Abstract
Insig-1 and Insig-2 are closely related proteins of the endoplasmic reticulum (ER) that block proteolytic activation of sterol regulatory element-binding proteins (SREBPs), membrane-bound transcription factors that activate synthesis of cholesterol and fatty acids in animal cells. When cellular cholesterol levels are high, Insig proteins bind to SREBP cleavage-activating protein, retaining it in the ER and preventing it from escorting SREBPs to the site of proteolytic activation in the Golgi complex. Here we report that hypotonic stress reverses the sterol-mediated inhibition of SREBP proteolytic activation by reducing the level of Insig-1 but not Insig-2. The reduction of Insig-1, a protein with a rapid turnover rate, results from a general inhibition of protein synthesis mediated by hypotonic stress. Insig-2 is not affected by hypotonic stress because of its slower turnover rate. Inhibition of protein synthesis by hypotonic shock has not been reported previously. Thapsigargin, an activator of the ER stress response, also inhibits protein synthesis and activates proteolysis of SREBP. Such activation also correlates with the disappearance of Insig-1. The current study demonstrates that animal cells, in response to either hypotonic shock or ER stress, can bypass the cholesterol inhibition of SREBP processing, an effect that is attributable to the rapid turnover of Insig-1.
Highlights
Insig-1 and Insig-2 were recently identified as membrane proteins that reside in the endoplasmic reticulum (ER) and play a central role in the regulation of SREBP proteolytic processing [3, 4]
We show that two cellular perturbations that inhibit general protein synthesis, incubation of cells in hypotonic medium or thapsigargin-induced ER stress [7], deplete Insig-1 because of its intrinsically rapid rate of degradation
Plasmid Constructs—The following plasmids were described in the indicated reference: pTK-HSV-SREBP2, encoding herpes simplex virus (HSV) epitope-tagged human SREBP-2 driven by the herpes simplex virus thymidine kinase promoter [8]; pTK-SCAP, encoding wild type hamster SCAP under control of the herpes simplex virus thymidine kinase promoter [12]; pCMV-Myc-Site-2 protease (S2P), encoding Myc epitope-tagged human S2P driven by the CMV enhancer/promoter [13]; pCMV-S1PMyc, encoding hamster Site-1 protease (S1P) with c-Myc epitope-tagged at the COOH terminus followed by six histidine residues [14]; and pCMV-Insig-1-Myc and pCMV-Insig-2-Myc, encoding full-length versions of human Insig-1
Summary
Materials—We obtained sorbitol, thapsigargin, RPMI 1640 amino acid solution, and RPMI 1640 vitamin solution from Sigma; sucrose from Invitrogen; all sterols from Steraloids, Inc.; horseradish peroxidase-conjugated donkey anti-mouse and anti-rabbit IgGs (affinity-purified) from Jackson Immunoresearch Laboratories; and IgG-9E10, a mouse monoclonal antibody against Myc tag, from ATCC. IgG-7D4, a mouse monoclonal antibody against hamster SREBP-2 [8] and IgGR139, a rabbit polyclonal antibody against hamster SCAP [9] were previously described in the indicated references; lipoprotein-deficient newborn calf serum (d Ͼ 1.215 g/ml) [10] and cholesterol1⁄7methyl-cyclodextrin inclusion complexes [11] were prepared as described. Plasmid Constructs—The following plasmids were described in the indicated reference: pTK-HSV-SREBP2, encoding herpes simplex virus (HSV) epitope-tagged human SREBP-2 driven by the herpes simplex virus thymidine kinase promoter [8]; pTK-SCAP, encoding wild type hamster SCAP under control of the herpes simplex virus thymidine kinase promoter [12]; pCMV-Myc-S2P, encoding Myc epitope-tagged human S2P driven by the CMV enhancer/promoter [13]; pCMV-S1PMyc, encoding hamster S1P with c-Myc epitope-tagged at the COOH terminus followed by six histidine residues [14]; and pCMV-Insig-1-Myc and pCMV-Insig-2-Myc, encoding full-length versions of human Insig-1
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