Cytochrome P450c17 (steroid 17 alpha-hydroxylase/17,20 lyase): cloning of human adrenal and testis cDNAs indicates the same gene is expressed in both tissues.
P450c17 is the single enzyme mediating both 17a-hydroxylase (steroid 17ai-monooxygenase, EC 1.14.99.9) and 17,20 lyase activities in the synthesis of steroid hormones. It has been suggested that different P450c17 isozymes mediate these activities in the adrenal gland and testis. We sequenced 423 of the 509 amino acids (83%) of the porcine adrenal enzyme; based on this partial sequence, a 128-fold degenerate 17-mer was synthesized and used to screen a porcine adrenal cDNA library. This yielded a 380-base cloned cDNA, which in turn was used to isolate several human adrenal cDNAs. The longest of these, Xhacl7-2, is 1754 base pairs long and includes the full-length coding region, the complete 3'-untranslated region, and 41 bases of the 5'-untranslated region. This cDNA encodes a protein of 508 amino acids having a predicted molecular weight of 57,379.82. High-stringency screening of a human testicular cDNA library yielded a partial clone containing 1303 identical bases. RNA gel blots and nuclease S1-protection experiments confirm that the adrenal and testicular P450c17 mRNAs are indistinguishable. These data indicate that the testis possesses a P450c17 identical to that in the adrenal. The human amino acid sequence is 66.7% homologous to the corresponding regions of the porcine sequence, and the human cDNA and amino acid sequences are 80.1 and 70.3% homologous, respectively, to bovine adrenal P450c17 cDNA. Both comparisons indicate that a central region comprising amino acid residues 160-268 is hypervariable among these species of P450c17. Comparison of the amino acid sequence of P450c17 with two other human steroidogenic cytochromes P450 show much greater homology with P450c21 (28.9%), another microsomal enzyme, than with P450scc (12.3%), a mitochondrial enzyme.Steroid 17a-hydroxylase (steroid 17a-monooxygenase, EC 1.14.99.9) converts pregnenolone to 17-hydroxypregnenolone and converts progesterone to 17-hydroxyprogesterone. These 17-hydroxylated steroids may then be converted by 17,20-lyase to dehydroepiandrosterone and androstenedione, respectively. These latter two steroids are precursors of testosterone and estrogen synthesis while 17-hydroxyprogesterone is a key precursor of cortisol synthesis. Although steroid 17a-hydroxylase and 17,20 lyase activities can be readily distinguished by examination of circulating venous steroidal products (1, 2), studies in both the guinea pig (3) and pig (4) show that both activities reside in a single protein, P450c17. Thus, the P450c17 enzyme is a key branch point in human steroid hormone synthesis, as 17a-hydroxylase activity distinguishes between synthesis of mineralocorticoids (aldosterone) and glucocorticoids (cortisol) and as 17,20 lyase activity distinguishes between synthesis of glucocorticoids and sex steroids. P450c17 is encoded by a gene or genes now termed P45OXVII (5). P450c17 mRNA accumulation is regulated hormonally (6, 7) and developmentally (8). Like P450c21 (steroid 21-hydroxylase), P450c17 is bound to the endoplasmic reticulum and accepts electrons f...
Depriving rats of luteinizing hormone (LH) causes Leydig cells to lose smooth endoplasmic reticulum and diminishes their P450 C17-hydroxylase/C17,20-lyase activity (Wing et al., 1984). LH administration to hypophysectomized rats prevents these changes in Leydig cell structure and function (Ewing and Zirkin, 1983). We adopted a multistep procedure of rat Leydig cell isolation to study the trophic effects of LH on steroidogenesis in the Leydig cell. Our method employs vascular perfusion, enzymatic dissociation, centrifugal elutriation, and Percoll gradient centrifugation. The purified Leydig cell fraction obtained after Percoll density-gradient centrifugation contains 95% well-preserved 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD)-staining cells with ultrastructural characteristics of Leydig cells. These Leydig cells produced 248 and 29 ng of testosterone/10(6) Leydig cells when incubated for 3 h with and without a maximally stimulating concentration of ovine LH. Purified Leydig cells obtained from control rats and rats treated with testosterone-estradiol (T-E) implants for 4 days to inhibit LH production were incubated with a saturating concentration (2 microns) of pregnenolone. Leydig cells from control and T-E-implanted rats produced 537 and 200 ng of testosterone/10(6) Leydig cells X 3 h, respectively, suggesting a defect in the steroidogenic reactions converting pregnenolone to testosterone in Leydig cells from T-E-implanted rats. By using rabbit antibodies to the P450 C17-hydroxylase/C17,20-lyase pig microsomal enzyme, immunoblots of one-dimensional sodium dodecyl sulfate polyacrylamide gels of Leydig cell microsomal protein from control and 4- and 12-day T-E implanted rats revealed a continued loss of enzyme as the period of LH withdrawal continues. These results show that Leydig cells from animals deprived of LH had diminished capacity to convert pregnenolone to testosterone and reduced P450 C17-hydroxylase/C17,20-lyase content.
Microsomal cytochrome P-450 from neonatal pig testis: two enzymic activities (17.alpha.-hydroxalase and C17,20 associated with one protein
Studies have been performed to test the hypothesis that cytochrome P-450 from testicular microsomes consists of a single protein with two enzymatic activities (17 alpha-hydroxylase and C17,20-lyase). Three lines of evidence to support the hypothesis were obtained. (1) The enzyme appears to be homogeneous by immunochemical criteria with anti-P-450 IgG (line of identity on immunodiffusion and a single band on immunoelectrophoresis), by demonstration of a single NH2-terminal amino acid (methionine) and the finding of 16 single amino acids at the NH2 terminus. (2) Optima for pH and temperature are the same for both enzymatic activities (pH 7.25 and 37 degrees C), and temperatures between 30 and 44 degrees C decreased both activities in such a way that the ratio of hydroxylase to lyase was the same at all temperatures tested. (3) A variety of inhibitors affect both activities to the same extent: Ki values for two competitive inhibitors (SU 8000, 0.04 microM; SU 10603, 0.3 microM) are the same for hydroxylase and lyase; partition coefficients for inhibition by carbon monoxide are similar for hydroxylase and lyase (20 +/- 2 and 27 +/- 3); anti-P-450 (serum and IgG) causes inhibition of both activities to the same extent, and the same is true of a variety of less specific inhibitors. It is concluded that a single heme protein (cytochrome P-450) from microsomes of neonatal pig testis catalyzes two reactions (hydroxylase and lyase) which are sequential steps in the synthesis of androgens by the testis leading to conversion of C21 precursors to C19 steroid hormones.
Identification of des-(Gly-Ile)-endozepine as an effector of corticotropin-dependent adrenal steroidogenesis: stimulation of cholesterol delivery is mediated by the peripheral benzodiazepine receptor.
Delivery ofcholesterol to inner mitochondrial membranes is rate-limiting for steroidogenesis in the zona fasciculata of adrenal cortex. A protein that stimulates this process was isolated to homogeneity from bovine adrenal tissue. This protein's primary structure has been determined in its entirety by a combination of automated Edman microsequencing, fast-atom bombardment mass spectrometry (FAB-MS). The sequence was identical to that previously reported for bovine brain endozepine, except that it lacks the last two residues, -Gly-Ile, at the C terminus. To our knowledge, isolation of an endozepine-related protein from a tissue other than brain has not been reported previously. Endozepine competes with benzodiazepines for saturable binding sites in synaptosomes and in mitochondria of specific peripheral tissues. Previous reports have localized the adrenal benzodiazepine receptor to the outer mitochondrial membrane. In this report, we show that the prototypic benzoiazepine, diazepam, effects a stimulation of adrenal mitochondrial cholesterol delivery similar to that observed for endozepine. The effective diazepam concentration was consistent with that previously shown to displace a high-affinity ligand of the mitochondrial benzodiazepine receptor. The action of diazepam in adrenal mitochondria suggests that the mediation of corticotropininduced steroidogenesis may be the physiological function of the peripheral-type benzodiazepine receptor. These studies provide new insights into the previously unknown function of peripheral benzodiazepine receptors and should allow new investigations into the stimulation of steroidogenesis by endozepines and benzodiazepines in the brain and in certain peripheral tissues.
Round spermatids were prepared from rat testes and incubated with various substrates (glucose, fructose, pyruvate, lactate and acetate) to measure utilization of substrates and production of ATP in the presence of saturating levels of each substrate. By both criteria lactate is the preferred substrate by a factor of 3 or 4. Production of more than half of the ATP with lactate is substrate is prevented by addition of an inhibitor of alpha-ketoacid dehydrogenase (5-methoxyindole-2-carboxylic acid) Pyruvate and lactate are interconverted and pyruvate inhibits production of ATP from lactate. Synthesis of ATP with lactate and with pyruvate is inhibited by rotenone, rutamycin or 2,4-dinitrophenol. Utilization of glucose is limited by aldolase activity. These findings suggest that exogenous lactate is oxidized by lactate dehydrogenase followed by pyruvate dehydrogenase and Krebs; cycle enzymes under conditions which do not allow pyruvate to inhibit lactate dehydrogenase. ATP is synthesized through electron transport. Post-mitochondrial supernate from spermatids showed that high concentration of pyruvate (greater than 1 mM) inhibit lactate dehydrogenase with pyruvate as substrate and that with lactate as substrate, pyruvate behaves as a competitive inhibitor of lactate dehydrogenase. Evidently lactate is the preferred substrate for round spermatids and energy production is most efficient when this substance is present in high concentrations and pyruvate is present in low concentrations. Reasons are given for suggesting that Sertoli cells may provide the relatively large amounts of lactate required by round spermatids.
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