Abstract
Sterol-regulatory element binding proteins (SREBPs) are the key transcriptional regulators of lipid metabolism. The activation of SREBP requires translocation of the SREBP precursor from the endoplasmic reticulum to the Golgi, where it is sequentially cleaved by site-1 protease (S1P) and site-2 protease and releases a nuclear form to modulate gene expression. To search for new genes regulating cholesterol metabolism, we perform a genome-wide CRISPR/Cas9 knockout screen and find that partner of site-1 protease (POST1), encoded by C12ORF49, is critically involved in the SREBP signaling. Ablation of POST1 decreases the generation of nuclear SREBP and reduces the expression of SREBP target genes. POST1 binds S1P, which is synthesized as an inactive protease (form A) and becomes fully mature via a two-step autocatalytic process involving forms B’/B and C’/C. POST1 promotes the generation of the functional S1P-C’/C from S1P-B’/B (canonical cleavage) and, notably, from S1P-A directly (non-canonical cleavage) as well. This POST1-mediated S1P activation is also essential for the cleavages of other S1P substrates including ATF6, CREB3 family members and the α/β-subunit precursor of N-acetylglucosamine-1-phosphotransferase. Together, we demonstrate that POST1 is a cofactor controlling S1P maturation and plays important roles in lipid homeostasis, unfolded protein response, lipoprotein metabolism and lysosome biogenesis.
Highlights
Cholesterol metabolism is a complicated yet highly regulated process composed of biosynthesis, uptake, transport, utilization, export and esterification (Luo et al, 2020)
At the Golgi, sterol-regulatory element binding proteins (SREBPs) is cleaved by site-1 protease (S1P) in the lumenal loop followed by a second cleavage by site-2 protease (S2P) within the membranespanning domain (Brown and Goldstein, 1999)
We performed a genome-scale, unbiased Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)/ CRISPR-associated protein 9 (Cas9) KO screen coupled to the “cholesterol depletion-repletion-amphotericin B (AmB) selection” challenge (Fig. 1A), so that genes involved in low-density lipoprotein (LDL) uptake and cholesterol trafficking to the plasma membrane (PM) were highly enriched
Summary
Cholesterol metabolism is a complicated yet highly regulated process composed of biosynthesis, uptake, transport, utilization, export and esterification (Luo et al, 2020). At the Golgi, SREBP is cleaved by site-1 protease (S1P) in the lumenal loop followed by a second cleavage by site-2 protease (S2P) within the membranespanning domain (Brown and Goldstein, 1999) This liberates the N-terminal fragment that enters the nucleus and activates the transcription of genes controlling cholesterol biosynthesis and uptake, thereby restoring cellular cholesterol levels. Genes with a phenotype value (fold change [log2]) >1 and P-value < 0.001 are in blue (except for POST1 in red) and are shown in smaller scales of xand y-axes (inset). Those with a phenotype value
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