Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cholesterol side-chain cleavage (CSCC) in isolated rat adrenal mitochondria is enhanced by prior corticotropin (ACTH) stimulation in vivo (8-fold). Part of this stimulation is retained in vitro by addition of cytosol from ACTH-stimulated adrenals to mitochondria from unstimulated rats (2.5- to 6-fold). In vivo cycloheximide (CX) treatment fully inhibits the in vivo response and resolves the in vitro cytosolic stimulation into components: (i) ACTH-sensitive, CX-sensitive; (ii) ACTH-sensitive, CX-insensitive; and (iii) ACTH-insensitive, CX-insensitive. These components contribute approximately equally to stimulation by ACTH cytosol. Components (i) and (iii) most probably correspond to previously identified cytosolic constituents steroidogenesis activator peptide and sterol carrier protein 2 (SCP2). SCP2, as assayed by radioimmunoassay or ability to stimulate 7-dehydrocholesterol reductase, was not elevated in adrenal cytosol or other subcellular fractions by ACTH treatment. Complete removal of SCP2 from cytosol by treatment with anti-SCP2 IgG decreased cytosolic stimulatory activity by an increment that was independent of ACTH or CX treatment. Addition of an amount of SCP2, equivalent to that present in cytosol, restored activity to SCP2-depleted cytosol but had no effect alone or when added with intact cytosol, suggesting the presence of a factor in cytosol that potentiates SCP2 action. Pure hepatic SCP2 stimulated CX mitochondrial CSCC 1.5- to 2-fold (EC50 0.7 microM) but was five times less potent than SCP2 in adrenal cytosol. Two pools of reactive cholesterol were distinguished in these preparations characterized, respectively, by succinate-supported activity and by additional isocitrate-supported activity. ACTH cytosol and SCP2 each stimulated cholesterol availability to a fraction of mitochondrial P450scc that was reduced by succinate but failed to stimulate availability to additional P450scc reduced only by isocitrate.
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PMID:The role of sterol carrier protein 2 in stimulation of steroidogenesis in rat adrenal mitochondria by adrenal cytosol. 255 12

n-Hexane and cardiolipin each stimulate pregnenolone production by isolated rat adrenal mitochondria. Following corticotropin (ACTH) stimulation, mitochondrial cholesterol metabolism exhibits a fast phase lasting 2 min, followed by a 10-fold slower metabolism. ACTH suppression by dexamethazone or cycloheximide (CX) treatment removes this fast phase. n-Hexane, at concentrations approaching 80% of the aqueous solubility limit (approximately 0.08 mM), selectively stimulates the slow phase of metabolism, while cardiolipin (100 microM) stimulates only the fast phase. Other alkanes and ethers are effective. The effect of n-hexane is dependent on mitochondrial integrity, as evidenced by decreased effects in hypoosmotically shocked mitochondria (outer membrane disrupted) and ineffectiveness in sonicated mitochondria (both membranes disrupted). n-Hexane apparently enhances the transfer of outer membrane cholesterol to inner membrane P-450scc. Stimulation by cardiolipin is retained by disrupted mitochondria and may involve enhanced availability of P-450scc to inner membrane cholesterol. When added together, these agents produce more than additive effects on cholesterol metabolism. Preincubation with n-hexane did not increase reactive cholesterol, suggesting that enhanced cholesterol transport occurs only in concert with metabolism of inner membrane cholesterol. Uptake of alkanes into mitochondrial membranes may effect structural changes that facilitate outer to inner membrane cholesterol transfer, but major changes are excluded by the effectiveness of isocitrate as a reductant for P-450scc. In combination, n-hexane and cardiolipin reproduce the effect of the ACTH-sensitive sterol regulatory peptide on mitochondria [R. C. Pedersen and A. C. Brownie (1983) Proc. Natl. Acad. Sci. USA 80, 1882-1886], suggesting that peptide action on adrenal mitochondria may resolve into two analogous components.
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PMID:Synergistic stimulation of pregnenolone synthesis in rat adrenal mitochondria by n-hexane and cardiolipin. 282 41

Corticotropin and hydrocortisone were studied for their effect on dehydrogenase activity of microbial E. coli cells in the medium with the tricarboxylic acid cycle substrates, glucose and beta-oxybutyric acid. Corticotropin, as distinct from hydrocortisone, is shown to increase the dehydrogenase activity of microbial cells when pyruvate, isocitrate, oxaloacetate, alpha-ketoglutarate, succinate, furmarate, glucose and beta-oxybutyrate are used as substrates. Hydrocortisone induced a rise of the dehydrogenase activity of microbial cells only in the medium with isocitrate, alpha-ketoglutarate and fumarate, however to a less extent than corticotropin; it lowered this activity in the medium with pyruvate and glucose and did not change it with oxaloacetate, succinate and beta-oxybutyrate. The corticotropin effect is supposed to be extra-adrenal because microbial cells are also subjected to its action.
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PMID:[The effect of corticotropin and hydrocortisone on the dehydration of Krebs cycle substrates in E. coli cells]. 609 2