8/29/2014 7:57:12 AM
Home Is Where The Microbes Are: Home Microbiome Project Announces Results Of Study On Household Microbes
A person’s home is their castle, and they populate it with their own subjects: millions and millions of bacteria.
A study published tomorrow in Science provides a detailed analysis of the microbes that live in houses and apartments. The study was conducted by researchers from the U.S. Department of Energy’s Argonne National Laboratory and the University of Chicago.
The results shed light on the complicated interaction between humans and the microbes that live on and around us. Mounting evidence suggests that these microscopic, teeming communities play a role in human health and disease treatment and transmission.
“We know that certain bacteria can make it easier for mice to put on weight, for example, and that others influence brain development in young mice,” said Argonne microbiologist Jack Gilbert, who led the study. “We want to know where these bacteria come from, and as people spend more and more time indoors, we wanted to map out the microbes that live in our homes and the likelihood that they will settle on us.
“They are essential for us to understand our health in the 21st century,” he said.
The Home Microbiome Project followed seven families, which included eighteen people, three dogs and one cat, over the course of six weeks. The participants in the study swabbed their hands, feet and noses daily to collect a sample of the microbial populations living in and on them. They also sampled surfaces in the house, including doorknobs, light switches, floors and countertops.
Then the samples came to Argonne, where researchers performed DNA analysis to characterize the different species of microbes in each sample.
“We wanted to know how much people affected the microbial community on a house’s surfaces and on each other,” Gilbert said.
They found that people substantially affected the microbial communities in a house—when three of the families moved, it took less than a day for the new house to look just like the old one, microbially speaking.
Regular physical contact between individuals also mattered—in one home where two of the three occupants were in a relationship with one another, the couple shared many more microbes. Married couples and their young children also shared most of their microbial community.
Within a household, hands were the most likely to have similar microbes, while noses showed more individual variation.
Adding pets changed the makeup as well, Gilbert said—they found more plant and soil bacteria in houses with indoor-outdoor dogs or cats.
Home microbiome studies also could potentially serve as a forensic tool, Gilbert said. The research suggests that when a person (and their microbes) leaves a house, the microbial community shifts noticeably in a matter of days.
In at least one case, the researchers tracked a potentially pathogenic strain of bacteria called Enterobacter, which first appeared on one person’s hands, then the kitchen counter, and then another person’s hands.
“This doesn’t mean that the countertop was definitely the mode of transmission between the two humans, but it’s certainly a smoking gun,” Gilbert said.
“It’s also quite possible that we are routinely exposed to harmful bacteria—living on us and in our environment—but it only causes disease when our immune systems are otherwise disrupted.”
Home microbiome studies also could potentially serve as a forensic tool, Gilbert said. Given an unidentified sample from a floor in this study, he said, “we could easily predict which family it came from.”
The research also suggests that when a person (and their microbes) leaves a house, the microbial community shifts noticeably in a matter of days.
“You could theoretically predict whether a person has lived in this location, and how recently, with very good accuracy,” he said.
Researchers used Argonne’s Magellan cloud computing system to analyze the data; additional support came from the University of Chicago Research Computing Center.
The paper, “Longitudinal analysis of microbial interaction between humans and the indoor environment,” will be published tomorrow in Science.
The study was funded by the Alfred P. Sloan Foundation. Additional funding also came from the National Institutes of Health, the Environmental Protection Agency, and the National Science Foundation.
Other Argonne researchers on the study included Argonne computational biologist Peter Larsen, postdoctoral researchers Daniel Smith, Kim Handley, and Nicole Scott, and contractors Sarah Owens and Jarrad Hampton-Marcell. University of Chicago graduate students Sean Gibbons and Simon Lax contributed to the paper, as well as collaborators from Washington University in St. Louis and the University of Colorado at Boulder.
The University of Chicago Medicine and Biological Sciences is one of the nation's leading academic medical institutions. It comprises the Pritzker School of Medicine, a top medical school in the nation; the University of Chicago Biological Sciences Division; and the University of Chicago Medical Center, which recently opened the Center for Care and Discovery, a $700 million specialty medical facility. Twelve Nobel Prize winners in physiology or medicine have been affiliated with the University of Chicago Medicine.
Argonne National Laboratory seeks solutions to pressing national problems in science and technology. The nation's first national laboratory, Argonne conducts leading-edge basic and applied scientific research in virtually every scientific discipline. Argonne researchers work closely with researchers from hundreds of companies, universities, and federal, state and municipal agencies to help them solve their specific problems, advance America's scientific leadership and prepare the nation for a better future. With employees from more than 60 nations, Argonne is managed by UChicago Argonne, LLC for the U.S. Department of Energy's Office of Science. For more visit www.anl.gov.
DOE’s Office of Science is the single largest supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time. For more information, please visit science.energy.gov.
For more information, contact Brian Grabowski (Argonne National Laboratory) at firstname.lastname@example.org / (630) 252-1232 or Kevin Jiang (University of Chicago Medicine) at email@example.com / (773) 795-5227.
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