Molecular Mechanisms of HipA-Mediated Multidrug Tolerance and Its Neutralization by HipB

Bacterial multidrug tolerance is largely responsible for the inability of antibiotics to eradicate infections and is caused by a small population of dormant bacteria called persisters. HipA is a critical Escherichia coli persistence factor that is normally neutralized by HipB, a transcription repres...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2009-01, Vol.323 (5912), p.396-401
Hauptverfasser: Schumacher, Maria A, Piro, Kevin M, Xu, Weijun, Hansen, Sonja, Lewis, Kim, Brennan, Richard G
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Sprache:eng
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Zusammenfassung:Bacterial multidrug tolerance is largely responsible for the inability of antibiotics to eradicate infections and is caused by a small population of dormant bacteria called persisters. HipA is a critical Escherichia coli persistence factor that is normally neutralized by HipB, a transcription repressor, which also regulates hipBA expression. Here, we report multiple structures of HipA and a HipA-HipB-DNA complex. HipA has a eukaryotic serine/threonine kinase-like fold and can phosphorylate the translation factor EF-Tu, suggesting a persistence mechanism via cell stasis. The HipA-HipB-DNA structure reveals the HipB-operator binding mechanism, ~70° DNA bending, and unexpected HipA-DNA contacts. Dimeric HipB interacts with two HipA molecules to inhibit its kinase activity through sequestration and conformational inactivation. Combined, these studies suggest mechanisms for HipA-mediated persistence and its neutralization by HipB.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1163806