Potential new target to thwart antibiotic resistance: Viruses in gut confer antibiotic resistance to bacteria
June 10, 2013 — Bacteria in the gut that are under attack by antibiotics have allies no one had anticipated, a team of Wyss Institute scientists has found. Gut viruses that usually commandeer the bacteria, it turns out, enable them to survive the antibiotic onslaught, most likely by handing them genes that help them withstand the drug.
What's more, the gut viruses, called bacteriophage or simply phage, deliver genes that help the bacteria to survive not just the antibiotic they've been exposed to, but other types of antibiotics as well, the scientists reported online June 9 in Nature. That suggests that phages in the gut may be partly responsible for the emergence of dangerous superbugs that withstand multiple antibiotics, and that drug targeting of phages could offer a potential new path to mitigate development of antibiotic resistance.
"The results mean that the antibiotic-resistance situation is even more troubling than we thought," said senior author Jim Collins, Ph.D., a pioneer of synthetic biology and Core Faculty member at the Wyss Institute for Biologically Inspired Engineering, who is also the William F. Warren Distinguished Professor at Boston University, where he leads the Center of Synthetic Biology.
Today disease-causing bacteria have adapted to antibiotics faster than scientists can generate new drugs to kill them, creating a serious global public-health threat. Patients who are hospitalized with serious bacterial infections tend to have longer, more expensive hospital stays, and they are twice as likely to die as those infected with antibiotic-susceptible bacteria, according to the World Health Organization. In addition, because first-line drugs fail more often than before, more expensive therapies must be used, raising health-care costs.
In the past, Collins and other scientists have probed the ways gut bacteria adapt to antibiotics, but they've focused on the bacteria themselves. But Collins and Sheetal Modi, Ph.D., the lead author of the study and a postdoctoral fellow in Collins' laboratory and at the Wyss Institute, knew that phage were also abundant in the gut, and that they were adept at ferrying genes from one bacterium to another.
The researchers wondered whether treating mice with antibiotics led phage in the gut to pick up more drug-resistance genes, and if so, whether that made gut bacteria stronger.
They gave mice either ciprofloxacin or ampicillin -- two commonly prescribed antibiotics. After eight weeks, they harvested all the viruses in the mice's feces, and identified the viral genes present by comparing them with a large database of known genes.
They found that the phages from antibiotic-treated mice carried significantly higher numbers of bacterial drug-resistance genes than they would have carried by chance. What's more, phage from ampicillin-treated mice carried more genes that help bacteria fight off ampicillin and related penicillin-like drugs, while phage from ciprofloxacin-treated mice carried more genes that help them fight off ciprofloxacin and related drugs.
"When we treat mice with certain classes of drugs, we see enrichment of resistance genes to those drug classes," Modi said.
The phage did more than harbor drug-resistance genes. They could also transfer them back to gut bacteria -- a necessary step in conferring drug resistance. The researchers demonstrated this by isolating phage from either antibiotic-treated mice or untreated mice, then adding those phage to gut bacteria from untreated mice. Phage from ampicillin-treated mice tripled the amount of ampicillin resistance, while phage from ciprofloxacin-treated mice doubled the amount of ciprofloxacin resistance.
That was bad enough, but the scientists also found signs that the phage could do yet more to foster antibiotic resistance. That's because gut phage from mice treated with one drug carried high levels of genes that confer resistance to different drugs, which means that the phage could serve as backup when bacteria must find ways to withstand a variety of antibiotics.
"With antibiotic treatment, the microbiome has a means to protect itself by expanding the antibiotic resistance reservoir, enabling bugs to come back to be potentially stronger and more resistant than before," Collins said.
"Antibiotic resistance is as pressing a global health problem as they come, and to fight it, it's critical to understand it," said Don Ingber, M.D., Ph.D., Wyss Institute Founding Director. "Jim's novel findings offer a previously unknown way to approach this problem -- by targeting the phage that live in our intestine, rather than the pathogens themselves."
This work was funded by the National Institutes of Health Director's Pioneer Award Program, the Howard Hughes Medical Institute, and the Wyss Institute for Biologically Inspired Engineering. In addition to Collins and Modi, the research team included: Henry H. Lee, Ph.D., a former graduate student at Boston University who's currently at Harvard Medical School, and Catherine S. Spina, an M.D./Ph.D. candidate at Boston University and researcher at the Wyss Institute.
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