Precursor of the transcription factor form (Processed sterol regulatory element-binding protein 1), which is embedded in the endoplasmic reticulum membrane. Low sterol concentrations promote processing of this form, releasing the transcription factor form that translocates into the nucleus and activates transcription of genes involved in cholesterol biosynthesis and lipid homeostasis.; Key transcription factor that regulates expression of genes involved in cholesterol biosynthesis and lipid homeostasis. Binds to the sterol regulatory element 1 (SRE-1) (5'-ATCACCCCAC-3'). Has dual sequence specificity binding to both an E-box motif (5'-ATCACGTGA-3') and to SRE-1 (5'-ATCACCCCAC-3'). Regulates the promoters of genes involved in cholesterol biosynthesis and the LDL receptor (LDLR) pathway of sterol regulation.; Isoform expressed only in select tissues, which has higher transcriptional activity compared to SREBP-1C. Able to stimulate both lipogenic and cholesterogenic gene expression. Has a role in the nutritional regulation of fatty acids and triglycerides in lipogenic organs such as the liver. Required for innate immune response in macrophages by regulating lipid metabolism.; Predominant isoform expressed in most tissues, which has weaker transcriptional activity compared to isoform SREBP-1A. Primarily controls expression of lipogenic gene. Strongly activates global lipid synthesis in rapidly growing cells.

1. SREBP1c and SREBP2 are transcriptional regulators of the thyroglobulin gene in thyroid cells. PMID: 27321819
2. PPAR-alpha inhibitor (Blueberry Juice and Probiotics) increased the level of SREBP-1c and PNPLA-3 and prevents nonalcoholic steatohepatitis progression by affecting SREBP-1c/PNPLA-3 pathway via PPAR-alpha. PMID: 28264426
3. The involvement of SREBP-1c in FASN promoter histone modification. PMID: 28027934
4. GSK-3-mediated phosphorylation of serine 73 in the rat SREBP-1c and its concomitant destabilization represents a novel mechanism involved in the inhibition of de novo lipid synthesis in the liver. PMID: 26589965
5. Betahistine could act on hepatic H1 receptors via modulation of AMPKalpha-SREBP-1. PMID: 26218603
6. a novel regulatory mechanism by which n-3 PUFA inhibit induction of SREBP-1c by insulin. PMID: 26327595
7. Gene expression studies show Srebf-1c was increased in the mammary gland, liver and adipose tissue of rats fed a low-lipid diet compared with rats from the adequate-lipid diet group throughout pregnancy and lactation. PMID: 25046614
8. The V-shaped chronological alterations in white adipose tissue (WAT) are regulated via SREBP1c, which is probably activated by CR duration-dependent modulation of both insulin and leptin signaling. PMID: 25616173
9. Angiotensin II-induced activation of SREBP-1 required signaling through the angiotensin II type I receptor and activation of PI3K/Akt in addition to the chaperone SCAP and protease S1P. PMID: 25398788
10. SREBP-1c activation participates in skeletal muscle insulin resistance through a direct effect of suppressing Irs-1 transcription. PMID: 24362725
11. Maternal fructose intake during pregnancy causes maternal hyperglycemia and up-regulates hepatic SREBP-1c expression in both fetuses and dams. PMID: 23065593
12. Raising plasma insulin to postprandial levels, increased SREBP-1 mRNA comparably in livers and epidydimal adipose tissue of alert, free moving rats and in adipose tissue of human subjects. PMID: 23913732
13. We demonstrated that H2O2-increase in SREBP-1 protein content was due to enhancement of SREBP-1a mRNA translation. PMID: 23583293
14. SREBPs are novel transcriptional regulators of NIS. PMID: 23542164
15. Treatment of diabetic rats with curcumin increased the phosphorylation of AMPK and prevented the increased renal expression of SREBP-1c. PMID: 22898567
16. CR-associated remodeling of WAT, which involves SREBP-1-mediated transcriptional activation and suppression of macrophage infiltration, is regulated in a GH-IGF-1-independent manner. PMID: 22645024
17. the effect of leptin-induced Stat3 pathway on SREBP-1c expression in HSCs might contribute to the role of leptin in liver fibrosis in mouse, thus advancing understanding of the mechanisms of liver fibrogenesis associated with leptin. PMID: 23295202
18. Our results indicate that exendin-4 inhibits the activation of SREBP1c and C/EBPbeta, which, in turn, may reduce glucolipotoxicity-induced ER stress and beta-cell apoptosis. PMID: 23257266
19. The elevated hepatic expression of Raldh1 in Zucker fatty (obese) rats may cause the excessive retinoic acid production from retinol, and in turn, result in higher Srebp-1c expression. PMID: 23028851
20. FoxO1 inhibits SREBP-1c transcription via combined actions on multiple transcription factors and that this effect is exerted at least in part through reduced transcriptional activity of Sp1 and SREBP-1c PMID: 22511764
21. Data reveal that aberrant activation of LXR reproduced the phenomenon of beta cell dysfunction in the development of type 2 diabetes. Upregulation of SREBP1c production and the lipotoxicity mediated by it played a central role in this process. PMID: 22415588
22. EGR1 upregulation paralleled the expression and transcriptional activity of SREBP1c in long-term ethanol-fed Long-Evans rats. PMID: 22292946
23. SREBP1 expression was elevated in type 2 diabetic rats. Early insulin therapy reduced SREBP1 expression. PMID: 22093779
24. Data show that orotic acid induces hepatic lipogenesis, mediated predominantly by the AMPK/SREBP-1 pathway in rat hepatocytes and human hepatoma cell lines. PMID: 21757781
25. High sterol regulatory element binding protein-1c is associated with the pathogenesis of non-alcoholic steatohepatitis. PMID: 21986124
26. The mRNA levels of one insulin-induced (Srebp-1c) and one insulin-suppressed (Pck1) genes in response to insulin, glucagon, and compactin treatments in hepatocytes were analyzed. PMID: 21731709
27. The expression of GLUT4 in response to insulin and fasting/refeeding in adipose tissue and the role of sterol regulatory binding protein-1c (SREBP-1c) in GLUT4 regulation are reported. PMID: 16787385
28. Orotic acid caused fatty infiltration by stimulating TG synthesis through the upregulation of SREBP-1c and its target gene involved in fatty acid biosynthesis. PMID: 21167679
29. SREBP-1c and Wnt10b display inverse expression patterns during muscle ontogenesis and regeneration, as well as during satellite cells differentiation.[SREBP-1c] PMID: 20041157
30. Increased expression of SREBP-1 was further observed in the liver tissues of aging Fischer 344 rats. PMID: 20615871
31. The oxidative stress and nonalcoholic fatty liver disease via SREBP-1c. PMID: 19616615
32. role in regulating renal lipid metabolism and glomerulosclerosis in diabetes mellitus (SREBP-1) PMID: 11875060
33. plays a role in the induction of lipogenic enzyme genes in response to insulin treatment PMID: 12016216
34. results suggest that the IRS-1-PI 3-kinase pathway is essential for insulin-induced expression of SREBP-1c and glucokinase genes. PMID: 12031952
35. SREBP-1c expression is sensitive to insulin and can transduce the positive and negative actions of the hormone on specific genes and thus has a pivotal role in long-term muscle insulin sensitivity. PMID: 12031958
36. data indicate that PUFA suppress the in vivo proteolytic release of sterol regulatory element binding proteins-1 and -2, but the effect on SREBP-2 is transitory PMID: 12421847
37. sterol regulatory element binding protein-1c maturation could be implicated in the pathogenesis of beta-cell glucolipotoxicity PMID: 12600983
38. study provides evidence that acetyl-CoA carboxylase beta expression in liver is regulated at the transcriptional level by the direct interaction of sterol regulatory element binding protein-1 with promoter II PMID: 12764144
39. SREBP-1c RNA and SREBP-1 protein levels respond to nutritional status in skeletal muscle. PMID: 12771318
40. SREBP1c has a role in regulating lipogenic enzymes and transport proteins stimulated by keratinocyte growth factor in type II alveolar cells PMID: 12865412
41. Results describe the temporal relationships and role of CCAAT/enhancing-binding protein alpha, sterol regulatory element binding protein-1c, and stearoyl-CoA desaturase 1 in lipogenesis in fetal rat lung. PMID: 12896875
42. sterol regulatory element-binding protein-1 gene expression has a role in hepatic lipogenesis with Protein-tyrosine phosphatase 1B PMID: 12941932
43. Protein kinase B has a role in insulin-dependent induction of sterol regulatory element-binding protein 1 mRNA in hepatocytes PMID: 14505487
44. Sterol regulatory element-binding protein 1 (SREBR-1) plays a role in increase of the lipogenic potential of adipose tissue after repeated dieting. PMID: 14668913
45. SREBP-1c is not altered when a modest hepatic overexpression of glucokinase alters expression of metabolic genes PMID: 14674713
46. SREBP-1c and Sp1 interact to regulate transcription of the gene for phosphoenolpyruvate carboxykinase (GTP) in the liver PMID: 14744869
47. Rats fed soy protein had an elevated hepatic SREBP1 mRNA level and avoided the developomenet of fatty liver. PMID: 14988441
48. skeletal muscle SREBP-1c gene expression is regulated by nutritional status in a fashion similar to that observed in liver and adipose tissue PMID: 15001432
49. ADD1/SREBP1c controls adiponectin gene expression in differentiated adipocytes PMID: 15037635
50. SREBP-1c is stimulated by glucose through a Jak/STAT dependent pathway and has a role in intramuscular lipid accumulation associated with muscle insulin resistance PMID: 15039461

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[Sterol regulatory element-binding protein 1]: Endoplasmic reticulum membrane; Multi-pass membrane protein. Golgi apparatus membrane; Multi-pass membrane protein. Cytoplasmic vesicle, COPII-coated vesicle membrane; Multi-pass membrane protein.; [Processed sterol regulatory element-binding protein 1]: Nucleus.

SREBP family

Expressed predominantly in brown adipose tissue.

KEGG: rno:78968

STRING: 10116.ENSRNOP00000050057

UniGene: Rn.198857