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The genomes of our microbiota, and the way they interact with the human host, are collectively termed the microbiome. Novel genomic technologies have enabled microbiology to move beyond previous constraints: previously, researchers had to isolate individual species in cultures and study them in sterile labs; now, we can gather microbial samples directly from faecal samples, and extract and analyse the full DNA complement. We can also start to unpick their functions.<\/p>\n
The importance of the gut flora for human health is increasingly recognised, to the extent that microbiome modification has been proposed by some as a potential therapeutic treatment. Microbes are involved in considerable co-meta![\"change6\"](\"http:\/\/blogs.kcl.ac.uk\/editlab\/wp-content\/blogs.dir\/166\/files\/2017\/02\/change6-300x225.jpg\")
bolism with their hosts (humans), producing some vitamins that we alone do not have the genes to synthesize, as well as breaking down food to extract nutrients that provide an important component of our calorific intake. This direct impact of microbes upon the energy content of the human diet links the gut microbiome to the development of the human immune system, and abnormalities in microbial diversity are correlated with several inflammatory diseases, colon cancer, diabetes, and obesity (1).<\/p>\n
Research on microbiome functions has recently taken a surprising turn \u2013 it seems that microbes might also be able to \u2018talk to\u2019 our brain and influence mood and behaviour. The idea behind the \u2018gut-brain axis\u2019 is that microbial cultures interact with nervous systems through the molecules and proteins they secrete.\u00a0This idea is more intuitive when we consider that gastro-intestinal problems and psychiatric symptoms (such as anxiety and autism) commonly co-occur (2). Can we trust the bold claims made based on the research so far?<\/p>\n
Can microbes explain psychiatric symptoms? Some exciting research has found that alteration of the gut microbiome contributes to some of the behavioural abnormalities displayed in a mouse model of autism (3). One trial of an extended faecal microbiota transplant in 18 autism-diagnosed children found an 80% reduction of gastro-intestinal symptoms at the end of treatment (4). But these studies are extremely limited, making it very difficult to draw solid conclusions about a causal role for specific bacteria in autistic disorders, which are complex neurobiological phenomena. Can the germ-free mice used in the former study possibly be informative given the real-world diversity of the human microbiome? Alarmingly, the microbiota transplant (\u2018poo pill\u2019) trial had no placebo controls. Even more alarmingly, their pills are already a patented autism treatment (https:\/\/www.google.com\/patents\/US20160339065)<\/a>. A more convincing trial in humans tested for emotional and physiological effects of prebiotics (these are bacterial food sources that cannot be metabolised by the host organism, while probiotics are live microorganisms) on a small group of human volunteers. They found that participants who were given a prebiotics course had lowered levels of salivary cortisol (a stress-related hormone), and showed decreased attention towards negative stimuli, as measured by Attentional Dot-Probe and facial expression recognition tasks (5). But this study was funded by the biotech company that sells prebiotics, including the one used in the trial, which is worrying given their incentive to legitimise an extremely marketable treatment and an extremely simplified explanation for neuropsychiatric problems like depression and anxiety.<\/p>\n To sum up, more (and better) research is needed. We are very far from determining precisely how different bacteria influence the brain via the immune, metabolic and nervous systems. The existing evidence is quite preliminary and not causal, so the connections to disorders like autism and anxiety are a bit of a stretch and are worryingly oversimplified in the media. What\u2019s more, it is difficult to tease apart confounding factors e.g. diet, home lives, other enviromental exposures, which all affect an individual\u2019s microbiota and development. Everyone has a unique and constantly changing microbiome \u2013 we can\u2019t prescribe a \u201cone size fits all\u201d microbiome treatment. A lot of the hype is probably driven by the money-spinning industries of food, supplements and pharmaceuticals. We\u2019ve seen a shift from one extreme to another \u2013 from condemning \u2018bad bacteria\u2019 to \u2018microbiomania\u2019. It\u2019s clear that we\u2019re in deep symbiosis with our microbes, let\u2019s not label them!<\/p>\n
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