Karla J. Matteson scite author profile

Conversion of cholesterol to pregnenolone is mediated by P450scc [cholesterol, reduced-adrenal-ferrodoxin: oxygen oxidoreductase (side-chain-cleaving), EC 1.14.15.67]. RNA from several human adrenal samples was translated in vitro and immunoprecipitated with anti-bovine P450scc, indicating that P450scc mRNA represents about 0.5% of human adrenal mRNA in normal, hypertrophied, and malignant adrenals. A 1626-base-pair human adrenal P450scc cDNA was cloned in bacteriophage lambda gt10. Primer extension data indicated P450scc mRNA is about 1850 bases long and that all adrenal P450scc mRNA has the same 5' end. A full-length clone containing 1821 bases was obtained from a human testis cDNA library to yield the complete sequence. The encoded human preP450scc contains 521 amino acids with a molecular weight of 60189.65. The testis and adrenal sequences were identical; the human cDNA and amino acid sequences are 82% and 72% homologous, respectively, with the bovine sequences. P450scc cDNA was used to probe DNA from a panel of mouse-human somatic cell hybrids, showing that the single human P450scc gene lies on chromosome 15. The human P450scc gene is expressed in the placenta in early and midgestation; primary cultures of placental tissue indicate P450scc mRNA accumulates in response to cyclic AMP.

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Hormonal Regulation of P450scc (20,22-desmolase) and P450cl7 (17α-hydroxylase/17,20-lyase) in Cultured Human Granulosa Cells*

Voutilainen¹,

Tapanainen

Chung

et al. 1986

The Journal of Clinical Endocrinology & Metabolism

249

117

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Conversion of cholesterol to pregnenolone in man is mediated by a single enzyme, P450scc. To study possible regulation of the single P450scc gene in ovarian steroid synthesis, we incubated human granulosa cells with potential hormonal stimulators, measured P450scc mRNA accumulation by hybridization to 32P-labeled human P450scc cDNA, and compared the results to secretion of progesterone into the culture medium. Primary cultures of human granulosa cells were optimally responsive after 8-14 days of culture. Incubation with hCG (1.0-100 ng/ml), FSH (1.0-50 ng/ml), and (Bu)2cAMP (0.02-2.0 mM) increased P450scc mRNA accumulation and progesterone secretion in dose-dependent fashions. Maximal stimulation increased P450scc mRNA accumulation and progesterone secretion to 490% and 240% of control values, respectively, with hCG, to 166% and 168% with FSH, and to 495% and 380% with (Bu)2cAMP. PRL (to 100 ng/ml), ACTH (10(-6) M), and butyric acid (2 mM) had no significant effect on progesterone secretion or P450scc mRNA accumulation. These data indicate gonadotropin-specific stimulation of cAMP-mediated regulation of P450scc mRNA accumulation in human granulosa cells, presumably mediated by increased P450scc gene transcription. Ovarian estrogen synthesis may require both thecal and granulosa cells, although this two-cell theory of estrogen synthesis is unproven in man. To examine this theory, we probed the same blots used in the experiments described above with 32P-labeled human P450c17 cDNA (P450c17 is the single enzyme mediating both 17 alpha-hydroxylase and 17,20-lyase activities). Only miniscule amounts of P450c17 mRNA were found in the human granulosa cells, and the amounts did not increase in response to any of the above stimuli. These data strongly support the two-cell theory of human ovarian estrogen synthesis.

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HLA-DR4 in Families With Autism

Lee

Leffell

Newschaffer

et al. 2006

Pediatric Neurology

107

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Karla J. Matteson

Maternal antibrain antibodies in autism

Human cholesterol side-chain cleavage enzyme, P450scc: cDNA cloning, assignment of the gene to chromosome 15, and expression in the placenta.

Hormonal Regulation of P450scc (20,22-desmolase) and P450cl7 (17α-hydroxylase/17,20-lyase) in Cultured Human Granulosa Cells*

HLA-DR4 in Families With Autism

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