Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/1126
Title: ClpB is an essential stress regulator of Mycobacterium tuberculosis and endows survival advantage to dormant bacilli
Authors: Batra, Janendra K
Kumari, Sujata
Tripathi, Prajna
Hakiem, Owais R
Singh, Lalit K
Keywords: Caseinolytic protease; Cytokine; Latency; Rv0384c; Stress tolerance; Tuberculosis
Issue Date: Apr-2020
Publisher: Elsevier GmbH
Abstract: The ability to tolerate multiple host derived stresses, resist eradication and persist within the infected individuals is central to the pathogenicity of Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB). Mycobacterial survival is contingent upon sensing environmental perturbations and initiating a fitting response to counter them. Therefore, understanding of molecular mechanisms underlying stress tolerance and sensing in Mtb is critical for devising strategies for TB control. Our study aims to delineate the role of ClpB, a heat shock protein of Hsp100 family, in the general stress response and persistence mechanisms of Mtb. We demonstrate that Mtb requires ClpB to survive under stressful conditions. Additionally, we show that ClpB is necessary for the bacteria to persist in latency-like conditions such as prolonged hypoxia and nutrient-starvation. The disruption of ClpB results in aberrant cellular morphology, impaired biofilm formation and reduced infectivity of Mtb ex vivo. Our study also reports an alternative role of ClpB as a chaperokine which elicits inflammatory response in host. We conclude that ClpB is essential for Mtb to survive within macrophages, and plays a crucial part in the maintenance of dormant Mtb bacilli in latent state. The absence of ClpB in human genome makes it an attractive choice as drug target for TB.
URI: http://hdl.handle.net/123456789/1126
Appears in Collections:Immunochemistry, Publications
Immunochemistry, Publications

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