Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
 5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the membrane topography of cholesterol biosynthesis in cultured human fibroblasts. We fed the cells with radioacetate and then interrupted the biosynthetic pathway so as to trap labeled intermediates in their subcellular locations. We analyzed homogenates of human fibroblasts labeled biosynthetically from radioacetate by centrifugation to equilibrium on sucrose gradients. The following two methods were used to interrupt cholesterol biosynthesis: incubation at 10 degrees C and treatment with 4,4,10 beta-trimethyl-trans-decal-3 beta-ol, a specific inhibitor of oxidosqualene cyclase. Incubation at 10 degrees C caused the accumulation of radiolanosterol at the expense of cholesterol. The lanosterol appeared predominantly at an unusually buoyant density (20% (w/w) sucrose; d = 1.08 g/cm3) as well as at the density normally labeled at 37 degrees C (30% sucrose; d = 1.13 g/cm3). 4,4,10 beta-Trimethyl-trans-decal-3 beta-ol treatment caused the accumulation of labeled squalene and squalene 2,3-oxide. Reversal of the block permitted the label to progress rapidly as a wave into lanosterol and ultimately into cholesterol. The profiles of the three precursors did not coincide, suggesting that they were mostly in different membranes. Squalene was uniquely confined to a density of 1.18 g/cm3 (40% sucrose) while squalene 2,3-oxide appeared in peaks of density 1.08 g/cm3 and 1.13 g/cm3 (20% and 30% sucrose). Lanosterol was in a peak of density 1.13 g/cm3. Pulse-chase experiments showed that lanosterol synthesized in the membranes at 20% sucrose moved rapidly to the membranes at 30% sucrose where it was converted to cholesterol. The density gradient profiles of the following organelle markers also were monitored: plasma membrane, cholesterol mass; Golgi apparatus, galactosyltransferase; endoplasmic reticulum, RNA, 3-hydroxy-3-methylglutaryl-coenzyme A reductase and cytochrome c reductase; peroxisomes, catalase. None of these markers appeared at the buoyant density of 1.08 g/cm3. We conclude that 1) cholesterol biosynthesis may be topographically heterogeneous and 2) newly synthesized squalene 2,3-oxide resides in a buoyant membrane fraction distinct from markers for the major organelles.
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PMID:Topographic heterogeneity in cholesterol biosynthesis. 313 62

Adipocytes hold the body's major energy reserve as triacylglycerols packaged in large lipid droplets. Perilipins, the most abundant proteins on these lipid droplets, play a critical role in facilitating both triacylglycerol storage and hydrolysis. The stimulation of lipolysis by beta-adrenergic agonists triggers rapid phosphorylation of perilipin and translocation of hormone-sensitive lipase to the surfaces of lipid droplets and more gradual fragmentation and dispersion of micro-lipid droplets. Because few lipid droplet-associated proteins have been identified in adipocytes, we isolated lipid droplets from basal and lipolytically stimulated 3T3-L1 adipocytes and identified the component proteins by mass spectrometry. Structural proteins identified in both preparations include perilipin, S3-12, vimentin, and TIP47; in contrast, adipophilin, caveolin-1, and tubulin selectively localized to droplets in lipolytically stimulated cells. Lipid metabolic enzymes identified in both preparations include hormone-sensitive lipase, lanosterol synthase, NAD(P)-dependent steroid dehydrogenase-like protein, acyl-CoA synthetase, long chain family member (ACSL) 1, and CGI-58. 17-beta-Hydroxysteroid dehydrogenase, type 7, was identified only in basal preparations, whereas ACSL3 and 4 and two short-chain reductase/dehydrogenases were identified on droplets from lipolytically stimulated cells. Additionally, both preparations contained FSP27, ribophorin I, EHD2, diaphorase I, and ancient ubiquitous protein. Basal preparations contained CGI-49, whereas lipid droplets from lipolytically stimulated cells contained several Rab GTPases and tumor protein D54. A close association of mitochondria with lipid droplets was suggested by the identification of pyruvate carboxylase, prohibitin, and a subunit of ATP synthase in the preparations. Thus, adipocyte lipid droplets contain specific structural proteins as well as lipid metabolic enzymes; the structural reorganization of lipid droplets in response to the hormonal stimulation of lipolysis is accompanied by increases in the relative mass of several proteins and the recruitment of additional proteins.
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PMID:Proteomic analysis of proteins associated with lipid droplets of basal and lipolytically stimulated 3T3-L1 adipocytes. 1533 53

Ubiquinol cytochrome c reductase binding protein (UQCRB) is known to play crucial roles in the development of various types of diseases. However, the link between UQCRB and microRNAs remains unknown. In the present study, we performed microRNA sequencing of mutant UQCRB-expressing stable cell lines that exhibited pro-oncogenic activities caused by expression of the mutant UQCRB gene. Results showed that hsa-miR-10a-5p was significantly downregulated in the mutant UQCRB-expressing cell lines. Furthermore, mRNA sequencing and gene ontology analysis of differentially expressed genes (DEGs) revealed that the cholesterol biosynthesis pathway might be activation by mutant UQCRB expression. Moreover, inhibition of cholesterol synthesis in mutant UQCRB-expressing cells via treatment with the specific inhibitors suppressed the cell proliferation. Transfection with a hsa-miR-10a-5p mimic validated that lanosterol synthase (LSS) is a target of hsa-miR-10a-5p. In addition, hsa-miR-10a-5p was found to be downregulated in liver cancer cell lines overexpressing UQCRB. Taken together, our findings highlighted the potential use of hsa-miR-10a-5p as a biomarker for UQCRB related diseases.
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PMID:Hsa-miR-10a-5p downregulation in mutant UQCRB-expressing cells promotes the cholesterol biosynthesis pathway. 3012 Mar 11