ALTERED GENE EXPRESSION: A MECHANISM OF REPRODUCTIVE TOXICITY IN ZEBRAFISH (DANIO RERIO) EXPOSED TO BENZO[a]PYRENE

Hoffmann, Jennifer

19 August 2004

No description available.

Zebrafish

Benzo[a]pyrene

ovary

steroidogenic enzymes

mRNA

An investigation into the influence of rooibos (Aspalathus linearis) on androgen metabolism in normal and prostate cancer cells

Du Toit, Therina

04 1900

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: In this study, the influence of rooibos on the catalytic activity of enzymes 17β -hydroxysteroid dehydrogenase type 3 (17βHSD3), 17β-hydroxysteroid dehydrogenase type 5 (AKR1C3), 17β-hydroxysteroid dehydrogenase type 2 (17βHSD2), 5α-reductase type 1 (SRD5A1) and 5α-reductase type 2 (SRD5A2), which catalyse prostate androgen metabolism, was investigated. The activities of both 17βHSD3 and AKR1C3 heterologously expressed in CHO-K1 and HEK293 cells were inhibited significantly by rooibos, with rooibos reducing the conversion of androstenedione (A4) and 11keto-androstenedione (11KA4) to testosterone (T) and 11ketotestosterone (11KT), respectively. The catalytic activity of 17βHSD2 towards T, 11hydroxytestosterone (11OHT) and 11KT was also significantly inhibited by rooibos in transiently transfected HEK293 cells. In transiently transfected HEK293 cells rooibos did not inhibit SRD5A1 while the rate of T conversion to dihydrotestosterone (DHT) by SRD5A2 was decreased. Analysis of steroid metabolism in PNT2 cells also suggests that rooibos does not modulate the catalytic activity of endogenously expressed SRD5A towards A4, however, the conversion of T to DHT was reduced. In addition, reductive 17βHSD activity towards A4 was inhibited in the presence of rooibos in both PNT2 and BPH-1 cells. In contrast, the conversion of 11KA4 to 11KT was inhibited in BPH-1, PC-3 and LNCaP cells, with negligible conversion of 11KA4 in PNT2 cells. Interestingly, data suggests inhibition of 3α-hydroxysteroid dehydrogenase type 3 (AKR1C2) activity in the production of androsterone (AST) from 5α–androstenedione (5α-dione), as well as the dehydrogenase reaction of T to A4 in PNT2 cells by rooibos. Androgen metabolism pathways were subsequently investigated in LNCaP cells to determine androgen metabolism by endogenous enzymes. Rooibos resulted in the reduced conversion of A4 in LNCaP cells to the same extent as indomethacin, a known AKR1C3 inhibitor. Rooibos also modulated T, DHT and AST metabolism in LNCaP cells. Furthermore, uridine diphosphate glucuronosyltransferase (UGT) activity in LNCaP cells was inhibited by rooibos, decreasing T-, DHT– and AST-glucuronide formation. These data prompted subsequent investigations into the influence of rooibos at cellular level, and prostatespecific antigen (PSA) levels were assayed in the presence of rooibos. PSA was significantly inhibited by rooibos in the absence and presence of DHT, suggesting possible interaction of rooibos with the mutated androgen receptor (AR) or estrogen receptor-β (ERβ) expressed in LNCaP cells. Taken together, rooibos inhibited the catalytic activity of key enzymes that catalyse the activation of androgens in the prostate, as well as inhibiting enzymes involved in the conjugation of androgens. At cellular level, PSA levels were also decreased by rooibos, possibly through AR or ERβ interactions – clearly indicating a modulatory role for rooibos in active androgen production. / AFRIKAANSE OPSOMMING: In hierdie studie was die invloed van rooibos ten opsigte van die katalitiese aktiwiteite van die ensieme 17β-hidroksi-steroïed-dehidrogenase tipe 2, tipe 3 en tipe 5 (17βHSD2, 17βHSD3, AKR1C3), asook 5α-reduktase tipe 1 en tipe 2 (SRD5A1, SRD5A2) ondersoek. Hierdie ensieme is betrokke in die produksie van androgene in die prostaat. Rooibos het die katalitiese aktiwiteit van 17βHSD3 en AKR1C3 in CHO-K1 en HEK293 selle beïnvloed en het vermindere omskakeling van androstenedioon (A4) en 11keto-androstenedioon (11KA4) na testosteroon (T) en 11-ketotestosteroon (11KT), afsonderlik, veroorsaak. Die katalitiese aktiwiteit van 17βHSD2 teenoor T, 11-hidroksie-testosteroon (11OHT) en 11KT was ook beïnvloed in die teenwoordigheid van rooibos in HEK293 selle. Die katalitiese aktiwiteit van SRD5A1 teenoor A4 en T is nie beïnvloed deur rooibos nie, alhoewel dit voorkom asof rooibos die omsettingstempo van T na dihidrotestosteroon (DHT) deur SRD5A2, getransfekteer in HEK293 selle, verminder het. Verdere ondersoeke is in normale prostaat epiteel selle, in die teenwoordigheid van rooibos uitgevoer. Rooibos het geen invloed op die katalitiese aktiwiteit van SRD5A teenoor A4 gehad nie, alhoewel vermindere omskakeling van T na DHT aangetoon kon word. Rooibos het ook die omskakeling van A4 na T in beide PNT2 en BPH-1 selle tot „n mate geïnhibeer. Die omskakeling van 11KA4 na 11KT was ook verminder in BPH-1, PC-3 en LNCaP selle. Die omskakeling van 11KA4 na 11KT was beduidend laer in PNT2 selle en kon die invloed van rooibos nie aangetoon word nie. Bykomende data toon dat rooibos ook die omskakeling van 5α-androstenedioon (5α-dione) na androsteroon (AST), gekataliseer deur 3α-hidroksi-dehidrogenase tipe 3 (AKR1C2), verminder, gesamentlik met die vermindere omskakeling van T na A4, deur 17βHSD2, in PNT2 selle. Hierdie studie het ook ondersoek ingestel, na die metabolisme van androgene in LNCaP selle. Vermindere A4 metabolisme is in die teenwoordigheid van rooibos asook in die teenwoordigheid van indometasien, „n bekende AKR1C3 inhibitor, gevind. Rooibos verminder dus die aktiwiteit van reduktiewe 17βHSD in LNCaP selle. Verandering in die metabolisme van T, DHT en AST in LNCaP selle, in die teenwoordigheid van rooibos, is ook gevind. Verdere ondersoek in LNCaP selle het gewys dat rooibos „n vermindering in die produksie van gekonjugeerde T, DHT en AST veroorsaak. Die studie het die invloed van rooibos op prostaat-spesifieke antigeen (PSA) ook ondersoek. Daar is vasgestel dat rooibos die vlakke van PSA verminder in die afwesigheid en teenwoordigheid van DHT in LNCaP selle. Hierdie resultaat dui op moontlike interaksie van rooibos met die androgeen (AR) of estrogeen-reseptor-β (ERβ), teenwoordig in LNCaP selle. Rooibos het die katalitiese aktiwiteit van ensieme, wat bydra tot androgeen produksie, geïnhibeer, asook die konjugasie van androgene. Op „n sellulêre vlak, het rooibos die vlakke van PSA-sekresie verminder, wat moontlike interaksie met die AR en ERβ aandui. Hierdie bevindings dui daarop dat rooibos wel n rol het om te speel in die modulasie van aktiewe androgene in die prostaat.

Rooibos tea -- Therapeutic use

Prostate -- Cancer

Steroidogenic enzymes

Androgens

UCTD

Dynamics and regulation of ovarian antral follicular waves in sheep

Duggavathi, Rajesha

22 December 2004

The focus of the present thesis was on ultrasonographic, endocrine and molecular characterization of ovarian antral follicular waves in sheep. Transrectal ultrasonography and computer assisted image analysis were used to determine the feasibility of detecting ovulation and the forming corpus luteum (CL) and to non-invasively monitor CL differentiation and growth. High resolution transrectal ultrasonography and hormone measurements were used to assess changes in numbers of small ovarian antral follicles and their relationships to the emergence of follicular waves in cyclic ewes and to correlate pulsatile secretion of gonadotropins with follicular growth in a wave, during the mid to late-luteal phase of the ovine estrous cycle. A series of experiments were conducted, using treatment with injections of ovine follicle stimulating hormone (oFSH) and measurement of serum concentrations of FSH, in cyclic and anestrous sheep, to investigate the existence of follicular dominance. We also evaluated the characteristics of secretory patterns of FSH that are critical for follicular wave emergence, in anestrous ewes. The possible existence of an endogenous rhythm of FSH secretion, independent of ovarian antral follicular dynamics, was studied in ovariectomized ewes. Finally, ovarian antral follicles at defined stages of growth in a follicular wave (based on transrectal ultrasonographic observations) were collected from separate groups of sheep by ovariectomy, to profile the expression patterns of steroidogenic enzymes (3¦Â-HSD, 17¦Á-OH and aromatase) using immunohistochemistry and gray-scale densitometric analysis. <p> The results of the present studies showed that it is possible to detect ovulation and visualize developing CL as early as 12-24 h after ovulation in the ewe. Changes in echotexture of the CL were closely associated with its morphological and functional characteristics, and we concluded that computer assisted image analysis holds promise for the noninvasive monitoring of CL differentiation and growth. Follicles reaching ovulatory diameter (¡Ý 5 mm) emerged and grew in a wave-like pattern in sheep, but without variation in the number of small follicles (1-3 mm in diameter), as seen in cattle. We concluded that all follicles that are recruited to grow beyond 2-3-mm in diameter, to 4-mm diameter in a wave, succeed in reaching an ovulatory diameter of ¡Ý 5 mm in the ewe. The emergence and growth of ovarian antral follicles in follicular waves, in sheep, do not require changes in LH secretion and may perhaps involve changes in the follicular sensitivity to LH. The largest follicle of a wave, in sheep, appears to have limited effects on other small follicles and on the time of emergence of the next follicular wave. Thus, functional dominance, as is present in cattle, may be absent in sheep. An endogenous rhythm for periodic peaks in serum FSH concentrations that is independent of ovarian follicular dynamics may exist in sheep. The expression patterns of steroidogenic enzymes, in the theca and granulosa compartments of antral follicles growing in each follicular wave in the ewe, paralleled serum estradiol concentrations, with the exception of the concentrations of 3¦Â-HSD in granulosa cells, which increased continuously from follicles 3 mm in diameter to the preovulatory follicle after the LH surge. The largest follicle of any follicular wave, irrespective of the stage of the cycle, would appear to be mature enough to ovulate if a gonadotropin surge is provided.

ultrasonography

follicular waves

FSH

steroidogenic enzymes.

ovary

sheep

Dynamics and regulation of ovarian antral follicular waves in sheep

Duggavathi, Rajesha

22 December 2004

The focus of the present thesis was on ultrasonographic, endocrine and molecular characterization of ovarian antral follicular waves in sheep. Transrectal ultrasonography and computer assisted image analysis were used to determine the feasibility of detecting ovulation and the forming corpus luteum (CL) and to non-invasively monitor CL differentiation and growth. High resolution transrectal ultrasonography and hormone measurements were used to assess changes in numbers of small ovarian antral follicles and their relationships to the emergence of follicular waves in cyclic ewes and to correlate pulsatile secretion of gonadotropins with follicular growth in a wave, during the mid to late-luteal phase of the ovine estrous cycle. A series of experiments were conducted, using treatment with injections of ovine follicle stimulating hormone (oFSH) and measurement of serum concentrations of FSH, in cyclic and anestrous sheep, to investigate the existence of follicular dominance. We also evaluated the characteristics of secretory patterns of FSH that are critical for follicular wave emergence, in anestrous ewes. The possible existence of an endogenous rhythm of FSH secretion, independent of ovarian antral follicular dynamics, was studied in ovariectomized ewes. Finally, ovarian antral follicles at defined stages of growth in a follicular wave (based on transrectal ultrasonographic observations) were collected from separate groups of sheep by ovariectomy, to profile the expression patterns of steroidogenic enzymes (3¦Â-HSD, 17¦Á-OH and aromatase) using immunohistochemistry and gray-scale densitometric analysis. <p> The results of the present studies showed that it is possible to detect ovulation and visualize developing CL as early as 12-24 h after ovulation in the ewe. Changes in echotexture of the CL were closely associated with its morphological and functional characteristics, and we concluded that computer assisted image analysis holds promise for the noninvasive monitoring of CL differentiation and growth. Follicles reaching ovulatory diameter (¡Ý 5 mm) emerged and grew in a wave-like pattern in sheep, but without variation in the number of small follicles (1-3 mm in diameter), as seen in cattle. We concluded that all follicles that are recruited to grow beyond 2-3-mm in diameter, to 4-mm diameter in a wave, succeed in reaching an ovulatory diameter of ¡Ý 5 mm in the ewe. The emergence and growth of ovarian antral follicles in follicular waves, in sheep, do not require changes in LH secretion and may perhaps involve changes in the follicular sensitivity to LH. The largest follicle of a wave, in sheep, appears to have limited effects on other small follicles and on the time of emergence of the next follicular wave. Thus, functional dominance, as is present in cattle, may be absent in sheep. An endogenous rhythm for periodic peaks in serum FSH concentrations that is independent of ovarian follicular dynamics may exist in sheep. The expression patterns of steroidogenic enzymes, in the theca and granulosa compartments of antral follicles growing in each follicular wave in the ewe, paralleled serum estradiol concentrations, with the exception of the concentrations of 3¦Â-HSD in granulosa cells, which increased continuously from follicles 3 mm in diameter to the preovulatory follicle after the LH surge. The largest follicle of any follicular wave, irrespective of the stage of the cycle, would appear to be mature enough to ovulate if a gonadotropin surge is provided.

ultrasonography

follicular waves

FSH

steroidogenic enzymes.

ovary

sheep

L’accumulation du cholestérol et des oxystérols mitochondriaux lors de la reperfusion du myocarde ischémique : mécanismes et implication dans la cardioprotection / The mitochondrial cholesterol and oxysterol accumulation during the reperfusion of the ischemic myocardium : mechanisms and implication in cardioprotection

Musman, Julien

07 November 2017

L’infarctus du myocarde représente un problème de santé publique dont le traitement de choix consiste à restaurer le flux sanguin (reperfusion) à travers le tissu ischémié dans les plus brefs délais, cependant cette procédure s’accompagne de lésions supplémentaires dont les mécanismes ne sont pas totalement connus. Notre laboratoire a observé que la reperfusion du myocarde s’accompagne d’une accumulation de cholestérol et d’oxystérols dans les mitochondries qui sont impliquées dans l’apparition de ces lésions. L’objectif de ce projet de thèse a donc été d’identifier les mécanismes responsables de cette accumulation. L’utilisation de stratégies cardioprotectrices (statines, exercice physique, ligand de la protéine translocatrice (TSPO)), visant à réduire la concentration cellulaire ou mitochondriale de cholestérol ou le stress oxydant, a tout d’abord permis de mettre en évidence une relation entre l’effet cardioprotecteur et l’inhibition de l’accumulation des stérols mitochondriaux. Cette relation persiste en présence d’une hypercholestérolémie. Par ailleurs, nous avons montré que l’accumulation mitochondriale de cholestérol et d’oxystérols est due à la translocation de la protéine StAR (Steroidogenic Acute Regulatory protein) du cytosol à la mitochondrie dans les premières minutes de la reperfusion et que ce phénomène est modulé par le TSPO. L’inhibition de l’expression mitochondriale de la protéine StAR pourrait représenter une stratégie intéressante afin de protéger le myocarde ischémié de la reperfusion et ce notamment en cas d’hypercholestérolémie. / Myocardial infarction represents a serious public health issue which requires the restoration of the blood flow (reperfusion) in the ischemic tissue as soon as possible; however cardiac reperfusion also induces additional injuries whose mechanisms are not completely established. Our laboratory showed that myocardial infarction induces the accumulation of cholesterol and oxysterols in the mitochondria which are involved in the induction of reperfusion injury. The objective of this thesis project was to identify the mechanisms responsible for this accumulation. The use of cardioprotective strategies (statin, physical exercise, translocator protein (TSPO) ligand), aiming at reducing the cellular and mitochondrial cholesterol concentrations or the oxidative stress, showed the relation between the cardioprotective effect and the inhibition of the mitochondrial sterol accumulation. This relation persists in hypercholesterolemic animals. Furthermore, we showed that the mitochondrial cholesterol and oxysterol accumulation is caused by the translocation of StAR (Steroidogenic Acute Regulatory protein) from cytosol to mitochondria during the first minutes of the reperfusion and this phenomenon is regulated by the TSPO. The inhibition of the mitochondrial expression of StAR could be an interesting approach in order to protect the ischemic myocardium from reperfusion injury, especially in a hypercholesterolemic context.

Cardioprotection

Mitochondrie

Cholestérol

Oxystérols

Steroidogenic Acute Regulatory protein

Protéine translocatrice

Cardioprotection

Mitochondria

Cholesterol

Oxysterols

Steroidogenic Acute Regulatory protein

Translocator protein

611.1

The inhibition of adrenal steroidogenic enzymes and modulation of glucocorticoid levels in vitro and in vivo by aspalathus linearis (rooibos)

Schloms, Lindie

04 1900

Thesis (PhD)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: This study describes: • the influence of a methanolic extract of unfermented Rooibos and five major Rooibos flavonoids, aspalathin, nothofagin, rutin, orientin and vitexin, on the activities of key adrenal steroidogenic enzymes - cytochrome P450 17β- hydroxylase/17,20-lyase (CYP17A1), 3β-hydroxysteroid dehydrogenase • the development of a novel UPLC-MS/MS method for the separation and quantification of 21 adrenal steroid metabolites; • the influence of Rooibos and aforementioned flavonoids on adrenal steroid hormone production in H295R cells - a human adrenal carcinoma cell line expressing the enzymes catalysing the production of mineralocorticoids, glucocorticoids and adrenal androgens, assayed under both basal (normal) and forskolin-stimulated (stressed) conditions; • the influence of Rooibos on the inter-conversion between cortisol and cortisone by 11βHSD1 and 11βHSD2 expressed in CHO-K1 cells; • the influence of Rooibos consumption on circulating steroid hormone levels and ratios in male Wistar rats; • the influence of Rooibos consumption on circulating steroid hormone levels and ratios in male and female human test subjects at risk for developing cardiovascular disease. (3βHSD2), cytochrome P450 21-hydroxylase (CYP21A2) and cytochrome P450 11β-hydroxylase (CYP11B1), expressed in non-steroidogenic COS-1 cells; / AFRIKAANSE OPSOMMING: Hierdie studie beskryf: • die invloed van metanoliese ekstrakte van ongefermenteerde Rooibos en vyf van die hoof flavonoïedverbindings in Rooibos, aspalatien, notofagien, rutien, oriëntien en viteksien, op die aktiwiteite van ensieme wat steroïedbiosintese in die bynier kataliseer – sitochroom P450 17α-hidroksilase/17,20-liase (CYP17A1), 3β-hidroksisteroïed dehidrogenase (3βHSD2), sitochroom P450 21-hidroksilase (CYP21A2) en sitochroom P450 11β-hidroksilase (CYP11B1), uitgedruk in nie-steroïed produserende COS-1 selle; • die ontwikkeling van ‘n geskikte UPLC-MS/MS metode vir die skeiding en kwantifisering van 21 steroïedmetaboliete in die bynier; • die invloed van Rooibos en die bg. flavonoïede op steroïedproduksie in H295R selle – ‘n menslike bynier kanker sellyn gekenmerk deur die ekspressie van die steroidogeniese ensieme wat die produksie van mineralokortikoïede, glukokortikoïede en bynierandrogene kataliseer, geanaliseer onder beide basale (normale) en forskoliengestimuleerde (gestresde) kondisies; • die invloed van Rooibos op die omeenskakeling tussen kortisol en kortisoon deur 11βHSD1 and 11βHSD2 in CHO-K1 selle; • die invloed van Rooibosinname op vlakke van sirkulerende steroïed hormone en relatiewe verhoudings in die bloed van manlike Wistarrotte; • die invloed van Rooibosinname op sirkulerende steroïed hormoon vlakke en relatiewe verhoudings in die bloed van mans en vrouens met ‘n hoë risiko vir die ontwikkeling van kardiovaskulêre siektes.

Rooibos, adrenal steroidogenic enzymes

Steroid hormones

Rooibos tea -- Therapeutic use

Glucocorticoids

UCTD

Reciprocal binding of sphingosine and phosphatidic acid to steroidogenic factor 1 regulates the transcription of CYP17

Urs, Aarti N.

22 November 2005

Steroidogenic factor (SF1) is an orphan nuclear receptor that is essential for steroid hormone-biosynthesis and endocrine development. Recent studies have demonstrated that phospholipids are ligands for SF1. In the present study our aim was to identify endogenous ligands for SF1 and characterize their functional significance in mediating cAMP-dependent transcription of human CYP17. Using mass spectrometry we show that in H295R adrenocortical cells SF1 is bound to sphingosine (SPH) under basal conditions and that cAMP stimulation decreases the amount of SPH bound to the receptor. We also show that silencing both acid and neutral ceramidases using siRNA induces CYP17 mRNA expression, suggesting that SPH acts as an inhibitory ligand. In vitro analysis of ligand binding using scintillation proximity assays show that several sphingolipids and phospholipids, including phosphatidic acid (PA), can compete with [3H]SPH for binding to SF1, suggesting that SF1 may have more than one ligand and binding specificity may change with the changes in intracellular fluxes of phospholipids. Further, phosphatidic acid (PA) induces SF1-dependent transcription of CYP17 reporter constructs. Inhibition of diacyglycerol kinase (DAGK) activity using R59949 and silencing DAGK- expression attenuates SF1-dependent CYP17 transcriptional. We propose that PA is an activating ligand for SF1 and that cAMP-stimulated activation of SF1 takes place by displacement of SPH.

CYP17

Sphingosine

Phosphatidic acids

Steroidogenic factor 1

Transcription factors

Ligands

Phospholipids

Pregnenolone

Sphingosine

Steroid hormones Synthesis

Transcriptional Regulation of the Mouse Adrenal Cyclase Type 4 (Adcy4) in Y1 Adrenocortical Tumor Cells

Rui, Xianliang

20 May 2010

Adenylyl cyclase (Adcy) is an important early effector of adrenocorticotrophin (ACTH) on the adrenal cortex; however, this enzyme consists of ten isozymes in mammalian cells and the factors governing the expression of different Adcy isozymes have not been well defined. The aim of this study is to investigate the regulation of mouse Adcy4, one of ten isozymes, in Y1 adrenocortical tumor cells and in mutant subclones derived from the Y1 cells. Adcy4 is expressed at a high level in brain but at lower levels in many other tissues including the Y1 cells. Moreover, this isozyme is specifically deficient in Y1 mutants with impaired steroidogenic factor 1 (SF1) activity. These observations support a hypothesis that Adcy4 expression is influenced by both ubiquitously expressed and tissue-specific transcription factors. My sequencing results indicate that mouse Adcy4 is highly homologous to the human and rat counterparts; its gene is located less than 1 kb downstream of Ripk3 and contains 26 exons. Primer extension and in silico analyses suggest that Adcy4 contains a TATA-less promoter and initiates transcription from multiple sites. Luciferase reporter gene assays indicate that Adcy4 promoter activity is mainly stimulated by the proximal GC-rich region but is inhibited by the first intron. This 124 bp GC-rich region is well conserved among several mammalian species and exhibits strong promoter activity in Y1 cells, which is functionally compromised in the Adcy4-deficient mutant. Within this region, three Sp1/Sp3- and one SF1-binding sites have been identified which bind the corresponding proteins Sp1 and Sp3 or SF1 in electrophoretic mobility shift assays (EMSAs). Site-directed mutagenesis reveals that the 5’-most Sp1/Sp3 site enhances Adcy4 promoter activity, whereas the middle Sp1/Sp3 and SF1 sites each repress this activity. In Y1 mutant cells, mutating the SF1 site restores Adcy4 promoter activity and knocking down SF1 with shRNA increases Adcy4 expression. All these data demonstrate that Adcy4 expression is under the control of the ubiquitous factors Sp1 and Sp3 and the tissue-specific factor SF1 and establish that SF1 is a repressor for Adcy4 promoter activity. This study is the first to demonstrate a repressor function for SF1 in certain promoter contexts.

Adenylyl cyclase

Steroidogenesis

Steroidogenic factor 1 (SF1)

Gene regulation

Pharmacology 0419

Steroidogenesis and steroidogenic gene expression in postnatal fetal rat Leydig cells

Weißer, Judith

08 July 2014

Die vorliegende Arbeit untersucht die Steroidogenese und die Expression Leydig-Zellspezifischer Gene in Kulturen postnataler fetaler Leydig-Zellen (PFLC). Die Stimulation von PFLC mit hCG und (Bu)2cAMP bewirkt eine Steigerung der Testosteronproduktion in vitro. Es wurde eine zeitabhängige Abschwächung der Testosteronproduktion durch (Bu)2cAMPstimulierte PFLC beobachtet. Diese war begleitet von einer Akkumulation von Progesteron im Kulturmedium und einer Suppression der Expression von P450c17 auf dem translatorischen Level. Während der Kultivierung verloren PFLC ihre Fähigkeit der Expression Leydig-Zell-spezifischer Gene (z.B. 3βHSD, P450c17, Insl3). Dieses Phänomen konnte durch Stimulation mit (Bu)2cAMP rückgängig gemacht werden. Außerdem zeigte sich, dass PDGFα allein und in Kombination mit (Bu)2cAMP signifikant die Proliferation der PFLC in vitro stimulierte. Die vorliegende Arbeit deutet darauf hin, dass cAMP-aktivierte Signalkaskaden eine wichtige Rolle in der Regulation von Differenzierung und Funktion von PFLC spielen.

postnatale fetale Leydig-Zelle

Steroidogenese

postnatal fetal Leydig cells

Steroidogenesis

Steroidogenic gene expression

ddc:610

Transcriptional Regulation of the Mouse Adrenal Cyclase Type 4 (Adcy4) in Y1 Adrenocortical Tumor Cells

Rui, Xianliang

20 May 2010

Adenylyl cyclase (Adcy) is an important early effector of adrenocorticotrophin (ACTH) on the adrenal cortex; however, this enzyme consists of ten isozymes in mammalian cells and the factors governing the expression of different Adcy isozymes have not been well defined. The aim of this study is to investigate the regulation of mouse Adcy4, one of ten isozymes, in Y1 adrenocortical tumor cells and in mutant subclones derived from the Y1 cells. Adcy4 is expressed at a high level in brain but at lower levels in many other tissues including the Y1 cells. Moreover, this isozyme is specifically deficient in Y1 mutants with impaired steroidogenic factor 1 (SF1) activity. These observations support a hypothesis that Adcy4 expression is influenced by both ubiquitously expressed and tissue-specific transcription factors. My sequencing results indicate that mouse Adcy4 is highly homologous to the human and rat counterparts; its gene is located less than 1 kb downstream of Ripk3 and contains 26 exons. Primer extension and in silico analyses suggest that Adcy4 contains a TATA-less promoter and initiates transcription from multiple sites. Luciferase reporter gene assays indicate that Adcy4 promoter activity is mainly stimulated by the proximal GC-rich region but is inhibited by the first intron. This 124 bp GC-rich region is well conserved among several mammalian species and exhibits strong promoter activity in Y1 cells, which is functionally compromised in the Adcy4-deficient mutant. Within this region, three Sp1/Sp3- and one SF1-binding sites have been identified which bind the corresponding proteins Sp1 and Sp3 or SF1 in electrophoretic mobility shift assays (EMSAs). Site-directed mutagenesis reveals that the 5’-most Sp1/Sp3 site enhances Adcy4 promoter activity, whereas the middle Sp1/Sp3 and SF1 sites each repress this activity. In Y1 mutant cells, mutating the SF1 site restores Adcy4 promoter activity and knocking down SF1 with shRNA increases Adcy4 expression. All these data demonstrate that Adcy4 expression is under the control of the ubiquitous factors Sp1 and Sp3 and the tissue-specific factor SF1 and establish that SF1 is a repressor for Adcy4 promoter activity. This study is the first to demonstrate a repressor function for SF1 in certain promoter contexts.

Adenylyl cyclase

Steroidogenesis

Steroidogenic factor 1 (SF1)

Gene regulation

Pharmacology 0419