In vibrios, the expression of virulence factors is often controlled by LuxR, the master quorum-sensing regulator. Here, we investigate the interplay between LuxR and sigma(E), an alternative sigma factor, during the control of virulence-related gene expression and adaptations to temperature elevations in the zoonotic pathogen Vibrio alginolyticus. An rpoE null V. alginolyticus mutant was unable to adapt to various stresses and was survival-deficient in fish. In wild type V. alginolyticus, the expression of LuxR-regulated virulence factors increased as the temperature was increased from 22 degrees C to 37 degrees C, but mutants lacking sigma(E) did not respond to temperature, indicating that sigma(E) is critical for the temperature-dependent upregulation of virulence genes. Further analyses revealed that sigma(E) binds directly to -10 and -35 elements in the luxR promoter that drive its transcription. ChIP assays showed that sigma(E) binds to the promoter regions of luxR, rpoH and rpoE at high temperatures (e.g., 30 degrees C and 37 degrees C). However, at higher temperatures (42 degrees C) that induce thermal stress, sigma(E) binding to the luxR promoter decreased, while its binding to the rpoH and rpoE promoters was unchanged. Thus, the temperature-dependent binding of sigma(E) to distinct promoters appears to underlie a sigma(E)-controlled switch between the expression of virulence genes and adaptation to thermal stress. This study illustrates how a conserved temperature response mechanism integrates into quorum-sensing circuits to regulate both virulence and stress adaptation.

• 出版日期2016-6
• 单位华东理工大学; 生物反应器工程国家重点实验室; 上海人类基因组研究中心