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Genes influence types of microbes in human gut

Posted November 11, 2014

A person’s genes can shape the types of microbes that reside in the human gut independent of the person’s environment, according to a Cornell-led study published Nov. 6 in the journal Cell.

Microbes in the family Christensenellaceae were found to be the most heritable gut bacteria in a study of twins. Jillian L. Waters/Ley lab

Microbes in the family Christensenellaceae were found to be the most heritable gut bacteria in a study of twins. Jillian L. Waters/Ley lab

The researchers examined more than 1,000 fecal samples from 416 sets of twins and identified many types of microbes, the amounts of which were influenced by a person’s genetics, with microbes in the family Christensenellaceae being the most heritable.

The study found that people with higher amounts of the gut bacteria Christensenellaceae minuta tended to be leaner, according to body mass index data of the subjects. In experiments, when live C. Minuta were added to germ-free mice without the bacteria, the mice were leaner.

“If you look across the population [of gut bacteria] and explain abundances, there is a host genetic component,” said Ruth Ley, associate professor of microbiology and the paper’s senior author. “Up until now there had been no direct evidence that anything in the human gut is under that kind of [genetic] influence.”

Genetic data that included 171 identical and 245 fraternal twins, whose genomes have been sequenced at King’s College in London and are stored in its “TwinsUK” registry, gave them the power to answer questions and rank which microbes in the human gut are heritable, Ley said.

With twins raised in the same households, “you can assume that environmental influences are going to be very similar to one another,” said Julia Goodrich, a graduate student and National Science Foundation Graduate Research Fellow in Ley’s lab and the paper’s first author. When Goodrich analyzed the microbe populations in the twins’ fecal samples, she found that identical twins, who have the same genetic makeup, had more similar gut microbiotas to each other than did fraternal twins, who share half the same genes.

When Goodrich ranked the microbes from most to least heritable, she found C. minuta and its close relatives in the Christensenellaceae family were the most heritable bacteria, but C. minuta also appeared in a kind of network with other heritable bacteria and methane-producing microbes called methanogens.

Goodrich also noticed that C. minuta and this network of microbes were more abundant in lean people. In experiments with mice, Goodrich and colleagues determined that C. minuta alone promoted thinner mice.

“What’s happening in our field is there are more diseases where the gut microbiome is altered in diseased versus healthy states,” said Goodrich. The study’s findings create new questions about whether genetics may be selecting for microbiomes that also increase the risk of disease. “The next step is to determine what are the specific genes in the human genome that are driving these microbiomes,” said Goodrich. “Once we understand which genes are underlying, then there might be some useful applications.”

Future studies will also help determine whether therapies that alter abundances of gut bacteria will be effective.

Co-authors include Andrew Clark, Cornell professor of population genetics, and Timothy Spector, a professor of epidemiology at King’s College, among others.

Source: Cornell University

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