As the executor of pyroptosis known to date, gasdermins (GSDMs), consists of GSDMA, GSDMB, GSDMC, GSDMD, GSDME and pejvakin, might play critical roles in anti-bacterial infection as well as inflammatory diseases. However, zebrafish only harbors a pair of Gsdme (Gsdmea/b), and their activation mechanisms remain largely unknown. Herein, we investigate the activation mechanism of Gsdmea/b cleaved by inflammatory and apoptotic caspases in zebrafish,and found that Gsdmea/b are equally cleaved by Caspase 19b, a sister of Caspy2, but not Caspy. Moreover, the zebrafish apoptotic effector caspases, including Caspase 3a/b and Caspase 7, also can cleave Gsdmea/b at the same sites as inflammatory caspases recognized. Importantly, our results reveal that Caspase 8a/b can cleave Gsdmeb, but only Caspase 8a can cleave Gsdmea. Taken together, these findings suggest that zebrafish Gsdmea/b can concurrently function as GSDMD and GSDME in mammals, which will contribute to better understanding the mechanism of pyroptosis activation in teleost, as well as provide a clue for drug screening model against inflammatory diseases.
Keywords: Apoptotic caspases; Gsdme; Inflammatory caspases; Pyroptosis; Zebrafish.
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