期刊论文详细信息
HipBA-promoter structures reveal the basis of heritable multidrug tolerance
Article
关键词: ESCHERICHIA-COLI K-12;    PERSISTER CELLS;    AFFECTS LETHALITY;    AFFECTS FREQUENCY;    PROTEIN-DNA;    INHIBITION;    MECHANISMS;    PEPTIDOGLYCAN;    STRAINS;    OPERON;   
DOI  :  10.1038/nature14662
来源: SCIE
【 摘 要 】

Multidrug tolerance is largely responsible for chronic infections and caused by a small population of dormant cells called persisters. Selection for survival in the presence of antibiotics produced the first genetic link to multidrug tolerance: a mutant in the Escherichia coli hipA locus. HipA encodes a serine-protein kinase, the multidrug tolerance activity of which is neutralized by binding to the transcriptional regulator HipB and hipBA promoter. The physiological role of HipA in multidrug tolerance, however, has been unclear. Here we show that wild-type HipA contributes to persister formation and that high-persister hipA mutants cause multidrug tolerance in urinary tract infections. Perplexingly, high-persister mutations map to the N-subdomain-1 of HipA far from its active site. Structures of higher-order HipA-HipB-promoter complexes reveal HipA forms dimers in these assemblies via N-subdomain-1 interactions that occlude their active sites. High-persistence mutations, therefore, diminish HipA-HipA dimerization, thereby unleashing HipA to effect multidrug tolerance. Thus, our studies reveal the mechanistic basis of heritable, clinically relevant antibiotic tolerance.

【 授权许可】

Free   

  文献评价指标  
  下载次数:0次 浏览次数:2次