Pyroptosis modulation by bacterial effector proteins

Pyroptosis is a proinflammatory form of programmed cell death featured with membrane pore formation that causes cellular swelling and allows the release of intracellular inflammatory mediators. This cell death process is elicited by the activation of the pore-forming proteins named gasdermins, and is intricately orchestrated by diverse regulatory factors in mammalian hosts to exert a prompt immune response against infections. However, growing evidence suggests that bacterial pathogens have evolved to regulate host pyroptosis for evading immune clearance and establishing progressive infection. In this review, we highlight current understandings of the functional role and regulatory network of pyroptosis in host antibacterial immunity. Thereafter, we further discuss the latest advances elucidating the mechanisms by which bacterial pathogens modulate pyroptosis through adopting their effector proteins to drive infections. A better understanding of regulatory mechanisms underlying pyroptosis at the interface of host-bacterial interactions will shed new light on the pathogenesis of infectious diseases and contribute to the development of promising therapeutic strategies against bacterial pathogens.

Automated summary

Pyroptosis is a proinflammatory form of programmed cell death characterized by membrane pore formation and release of intracellular inflammatory mediators. Bacterial pathogens have developed mechanisms to regulate host pyroptosis for evading immune clearance and establishing progressive infection. Understanding the regulatory mechanisms of pyroptosis in host-bacterial interactions can provide insights into the pathogenesis of infectious diseases and aid in the development of therapeutic strategies against bacterial pathogens.