Zhao Yue, Shi Jianjin, Shao Feng
National Institute of Biological Sciences, #7 Science Park Rd, Beijing, 102206, China.
Methods Mol Biol. 2018;1714:131-148. doi: 10.1007/978-1-4939-7519-8_9.
Gasdermin-D (also known as GSDMD), the newly identified executioner of pyroptotic cell death, is cleaved by activated caspase-1 downstream of canonical inflammasome activation or caspase-4, 5, and 11 upon their ligation and activation by cytosolic LPS. Upon a single cleavage between the two domains in Gasdermin-D, the N-terminal domain binds to membrane lipids and lyses cells by forming pores of an inner diameter of 10-14 nm within the membrane. The inter-domain cleavage of Gasdermin-D is a reliable marker for the activation of inflammatory caspases and cell pyroptosis. Here, we describe the methods for examining Gasdermin-D cleavage by activated inflammatory caspases in vitro and upon inflammasome activation in vivo.
Gasdermin-D(也称为GSDMD)是新发现的细胞焦亡执行者,在经典炎性小体激活下游被活化的caspase-1切割,或者在细胞溶质LPS连接并激活后被caspase-4、5和11切割。Gasdermin-D两个结构域之间发生单次切割后,其N端结构域与膜脂结合,并通过在膜内形成内径为10-14nm的孔使细胞裂解。Gasdermin-D的结构域间切割是炎性caspase激活和细胞焦亡的可靠标志物。在此,我们描述了体外检测活化的炎性caspase对Gasdermin-D的切割以及体内炎性小体激活后检测Gasdermin-D切割的方法。