A year in space seems to have a small but significant, transient effect on the gut microbiome, according to a new paper on the NASA Twins Study published in the journal Science.
The microbiome findings, authored by a team of researchers, are among the results from 10 other research teams examining how the human body responds to spaceflight that are reported in the paper.
The authors managed the genetic sequencing and analysis of the gut microbes collected from the twins before, during and after one of the twins spent nearly a year on the International Space Station.
While hundreds of humans have flown in space before, there is little data on how space flight longer than a few months impacts health and the body. The goal of the NASA Twins Study is to determine the physiological and psychological health impacts of long-duration spaceflight by comparing the effect of space on one twin to the impact of the Earth environment on a genetically matched sibling.
The twins involved in the study were astronaut Scott Kelly, who flew a year-long mission aboard the International Space Station which ended in March 2016, and his twin brother, Mark Kelly, also an astronaut, who stayed on Earth while his brother was in orbit. The two brothers, who were 50 years old at the time of the study, provided biological samples and underwent a battery of cognitive and physical exams before, during and after Scott's flight.
Teams of researchers from around the nation analyzed the data and report their findings on the biochemical, cognitive, ocular, genetic, physiological, immunological and other changes in the Science paper.
The researchers sequenced DNA extracted from bacteria, fungi, viruses and other microbes present in fecal swabs collected from the twins before, during and after Scott's year-long mission on the space station.
"Our role in the NASA Twins Study was to sequence as well as analyze the findings from the gastrointestinal microbiomes of the twins, and to place these analyses in context with the results from other teams," the author said.
The gut microbiota helps digest food, fights infections and plays an important role in keeping the immune system healthy. It is greatly influenced by genetics, stress, diet and other environmental factors. Previous research has implicated an unhealthy or unbalanced microbiota as a contributing factor to metabolic disorders, including obesity and diabetes. The species that make up an individual's gut microbiota, as well as their abundance, can be identified by stool sample or fecal swab analysis.
Fecal swabs were collected from both twins twice before Scott's departure from Earth, four times during Scott's time on the space station and then three times upon his return to Earth.
"There seems to be a small but significant effect on the microbiome caused by spaceflight; however, the makeup of Scott's gut microbiome returned to his baseline pretty quickly upon his return to Earth," the author said. "Whether the changes are due to the different food, microgravity, or radiation we can't say definitively, but I believe the effect was caused by differences in what he was eating while in flight. An astronaut's diet consists of mainly freeze-dried or thermo-stabilized prepackaged food."
One of the changes the group noticed was a shift during flight in the ratio of two dominant phyla of bacteria: the Firmicutes and Bacteroidetes. Scott's ratio between these two phyla changed while he was in space, with the ratio of these two phyla increasing about five-fold relative to his baseline. But at no time during the spaceflight were the ratios outside the norms of what you would expect in healthy individuals, the author explained. And, Scott's ratios rapidly returned to where they were before his space mission once he returned to Earth.
The authors also saw no changes in levels of microbial diversity during Scott's time on the space station.
"Diversity remained constant for Scott during his time in space, and this is, from my perspective, a positive finding suggesting substantial resilience and robustness in the gastrointestinal microbiota," the author said.
According to the authors, knowing about changes to the microbiome in space is important, in part because if diversity or key species are lost, there are fewer sources to replenish them. They say, isolation and confinement are some of the main obstacles related to long-duration missions, and these factors could negatively affect the astronaut gut microbiome.
"The overall small and transient effect of extended spaceflight on the gut microbiome we saw in Scott is very promising and suggests that microbial diversity and function can be maintained on even longer flights," the author said. "This should be taken in context, however, of the fact that this is a study of a single individual in low Earth orbit, and future studies are needed to confirm this finding."
A year in space has little effect on gut microbiome!
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