[HTML][HTML] Transport-dependent proteolysis of SREBP: relocation of site-1 protease from Golgi to ER obviates the need for SREBP transport to Golgi
Cell, 1999•cell.com
Cholesterol homeostasis in animal cells is achieved by regulated cleavage of membrane-
bound transcription factors, designated SREBPs. Proteolytic release of the active domains of
SREBPs from membranes requires a sterol-sensing protein, SCAP, which forms a complex
with SREBPs. In sterol-depleted cells, SCAP escorts SREBPs from ER to Golgi, where
SREBPs are cleaved by Site-1 protease (S1P). Sterols block this transport and abolish
cleavage. Relocating active S1P from Golgi to ER by treating cells with brefeldin A or by …
bound transcription factors, designated SREBPs. Proteolytic release of the active domains of
SREBPs from membranes requires a sterol-sensing protein, SCAP, which forms a complex
with SREBPs. In sterol-depleted cells, SCAP escorts SREBPs from ER to Golgi, where
SREBPs are cleaved by Site-1 protease (S1P). Sterols block this transport and abolish
cleavage. Relocating active S1P from Golgi to ER by treating cells with brefeldin A or by …
Abstract
Cholesterol homeostasis in animal cells is achieved by regulated cleavage of membrane-bound transcription factors, designated SREBPs. Proteolytic release of the active domains of SREBPs from membranes requires a sterol-sensing protein, SCAP, which forms a complex with SREBPs. In sterol-depleted cells, SCAP escorts SREBPs from ER to Golgi, where SREBPs are cleaved by Site-1 protease (S1P). Sterols block this transport and abolish cleavage. Relocating active S1P from Golgi to ER by treating cells with brefeldin A or by fusing the ER retention signal KDEL to S1P obviates the SCAP requirement and renders cleavage insensitive to sterols. Transport-dependent proteolysis may be a common mechanism to regulate the processing of membrane proteins.
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