it again with statistical significance which means that it cannot be by chance but is something uh that we saw strongly and reproducibly. And I think what's really exciting as well from a nutritional perspective is we know it's really difficult to change your diet. We know our diet's so ingrained in us from you know our culture, our upbringing, our social setting, you know, and our taste preferences. And that's the biggest challenge that many of us know what we should be eating, but we're not doing it because of various other barriers. And the beauty, I think, with this supplement is it's something so simple. It's a single simple dietary strategy that's actually brought around such profound changes in the gut microbiome that our data shows associated with very healthy outcomes. — I think it's safe to say that those results were a lot stronger than actually either of you had originally expected given that on these two examples. One is sort of like trying to get a full dietary change and the other one is just this sort of 30 plant supplement. — Correct. So as scientists we frequently have an hypothesis. No. So when we see that hypothesis confirmed is nice but in this case is not only was proved but was proved a strength that was much higher than what we were hoping for. So um we were surprised ourself and positively surprised of course. — And is this a sign that the plant diversity in our diets today is just incredibly low compared to sort of what we would have had historically to support our microbiome. — Yes, I think this is the point. Our microbiome evolved with us over hundreds of thousands of years with all the plant-based chemicals we were in contact with. We still have the signature, but if we remove the diversity of plants uh going in, we can lose the this diversity in a second. Um and this is actually why we think that um this prebiotic product works. — But also, Nichol, it's not just the food, is it? I know this is something you've spent quite a bit of time researching as well. There's so many other factors in our environment that impact our gut microbiome whether you know it's the kind of more sterile environment we live in. We know that soil microbes play a really important role. — We have another paper actually in nature talking about how we gain microbes by ### [45:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=2700s) Segment 10 (45:00 - 50:00) interacting with the people we are in contact with. This is also very important. — Haven't you done something looking at pet owners? — Pet owners. Yes. It was with the kids. So we enrolled uh six classes of daycare babies uh and we also have their parents, siblings, educators at the daycare and also the pets at home and we track a very complex network of transmission. There are some strains or some specific variance or some bacteria jumping from the pet to the baby to another baby at home. We also saw um you know one mother uh transmitted to the baby to another baby at the daycare and this other baby to another father to his father. No. So, so you know there can be stories about how a mother of a certain kid can donate strains to a father of another kid. We don't do gossip so it has to be through the uh through the transmission at the — I think you might be suggesting something that I'm not going to — this is like the new form of a fingerprint I think. — Yes. Yes. Yeah. You know we can match perfectly the babies that were in the same room. Now different rooms they don't share bacteria. two kids that were for two, three months in the same um room. They shared up to 10, 12, 15% of their gut microbiome. — So, surround yourself by healthy people. I need to spend more time with you and Tim, Jonathan. — We I would love that. So, Nicola, before I move on to like, okay, what's the really practical advice? I had one question listening to this, which is you've talked about all of these microbes improving, and that's great because you want to have these 50 good bugs. Is it possible to change the level of all of the gut bugs I have or are some sort of essentially stuck? So it doesn't really matter whether I eat more healthy food like I just can't shift it. — Yeah. So in our intervention we saw that not all the 50 bacteria were changing uh in the same proportions. No. So definitely there are some that are more active uh in changing due to the change of diet. This can be due to the specific foods that we eat or the specific prebiotics that we eat that are stimulating some and not others. It can also be that some bacteria are more stuck for certain reasons. There are some association that we don't understand. There are some bacteria that are depending on other bacteria and also is complex but yes I think one of the next challenges is to understand this why some are more able to change than others as the diet changes. So, we talked a lot about science and a lot about studies. What does that mean about what I can do to improve my gut health? I know that fiber is important for my gut health. So, can I just take like a big fiber supplement to solve all of this? — A one fiber supplement will be one fiber. So, it can stimulate maybe one, two, three bacteria, but you need the diversity of it. So that's why the prebiotics in a w food supplement is what you really want for your microbiome. Again, diversity of chemical positive healthy chemical as input means higher diversity of microbes able to digest it and which means in turn um more positive chemicals produced by these bacteria starting from the input chemicals that are impacting positively our health. — I've already heard you mention as well as fiber polyphenols. What is that? — So, polyphenols are a type of chemical that are found in many plant-based foods, particularly heavily pigmented, so quite colorful foods. They're often what gives the plants a bitter taste, but also what gives the plant the color. And they have what we call bioactive like properties. So, they act on lots of different areas in our body related to health. But we know that on average about 80% of polyphenols reach our large intestine where they are metabolized so eaten by our gut microbiome to produce certain chemicals. And it's those certain chemicals that the gut microbiome is producing as it eats or metabolizes these polyphenols that have their beneficial effects. for example, acting on inflammatory pathways in a favorable way, acting on lots of health related pathways again in a favorable way. And what we know is different gut bugs eat or metabolize different types of polyphenols. So you need to have both the diversity of your gut bugs as well as the diversity of polyphenols. And just like Nicholas explained with the fibers, it's really important to have a diversity of those different types of polyphenols because there's lots of just like fibers. So you're maximizing the different types of chemicals that are produced that act on all different types of health outcomes. — And so how does this tie into this sort of 30 plants that I've heard you talk about often? So we know that it's really important to get that diversity of plants because you want that diversity ### [50:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=3000s) Segment 11 (50:00 - 55:00) in your fibers. So different types of fibers are going to feed different gut bugs in polyphenols are going to again feed different gut bugs. So we know that by increasing the diversity you're more likely to get a greater diversity of the different types of polyphenols of which there's many and of the different types of fibers. And you said to me that there's some really interesting evidence that's related to per menopause that is somehow linked into this whole story. Can you tell me about that? — There's evidence to show in pair and postmenopausal women that if you take soy isoflavones which are a type of polyphenol found in soy products or you can actually get them over the counter as a supplement that on average you'll get an improvement in your menopause symptoms. You'll get a reduction in hot flushes. But what we know is that it's hugely variable between people. Some people take soy isoflavones and they have a huge benefit. Some people say, "Oh, I've almost had no benefit. " We now understand why. And that's because the soy isoflavones, this type of polyphenol, can be metabolized by your gut microbiome. And some people have species, so they have bugs that enable them to convert the soyoplavone into a very active type of chemical that binds really strongly to your estrogen receptors because the reason you get your symptoms when you're per postmenopausal is because you have a reduction in estrogen. So it binds really strongly, more strongly than the original isoflavone. And so if you have these gut bugs, what we know is from randomized control trials, you will experience on average a 75% greater reduction in your menopause symptoms compared to someone that doesn't have these bugs or isn't able to convert the soy flavones into this very active substance. And this is another reason I think as particularly as a parent postmenopausal woman myself is, you know, everyone's at that life stage where they're like, you know, what did you try? What worked for you? And you've got to be quite cautious that again, you know, you see an influencer saying, "Oh my god, I took this wonder drug. I took isoflavones. That's it. I'm this new woman. I feel 30 again and my whole life is better. " Well, great. They might have the species that are able to convert to this very active form, but it might not work for you. And so I think that's a really great example of showing just how much of an impact something so simple as just those gut bugs being able to convert that isoflavon into the active form or not does have on your overall health. — So basically unless I have that microbe inside me it doesn't matter if I'm eating those soybeans because it needs that microbe to convert it to have this super duper 75% higher impact. So you will still get a benefit, but you will get an even greater benefit by about 75% if you have the species that enable you to convert it to that more active form. — And Sarah, I think that's sort of an example of a link between individual foods and individual bugs. — We often talk about that concept as a gut booster. Can you explain simply what that is? So this will be where we have identified a food that is very strongly associated with a particular bug. So when we're taking our 50 good bugs, they're the ones that we want to promote in individuals. And at an individual level, we might say, "Oh, Jonathan, apples are really, really closely associated with one of those top 50 bugs. We really recommend that you continue consuming or you consume even more of those apples because we believe that it will increase that good bug and that's what a lot of our advice is based around and that's why it also makes so exciting some of the research that Nicholas added in as part of this Nature paper where we've looked at how people's bugs have changed on the advice that we've given because often we've asked them to increase specific boosters as we call them specific foods linked to specific bugs. Amazing. I was thinking about my own experiences and one of the things I' I've mentioned on the show a few times is that I broke my toe now a couple of years ago and I took these very intense antibiotics and I was measuring my gut microbiome and it basically wiped out almost everything and I was quite worried. So like they're all gone and what I've seen is they're slowly returning. So my first question Nicholas is where are they coming from? I think most of them were not really wiped out. They were only incredibly low abundance. Not really few traces. It is true that probably antibiotics are acting more uh on the health associated bacteria than the others. That's because the others learn how to defend themselves from antibiotics. They are more generalist. No. So the takehome I think for me is that an healthy diet is even more important after antibiotics to try to rebuild it. But some of these bacteria may actually have been completely lost inside your gut. And so ### [55:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=3300s) Segment 12 (55:00 - 60:00) that's where the social interaction again comes to mind because 99 probably% of the microbes in our gut are coming from the gut of other people. It may feel a bit gross but it is what it is. No, but we build up over decades of life. No, we acquired microbes from many different individuals. Some of them got adapted to us. Some of them choose us because of some reason that we don't really understand. So you know after the antibiotic treatment that you had that um process kind of restarted um at least partially and probably yeah you needed time to reacquire the microbes that you lost and probably you are quite slightly different in microbes because maybe you didn't do the same you know interaction with the same people that you did uh you know over the decade before the antibiotics. So, Nicola, we recently did a podcast on the blue zones, uh, which are areas in the world you're probably familiar with, where people live very long, healthy lives. — And one of the features that's common amongst all of the blue zones is that social interaction — as well as the diet and a few other factors, but it's the social interaction that's most common. Do you think that the microbiome is underpinning much of that as well as the psychological side? — Absolutely. I I don't think we have uh specific studies in adults for that. But at the for babies, yes, at the daycare, we saw it. No, babies at the daycare interacting all the day were increasing for months, their microbiome diversity by a lot. And you know what, the kids that had their microbiome less enriched by the um environment at the daycare were those that had a sibling at home, probably because the sibling already donated them a lot of bacteria. — Okay. So, what we need to do then, Jonathan, is any of us when we go on antibiotics or anyone listening, you've got to throw a huge party about 2 weeks after where you're all in a really close environment and you're all giving each other lots of kisses, — but only with people that have a good microbiome. — We can start renting these people out. — So, we screen people and we do the party only with those having a lot of top 50 bacteria. Okay, we can start asking who of our zoentists have the best microbiome score and we can start hiring them out for parties. I love this idea. — It's brilliant. I love it. — This could be the new business. — Partner matching me on the microbiome. Cool. We're at time, but just before we wrap up, I feel like we talked a lot about what we can do to increase the number of good gut microbes, but I'm guessing that there are things that we might eat that might actually reduce the number of good gut microbes. I think it's more difficult to directly reduce the negative gut microbes, but you can indirectly decrease them by increasing the good ones. No, because we think about again the microbiome as an ecological entity. If you increase the amount of again, you know, elephants or lions in an environment, the others in percentage will decrease as a consequence. So given that there is limited space in our gut from certain viewpoint, if you improve the good ones, you're decreasing the bad ones as a consequence. — And that fits in really nicely with the approach we've always taken at Zoe, that it's all about what you add into your diet rather than necessarily what you take away. Obviously, a natural part of adding in healthy plant diverse um you know, whole foods is that you will often take away some of these unhealthy foods. But I think the way you've explained how it then impacts the microbiome is a really nice way of reinforcing the kind of advice we give. Focus on adding in a diversity of whole plants. — So, what else can we do to increase our fiber? — So, as well as increasing the amount of fiber, we can increase the diversity. So again, it just goes back to that really simple thing of having lots of diverse plant-based foods, but there's also some things that I think we don't often think about. So for example, there's a type of fiber called resistant starch. And this has quite a big impact on feeding our microbes and our good microbes. And resistant starch basically comes from starchy food that's been heated and cooled because upon cooling it causes resistant starch. So what foods do I mean by this? Potato, pasta, rice, and it stays in that resistant starch form even when you reheat it. And so that's a really simple hack that if you like your potato, your white rice and your white pasta, which I know we do say to people to try and avoid having too much of it, but actually if it's been cooled down and then reheated, it can be a great source of resistant starch and is really good for your gut microbiome. — Amazing. So when I think back through all of this, firstly, it's really clear what a big deal the paper is and congratulations. There's this dark matter in here. We've discovered that so many of the bugs that are really good for us don't even have names. They've never been identified outside of this sort of big data approach. It just shows how much more there is to understand. But for the first time, you've been able to say we ### [1:00:00](https://www.youtube.com/watch?v=xELtC21lAW0&t=3600s) Segment 13 (60:00 - 62:00) can identify and create a score for the health of your microbiome. identify within this long list of microbes, these top 50 and this bottom 50, the good and the bad. But I think much more importantly, you've shown that we can actually improve our microbiome and that through these two different trials that you did, that it's possible to really increase the score of your gut health afterwards, whether it be through like changing your diet or whether it's through this 30 plant supplement that you tested. And really interestingly, you know, when you took a probiotic, you moved just one of those microbes, whereas with these 30 plants, you actually increased many, many of these good bugs. And so, I think Nicola, what you said is it just shows, you know, how low our plant diversity is today in the normal diets that we're eating. Sarah, you gave this amazing example about soybeans on your permenopause symptoms and that basically whether or not you have a specific microbe has a huge impact on how effective these soy beans are because they are able to convert the soybeans into something that like locks in more like estrogen. If you haven't got enough microbes, then you know get your babies into daycare as soon as possible to swap them around and then pass them to you. And if that isn't the right solution, then focus on increasing the good bugs because the bad bugs will decrease on their own. So if you focus on like adding the good things into your diet, and that is really that's the 30 plants. It's the plant diversity, then you will increase these good ones and then they just sort of squeeze out the bad ones naturally as a result. — Love it. — Fantastic. I know that we have now passed 300,000 microbiomes that have been tested here. So I assume Nicola that there is some exciting new science we'll be able to talk about in the future. — A lot of work to do though because there's a huge amount of data. So what we call big data but we're excited to look inside that. Yes. — If you enjoyed this episode with Sarah and Nicola about the gut bugs that shape our health. I know you'll love watching this conversation with Dr. Suzanne Devotto which explores her latest research on whether gut bacteria could be the reason that you struggle to lose weight. Thanks for watching and see you next time. --- *Источник: https://ekstraktznaniy.ru/video/33261*