Persistence toxin promotes antibiotic resistance: Structure reveals how HigB bacterial protein recognizes mRNA

This is a computer graphic of an RNA molecule. Credit: Richard Feldmann/Wikipedia

Scientists call them toxins. But these bacterial proteins don’t poison us, at least not directly.

Instead, they restrain the growth of the bacteria that make them, establishing a dormant “persister cell” state that is tolerant to antibiotics.

Researchers at Emory University School of Medicine have obtained precise pictures showing how a toxin protein, called HigB, recognizes and rips up RNA as part of its growth-inhibition function. Their findings could lead to a better understanding of the formation of and how they maintain themselves.

The results are scheduled for publication on October 26 in PNAS.

“Persister cells survive , even though they don’t carry genes for ,” says senior author Christine Dunham, PhD, assistant professor of biochemistry at Emory University School of Medicine.

“We used to think of them as just dormant cells that had just stopped growing. But it looks more and more like persistence is an actively maintained state. By looking at how HigB functions, we gain insights into how persistence is controlled.”

The first author of the paper is Marc Schureck, a graduate student in the Biochemistry, Cell and Developmental Biology program.

HigB was first identified in Proteus vulgaris, a major cause of urinary tract and wound infections, but is also found in several other disease-causing bacterial strains. The HigB protein cuts up messenger RNA transcripts, which are instructions for making proteins.

Using X-ray crystallography and biochemical studies, Schureck and his colleagues examined how HigB recognizes messenger RNA and how it interacts with ribosomes, the protein factories programmed by messenger RNA.

“We can see that HigB doesn’t degrade all RNAs equally well during stress; it’s exquisitely selective, which in turn shapes the proteome for bacterial survival,” Dunham says. “The prevention of a persister state would be a new antimicrobial strategy that could be used in adjuvant therapy in combination with antibiotics.”

Explore further:
Addressing the challenge of persister cells in bacterial infections

More information:
Defining the mRNA recognition signature of a bacterial toxin protein, PNAS,

Source Article from

You can leave a response, or trackback from your own site.

Leave a Reply

Powered by WordPress | Designed by: Premium WordPress Themes | Thanks to Themes Gallery, Bromoney and Wordpress Themes