2018-12-01_Discover

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FROM TOP: GAUTAM DANTAS/SCIENCE; STEVE JURVETSON VIA FLICKR; MATT MILLER/WASHINGTON UNIVERSITY SCHOOL OF MEDICINE


When Gautam Dantas irst
observed bacteria eating
antibiotics, he was sure there had to be
some mistake. The year was 2007, and
he was trying to coax microbes to turn
plant waste into biofuels. Dantas was a
postdoctoral researcher in the Harvard
University lab of George Church, a
pioneer in genetics research. As part of
his investigation, Dantas had exposed
one group of soil microbes to a dose
of antibiotic, which he igured the
bacteria wouldn’t eat. A week later, a
group grown on a diet of plant matter
— and exposed to no antibiotics
— had grown only a little. In the
dishes illed with antibiotic, however,
most of the microbes were having a
picnic. Instead of proving deadly, the
antibiotics were providing sustenance.
“We igured we’d probably made a
mistake,” Dantas recalls a decade later.
He’s now a professor of pathology,
immunology and biomedical
engineering at Washington University,
managing a lab with more than a
dozen researchers studying everything
from biofuel production to the human
microbiome. But the mystery of those
antibiotic-eating bacteria has remained
a personal obsession.
Earlier this year, after hundreds of
experiments, Dantas inally published
his solution in Nature Chemical
Biology. What he discovered provides
important insights into antibiotic
resistance, the precipitous increase in
bacterial immunity to what should
be killer drug doses. Public health
oficials now consider it a medical
crisis. Every year, some 700,000 deaths
are attributed to pathogens that are
resistant to penicillin and other drugs
designed to kill them — largely in

A TASTE FOR PENICILLIN
Biologists have known bacteria
could consume antibiotics since the
early ’60s, but the knowledge was
neither widespread nor deep when
Dantas accidentally witnessed his
irst antibiotic feast. Intrigued, he
decided to follow up on forgotten old
studies by surveying the phenomenon
comprehensively. He bought all
the relevant drugs listed in the lab’s
microbiology supply catalog, and
collected soils from public parks,
secluded forests and cornields that
were fertilized with manure. All 18
drugs were eaten up by microbes
in his soil samples, especially
alarming because the concentrations
were 50 to 100 times greater than
ordinary antibiotic-resistant bacteria
can tolerate.
Published in Science in 2008, the

response to overprescription and
careless disposal. With any luck,
Dantas’ hungry bacteria will help, by
preventing resistance from evolving
in the irst place.

The Antibiotic Eaters


Researchers design bacteria to gobble up antibiotics in the environment, before microbes
have a chance to turn deadly. BY JONATHON KEATS

Gautam Dantas (above) discovered, while
working in George Church’s lab at Harvard
University, that bacteria can consume
antibiotics.

George
Church

Prognosis

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