Streptozotocin-induced diabetes decreases mammary gland lipoprotein lipase activity and messenger ribonucleic acid in pregnant and nonpregnant rats

Diabetes mellitus is associated with a reduction of lipoprotein lipase (LPL) activity in adipose tissue and development of hypertriglyceridemia. To determine how a condition of severe insulin deficiency affects mammary gland LPL activity and mRNA expression during late pregnancy, streptozotocin (STZ) treated (40 mg/kg) and non-treated (control) virgin and 20 day pregnant rats were studied. In control rats, both LPL activity and mRNA were higher in pregnant than in virgin rats. When compared to control rats, STZ-treated rats, either pregnant or virgin, showed decreased LPL activity and mRNA content. Furthermore, mammary gland LPL activity was linearly correlated with mRNA content, and either variable was linearly correlated with plasma insulin levels. Thus, insulin deficiency impairs the expression of LPL in mammary glands, revealing the role of insulin as a modulator of the enzyme at the mRNA expression level.     

Cloning of cDNA encoding steroid 11 beta-hydroxylase (P450c11).

We have isolated bovine and human adrenal cDNA clones encoding the adrenal cytochrome P-450 specific for 11 beta-hydroxylation (P450c11). A bovine adrenal cDNA library constructed in the bacteriophage lambda vector gt10 was probed with a previously isolated cDNA clone corresponding to part of the 3' untranslated region of the 4.2-kilobase (kb) mRNA encoding P450c11. Several clones with 3.2-kb cDNA inserts were isolated. Sequence analysis showed that they overlapped the original probe by 300 base pairs (bp). Combined cDNA and RNA sequence data demonstrated a continuous open reading frame of 1509 bases. P450c11 is predicted to contain 479 amino acid residues in the mature protein in addition to a 24-residue amino-terminal mitochondrial signal sequence. A bovine clone was used to isolate a homologous clone with a 3.5-kb insert from a human adrenal cDNA library. A region of 1100 bp was 81% homologous to 769 bp of the coding sequence of the bovine cDNA except for a 400-bp segment presumed to be an unprocessed intron. Hybridization of the human cDNA to DNA from a panel of human-rodent somatic cell hybrid lines and in situ hybridization to metaphase spreads of human chromosomes localized the gene to the middle of the long arm of chromosome 8. These data should be useful in developing reagents for heterozygote detection and prenatal diagnosis of 11 beta-hydroxylase deficiency, the second most frequent cause of congenital adrenal hyperplasia.     

Isolation of marmoset P450c17 cDNA and gene regulation in vitro

Marmosets express a fetal zone during adrenal development but fail to produce significant amounts of C19 steroids in adulthood. It is not clear however if P450c17 regulation is different from that in humans/rhesus or the primary sequence is altered. To this end we isolated marmoset and rhesus adrenocortical cells, and treated the cells with known regulators of P450c17 expression for 48 h. P450c17 protein increased with Forskolin (F) treatment, but was marginally inhibited by AII (A) and TPA (T) alone. Combined A + F and T + F dramatically ablated the F response. Cortisol levels (EIA) increased upon F treatment and were inhibited by A and T. Combination of treatments partially inhibited the F-induced response. The protein-coding region of marmoset and rhesus P450c17 cDNAs were then isolated from adrenals using RT-PCR/TA cloning. Marmoset P450c17 shows one amino acid deletion but otherwise shares 90.6% and 91.4% homologies with the human and rhesus cDNA sequences, and 82.4% and 85% homologies with the human and rhesus predicted AA sequences, respectively. Since marmoset adrenocortical cells exhibit similar endocrine function to rhesus, impaired 17,20-lyase activity in the adult marmoset adrenal may in part be due to differences in the primary sequence.     

Hormonal regulation of messenger ribonucleic acids for P450scc (cholesterol side-chain cleavage enzyme) and P450c17 (17 alpha-hydroxylase/17,20-lyase) in cultured human fetal adrenal cells

ACTH has acute and long term effects on adrenal steroidogenesis by week 14 of fetal life. We used human fetal adrenal cells to investigate the long term effect of physiological doses of ACTH on mRNAs for P450scc (the cholesterol side-chain cleavage enzyme) and P450c17 (17 alpha-hydroxylase/17,20-lyase). Monolayer cultures of 18- to 24-week gestation fetal zone adrenal cells were maintained in the presence and absence of 10(-9) or 10(-8) M ACTH for up to 12 days. As assessed by RNA dot blots probed with cloned homologous human cDNAs, ACTH increased P450scc and P450c17 mRNAs 4- and 9-fold, respectively, over control values on day 7 of culture. ACTH-mediated stimulation was slightly less on day 12 of culture. The ACTH-mediated accumulation of those mRNAs were time dependent. When cells were exposed to a single 10(-8)-M dose of ACTH, the amount of P450scc and P450c17 mRNA was increased by 24 h, reaching a maximum at 48 h and diminishing by 72 h. When cells were maintained in 10(-8) M ACTH continuously, mRNA for both enzymes accumulated in a similar pattern, reaching a peak at 48 h but remaining at nearly maximal values thereafter, up to 96 h. Dibutyryl cAMP (10(-3) M) mimicked these stimulatory actions of ACTH, although its effect was greater at 24 h and more stable up to 96 h. Angiotensin II (1-100 ng/mL) and hCG (1-100 ng/mL) had no effect on accumulation of P450scc and P450c17 mRNAs. The production of both dehydroepiandrosterone sulfate and cortisol also was stimulated by ACTH, suggesting that the increased mRNAs were translated into active enzymes. These results indicate that ACTH induces human fetal adrenal cells to accumulate mRNAs for both P450scc and P450c17; this effect of ACTH is probably mediated by cAMP. Chronic 96-h stimulation of human fetal adrenal cells did not diminish their responsiveness to ACTH. Together with our earlier studies of the human fetal adrenal, these data indicate that fetal adrenal tissue does not exhibit the desensitization to trophic hormone stimulation characteristic of adult tissue.     

P450(17 alpha) and P450SCC gene expression and regulation in the rat placenta.

To examine the developmental expression and regulation of P450SCC and P450(17 alpha) in the rat placenta, trophoblast and decidual tissue were removed by dissection from conceptuses obtained from rats on selected days of pregnancy. Total cellular and poly(A)+ RNA and microsomal and mitochondrial fractions were isolated and analyzed for the presence of P450(17) alpha and P450SCC messenger RNA (mRNA) and protein by Northern and Western blot analysis. P450(17) alpha and P450SCC mRNA were detected in the trophoblast but not in the decidual tissue. Western blot studies demonstrated that the immunoreactive P450(17) alpha in the rat placenta is a 79-kilodalton protein, having a slower mobility in sodium dodecyl sulfate-polyacrylamide gel electrophoresis than has been reported for other tissue. Antiserum preabsorbed with pure P450(17) alpha was unable to detect this protein, and immunoprecipitation indicated that it is associated with enzyme activity. Development studies have revealed that the two steroidogenic enzymes are differentially expressed during the progression of pregnancy. Whereas P450SCC mRNA and protein increase abruptly between days 10-12 of pregnancy, decline thereafter, and remain low, those of P450(17) alpha increase slowly and progressively, peaking on day 18 and declining just before parturition. It is the changes in P450(17) alpha and not that of P450SCC which appear to be intimately linked to the previously reported changes in placental production of androgen. To examine whether P450(17) alpha and/or P450SCC became expressed from midpregnancy because of the rapid decline in LH that occurs at this stage, pregnant rats were treated with low but sustained levels of human CG (hCG) in order to prevent the drop in LH activity. hCG treatment caused a remarkable down regulation in the expression of both P450SCC and P450(17) alpha message and protein. In summary, the results of this investigation have established, for the first time, the presence of messages for both P450(17) alpha and P450SCC in the trophoblast tissue forming the rat placenta. The results have revealed that these two enzymes are differentially expressed during the progression of pregnancy and that the expression of their genes is down-regulated by LH/hCG.     

Plasma immunoreactive relaxin levels in pregnant and nonpregnant women.

Immunoreactive relaxin was measured in plasma samples obtained from human volunteers utilizing the RIA procedure of Sherwood et al., as modified by O'Byrne and Steinetz for heterologous plasma samples. Immunoreactive hormone was not detected in samples obtained from men, and only rarely in plasma of nonpregnant women. Immunoreactive relaxin was present as early as the fourth week of pregnancy and was detectable throughout the course of gestation. Immunoreactive relaxin tended to be higher early in pregnancy, and there was no peak just before parturition as occurs in many other species. Our results are at variance with those of Bryant and coworkers, who reported high levels of immunoreactive relaxin in men and nonpregnant as well as pregnant women. The possible reasons for this discrepancy are presented.     

Differential degradation of messenger RNAs in mammalian cells.

Through the use of an assay that measures cellular capacity for specific enzyme synthesis, mRNA of alanine aminotransferase (EC 2.6.1.2; L-alanine:2-oxoglutarate aminotransferase) was found to be degraded with a half-life of 12-14 hr in cultured Reuber H-35 cells; mRNA of tyrosine aminotransferase (EC 2.6.1.5; L-tyrosine:2-oxoglutarate aminotransferase) has a half-life of 2 hr in the same cells. Rates of degradation of the mRNAs are the same whether new mRNA accumulation is blocked by removal of the steroid inducer or by inhibition of mRNA synthesis (actinomycin). Cycloheximide inhibits the normally rapid turnover of tyrosine aminotransferase mRNA, but agents such as puromycin and sodium fluoride, which disrupt polysome structure, do not alter the turnover rate of the tyrosine and alanine aminotransferase mRNAs. The tyrosine and alanine aminotransferase mRNAs appear to be translated at equivalent rates. The data suggest that the degradation rate of these two mRNAs is determined by the polynucleotide structure of the mRNA molecules at or near the site for ribosome binding and initiation.     

Cholesterol side-chain cleavage P450 messenger ribonucleic acid: evidence for hormonal regulation in rat ovarian follicles and constitutive expression in corpora lutea

Using an affinity-purified antibody against cholesterol side-chain cleavage P450 (P450scc) and a human P450scc cDNA probe, 11 rat P450scc cDNA clones were identified and isolated from our rat granulosa cell lambda gt11 cDNA expression library. Two clones were plaque purified and subcloned into pBR322. One of these P450scc cDNA clones, approximately 1.2 kilobases (kb) in size, was used as a probe for Northern and filter hybridization assays to analyze the tissue distribution and hormonal regulation of P450scc mRNA in rat ovarian follicles and corpora lutea. Northern transfers revealed a single P450scc mRNA species about 2.0 kb in size. Filter hybridization assays showed that P450scc mRNA was low in granulosa cells and thecal cells of small antral follicles, was increased in both tissues of preovulatory follicles, and was rapidly (within 7 h) and maximally increased (30-fold) during hCG-induced luteinization. P450scc enzyme and mRNA were also elevated in corpora lutea isolated from pregnant rats (days 4-22 of gestation) and rats 1 day after parturition (day 23). The elevation of P450scc enzyme and mRNA was maintained despite the marked decline in serum progesterone concentrations between days 19-22, suggesting that once P450scc mRNA is induced in luteal tissue it may be constitutively expressed. Administering hormones to granulosa cells in culture and to hypophysectomized immature rats in vivo demonstrated that the induction of P450scc mRNA by FSH in granulosa cells was time, dose, and estradiol dependent. High doses of FSH acting on estradiol-primed cells gave the greatest response. The increase in P450scc mRNA in cultured granulosa cells was also stimulated by forskolin and was directly associated with increased synthesis of cAMP and progesterone accumulation. Thus, whereas the induction of P450scc mRNA in granulosa cells was dependent on hormones and cAMP, the maintenance of P450scc mRNA and P450scc protein in corpora lutea appears to involve constitutive expression of P450scc mRNA.     

Study of the subcellular localization of 59Fe and iron-binding proteins in the duodenal mucosa of pregnant and nonpregnant rats.

The subcellular localization of intraduodenally administered 59Fe has been studied in control, pregnant, and nonpregnant rats absorbing iron at different rates. Binding of iron to the particulate fractions of mucosal homogenates produced by centrifugation at 500, 10,000, and 100,000 X g did not vary among groups despite significant alterations in iron transport rates. Study of the 10,000 X g supernatant fluid showed that increased iron transport in iron-deficient and day 20- to 21-pregnant rats was associated with an increase in 59Fe binding to a particulate fraction of the mucosal homogenate. Although only 10 to 15% of the total mucosal 59Fe was present in the 100,000 X g supernatant in all groups, significant differences were demonstrated, among groups in the binding of iron to the three proteins present in this supernatant fraction. The proteins have been identified as ferritin, transferrin, and a protein of lower molecular weight than transferrin. Increased iron absorption was associated with a reduction in ferritin 59Fe binding and an increase in 59Fe bound to protein 3. Conversely, reduced iron absorption, was associated with increased ferritin 59Fe content and decreased protein 3 59Fe content. By studying day-21 pregnant rats 5 and 18 hr posthysterectomy it was possible to demonstrate a 12- to 18-hr delay in the intestinal mucosal protein response to alterations in the stimulus to iron absorption.     

Methylation-dependent translation of viral messenger RNAs in vitro.

Methylated reovirus and vesicular stomatitis virus mRNAs, synthesized in vitro in the presence of S-adenosylmethionine by the virion-associated polymerases (RNA nucleotidyltransferases, EC 2.7.7.6), stimulate protein synthesis by wehat germ extracts to a greater extent than unmethylated mRNAs. Addition of S-adenosylmethionine to a cell-free extract programmed with unmethylated mRNA stimulates protein synthesis and results in methylation of the mRNA. An inhibitor of mRNA methylation. S-adenosylhomocysteine, blocks translation of unmethylated, but not of methylated, mRNAs. Aurintricarboxylic acid, which inhibits polypepetide chain initiation, also prevents mRNA methylation by wheat germ extracts. In contrast, sparsomycin, which inhibits polypeptide chain elongation, does not reduce mRNA methylation. The results indicate that methylation of viral mRNA is required for translation in vitro and suggest that mRNA methylation occurs at the initiation step of protein synthesis.     

Translation and characterization of messenger RNAs in differentiating chicken cartilage.

Total RNA, prepared from chicken limb bud cultures undergoing differentiation to cartilage, has been translated in a wheat germ cell-free protein-synthesizing system. Antibodies against chondroitin sulfate proteoglycan core protein immunoprecipitate a single component which migrates as a protein of 340,000 daltons in sodium dodecyl sulfate/polyacrylamide gels. The messenger RNA for this protein sediments at approximately 27 S in 70% formamide or aqueous sucrose gradients. The 340,000-dalton protein is present in cell-free translation products directed by RNA prepared from limb bud cultures and sternae and is absent in cell-free translation directed by RNA prepared from embryonic calvaria or liver. The level of synthesis of this protein is greatly reduced when RNA prepared from limb bud cultures inhibited from differentiation by BrdUrd is used. (Pre)pro alpha 1(I), -alpha 2(I), and -alpha 1(II) collagen bands have been identified on gels by electrophoresis of collagenase-digested or immunoprecipitated cell-free translation products directed by RNA from differentiating limb bud cultures, embryonic sternae, and embryonic calvaria.     

Developmental expression of genes for the stereoidogenic enzymes P450scc (20,22-desmolase), P450c17 (17 alpha-hydroxylase/17,20-lyase), and P450c21 (21-hydroxylase) in the human fetus

Fetal adrenal steroidogenesis is required for the production of placental estrogen, and fetal testicular steroidogenesis is required for the development of male external genitalia. We studied the ontogeny and tissue specificity of expression of the genes for three steroidogenic enzymes: P450scc (the cholesterol side-chain cleavage enzyme), P450c17 (17 alpha-hydroxylase/17,20-lyase), and P450c21 (21-hydroxylase) in the human fetus. RNA from fetal tissues was probed with homologous human P450scc, P450c17, and P450c21 cDNAs cloned in our laboratory. At 20-21 weeks gestation, P450scc mRNA was most abundant in the adrenal, followed by testis, placenta, and ovary. P450c17 mRNA was also most abundant in the adrenal, followed by testis and ovary, but was undetectable in the placenta. P450c21 mRNA was detected only in the adrenal. None of these mRNAs was detected in kidney, liver, spleen, intestine, or muscle. Twenty-two fetal testis samples (13-25.8 weeks gestation) were studied. P450scc and P450c17 mRNAs were most abundant at 14-16 weeks and diminished to 35 and 19% of their peak values, respectively, by 20-25.8 weeks. Ovarian P450scc and P450c17 mRNAs were present, respectively, in only 6.2% and 1.8% of the maximum amount in the testis and did not vary detectably from 14.9 to 21.5 weeks gestation. The testicular and ovarian steroidogenic enzyme mRNA data correlate well with previously reported changes in gonadal steroidogenesis with gestational age. The presence of P450scc mRNA, but not P450c17 mRNA, in the placenta indicates that the placenta is able to initiate the synthesis of some steroid hormones, but is not able to synthesize estrogen de novo. Since P450c21 was found only in the adrenal, the extraadrenal 21-hydroxylation of progesterone to deoxycorticosterone, a common event in the fetus, is probably mediated by an enzyme(s) other than P450c21.