Group A Streptococcus induces GSDMA-dependent pyroptosis in keratinocytes

Gasdermins (GSDMs) are a family of pore-forming effectors that permeabilize the cell membrane during the cell death program pyroptosis(1). GSDMs are activated by proteolytic removal of autoinhibitory carboxy-terminal domains, typically by caspase regulators(1-9). However, no activator is known for one member of this family, GSDMA. Here we show that the major human pathogen group A Streptococcus (GAS) secretes a protease virulence factor, SpeB, that induces GSDMA-dependent pyroptosis. SpeB cleavage of GSDMA releases an active amino-terminal fragment that can insert into membranes to form lytic pores. GSDMA is primarily expressed in the skin 10 , and keratinocytes infected with SpeB-expressing GAS die of GSDMA-dependent pyroptosis. Mice have three homologues of human GSDMA, and triple-knockout mice are more susceptible to invasive infection by a pandemic hypervirulent M1T1 clone of GAS. These results indicate that GSDMA is critical in the immune defence against invasive skin infections by GAS. Furthermore, they show that GSDMs can act independently of host regulators as direct sensors of exogenous proteases. As SpeB is essential for tissue invasion and survival within skin cells, these results suggest that GSDMA can act akin to a guard protein that directly detects concerning virulence activities of microorganisms that present a severe infectious threat.

Automated summary

This study found that the major human pathogen group A Streptococcus secretes a protease virulence factor, SpeB, that induces GSDMA-dependent pyroptosis. GSDMAs can act independently of host regulators as direct sensors of exogenous proteases. The results indicate the critical role of GSDMA in the immune defense against invasive skin infections by GAS.