The biochemical basis for increased testosterone production in theca cells propagated from patients with polycystic ovary syndrome.

Ovarian theca cells propagated from patients with polycystic ovary syndrome (PCOS) convert steroid precursors into T more efficiently than normal theca cells. To identify the basis for increased T production by PCOS theca cells, we examined type I-V 17 beta-hydroxysteroid dehydrogenase (17 beta HSD) isoform expression in long-term cultures of theca and granulosa cells isolated from normal and PCOS ovaries. RT-PCR analysis demonstrated that theca cells express type V 17 beta HSD a member of the aldo-keto reductase (AKR) superfamily (17 beta HSDV, AKR1C3), whereas expression of type I, II, and IV 17 beta HSD, which are members of the short-chain dehydrogenase/reductase superfamily, was limited to granulosa cells. Type III 17 beta HSD, the testicular isoform, was not detected in either granulosa or theca cells. Northern and real-time PCR analyses demonstrated that 17 beta HSDV transcripts were not significantly increased in PCOS theca cells compared with normal theca cells. RT-PCR analysis revealed that theca cells also express another AKR, 20 alpha HSD (AKR1C1). Both basal and forskolin-stimulated 20 alpha HSD mRNA levels were increased in PCOS theca cells compared with normal theca cells. However, 17 beta HSD enzyme activity per theca cell was not significantly increased in PCOS, suggesting that neither AKR1C3 nor AKR1C1 contributes to the formation of T in this condition. In contrast, 17 alpha-hydroxylase/C17,20 lyase and 3 beta HSD enzyme activities were elevated in PCOS theca cells, driving increased production of T precursors. These findings indicate that 1) increased T production in PCOS theca cells does not result from dysregulation of "androgenic" 17 beta HSD activity or altered expression of AKRs that may express 17 beta HSD activity; and 2) increased synthesis of T precursors is the primary factor driving enhanced T secretion in PCOS.

Differential activity of the cytochrome P450 17alpha-hydroxylase and steroidogenic acute regulatory protein gene promoters in normal and polycystic ovary syndrome theca cells.

17alpha-Hydroxylase (CYP17) expression in propagated theca cells isolated from the ovaries of women with polycystic ovary syndrome (PCOS) is persistently elevated, compared with theca cells isolated from normal ovaries. To investigate the mechanism for increased CYP17 messenger RNA accumulation in PCOS theca cells, we examined CYP17 and steroidogenic acute regulatory protein (StAR) promoter activities in normal and PCOS theca cells. Conditions were established to transiently transfect human theca cells with reporter gene constructs containing 5' truncations of the human CYP17 and StAR promoters. Cotransfection of a steroidogenic factor-1 expression plasmid was found to be required for detection of basal and forskolin-stimulated CYP17 promoter activity but not for StAR promoter activity. However, cotransfection with a steroidogenic factor-1 expression plasmid augmented both basal and forskolin-stimulated StAR promoter activity. CYP17 reporter activity was compared in theca cells isolated from normal and PCOS patients. Basal and forskolin-stimulated CYP17 promoter activity was 4-fold greater in PCOS cells than in theca cells isolated from normal ovaries. In contrast, StAR promoter activity, and the activity of a reporter construct containing three copies of a cAMP response element (3xCRE), were similar in normal and PCOS theca cells. The results of these studies document: 1) that basal and cAMP-dependent CYP17 gene transcription is increased in PCOS theca cells; 2) that there is differential regulation of promoters of genes required for steroidogenesis in PCOS theca cells; and 3) that passaged normal and PCOS theca cells provide a model system for studying tissue-specific regulation of genes encoding steroidogenic enzymes and identifying the molecular mechanisms involved in increased androgen production in PCOS.

Augmented androgen production is a stable steroidogenic phenotype of propagated theca cells from polycystic ovaries.

To test the hypothesis that the hyperandrogenemia associated with polycystic ovary syndrome (PCOS) results from an intrinsic abnormality in ovarian theca cell steroidogenesis, we examined steroid hormone production, steroidogenic enzyme activity, and mRNA expression in normal and PCOS theca cells propagated in long-term culture. Progesterone (P4), 17alpha-hydroxyprogesterone (17OHP4), and testosterone (T) production per cell were markedly increased in PCOS theca cell cultures. Moreover, basal and forskolin-stimulated pregnenolone, P4, and dehydroepiandrosterone metabolism were increased dramatically in PCOS theca cells. PCOS theca cells were capable of substantial metabolism of precursors into T, reflecting expression of an androgenic 17beta-hydroxysteroid dehydrogenase. Forskolin-stimulated cholesterol side chain cleavage enzyme (CYP11A) and 17alpha-hydroxylase/17,20-desmolase (CYP17) expression were augmented in PCOS theca cells compared with normal cells, whereas no differences were found in steroidogenic acute regulatory protein mRNA expression. Collectively, these observations establish that increased CYP11A and CYP17 mRNA expression, as well as increased CYP17, 3beta-hydroxysteroid dehydrogenase, and 17beta-hydroxysteroid dehydrogenase enzyme activity per theca cell, and consequently increased production of P4, 17OHP4, and T, are stable properties of PCOS theca cells. These findings are consistent with the notion that there is an intrinsic alteration in the steroidogenic activity of PCOS thecal cells that encompasses multiple steps in the biosynthetic pathway.

Determining nitrogen status of young loblolly pine by leaf reflectance.

Five-year-old lobloliy pine (Pinus taeda L.) seedlings were grown in sand culture in a completely randomized experimental design with eight nitrogen concentrations and three replications. Nitrogen concentration in the nutrient solution varied from 2 to 400 ppm. After a full growing season under treatment, percent reflectance of sunlight by new foliage was determined. Foliar samples were analyzed for nitrogen and chlorophyll. There was a strong positive correlation between nitrogen content and chlorophyll content (r = 0.895). The natural logarithm of percent reflectance was negatively correlated with both percent nitrogen content (r = -0.845) and chlorophyll content (r = -0.838). From these results, prediction equations for estimating nitrogen and chlorophyll content, as a function of reflectance, were formulated by regression analysis.