Expression of 11beta-hydroxysteroid dehydrogenases in bovine follicle and corpus luteum

Tetsuka, Masafumi; Yamamoto, Shinya; Hayashida, Nobuhiko; Hayashi, Kanako; Hayashi, Masatomo; Acosta, TJ; Miyamoto, Akio

doi:10.1677/joe.0.1770445

Cited by 30 publications

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“…Previous studies of 11bHSD in the bovine ovary have been confined to studies of mRNA expression (Tetsuka et al 2003). This study is the first to document changes in enzyme protein expression and cofactor-dependent enzyme activities across the bovine ovarian cycle in granulosa cells and the early CL.…”

Section: Discussionmentioning

confidence: 94%

“…In each case, follicular fluid was aspirated from the ovarian follicles and visually assessed for opacity before being discarded. In light of Tetsuka's prior data (Tetsuka et al 2003), only those follicles that were assessed as healthy by visual inspection (i.e. wellvascularised follicles showing no evidence of collapse or leakage and having clear follicular fluid) were used in this study.…”

Section: Isolation Of Granulosa and Luteal Cells From The Bovine Ovarymentioning

confidence: 99%

“…Moreover, this model affords an opportunity to assess hormonal regulation of the 11bHSD enzyme by comparing glucocorticoid metabolism between cells from size-matched bovine follicles in the follicular phase (exposed to high concentrations of oestradiol and inhibin) versus luteal phase (high local concentrations of progesterone and oxytocin). To date, the only published information regarding the bovine ovary is limited to a report of mRNA expression (Tetsuka et al 2003). While this prior report noted differences in the level of expression of 11bHSD1 mRNA between healthy 'oestrogen active' and atretic 'oestrogen inactive' granulosa cells, the primary focus of the study was a comparison of 11bHSD transcript levels between the early, mid and late bovine corpora lutea (CL).…”

Section: Introductionmentioning

confidence: 99%

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11β-Hydroxysteroid dehydrogenase expression and activities in bovine granulosa cells and corpora lutea implicate corticosteroids in bovine ovarian physiology

Thurston

Abayasekara

Michael

2007

Journal of Endocrinology

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Cortisol-cortisone metabolism is catalysed by the bi-directional NADP(H)-dependent type 1 11b-hydroxysteroid dehydrogenase (11bHSD1) enzyme and the oxidative NAD C -dependent type 2 11bHSD (11bHSD2). This study related the expression of 11bHSD1 and 11bHSD2 enzymes (mRNA and protein) to net 11-ketosteroid reductase and 11b-dehydrogenase (11b-DH) activities in bovine follicular granulosa and luteal cells. Granulosa cells were isolated from follicles of !4, 4-8, O8 and O12 mm in diameter in either the follicular or luteal phase of the ovarian cycle. Luteal cells were obtained from corpora lutea (CL) in the early non-pregnant luteal phase. Enzyme expression was assessed by reverse transcription-PCR and western blotting, while enzyme activities were measured over 1 h in cell homogenates using radiometric conversion assays with 100 nM [ 3 H]cortisone or [ 3 H]cortisol and pyridine dinucleotide cofactors. Irrespective of follicle diameter, the expression of 11bHSD2 and NAD C -dependent oxidation of cortisol predominated in granulosa cells harvested in the follicular phase. In contrast, in granulosa cells obtained from luteal phase follicles and in bovine luteal cells, expression of 11bHSD1 exceeded that of 11bHSD2 and the major enzyme activity was NADP C -dependent cortisol oxidation. Increasing follicular diameter was associated with progressive increases in expression and activities of 11bHSD2 and 11bHSD1 in follicular and luteal phase granulosa cells respectively. In follicular phase granulosa cells from antral follicles !12 mm, 11bHSD1 migrated with a molecular mass of 34 kDa, whereas in the dominant follicle, CL and all luteal phase granulosa cells, a second protein band of 68 kDa was consistently detected. In all samples, 11bHSD2 had a molecular mass of 48 kDa, but in large antral follicles (O8 mm), there was an additional immunoreactive band at 50 kDa. We conclude that 11bHSD2 is the predominant functional 11bHSD enzyme expressed in follicular phase granulosa cells from growing bovine antral follicles. In contrast, in bovine granulosa cells from dominant or luteal phase follicles, and in bovine luteal cells from early non-pregnant CL, 11bHSD1 is the major glucocorticoid-metabolising enzyme. The increasing levels of cortisol inactivation by the combined NADP C -and NAD C -dependent 11b-DH activities suggest a need to restrict cortisol access to corticosteroid receptors in the final stages of follicle development.

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Section: Discussionmentioning

confidence: 94%

Section: Isolation Of Granulosa and Luteal Cells From The Bovine Ovarymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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11β-Hydroxysteroid dehydrogenase expression and activities in bovine granulosa cells and corpora lutea implicate corticosteroids in bovine ovarian physiology

Thurston

Abayasekara

Michael

2007

Journal of Endocrinology

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“…Access of GCs to GC receptors in target tissues is regulated by two 11β-HSDs, bidirectional 11β-HSD type 1 (11β-HSD1) that mainly converts cortisone to active cortisol [11] and 11β-HSD type 2 (11β-HSD2) that inactivates cortisol to cortisone [12]. Although both 11β-HSDs and GC receptors are expressed in the bovine corpus luteum (CL) [13,14] and endometrium [8] throughout the estrous cycle and early pregnancy [15], the role of GC in regulating CL function is still controversial.Our previous in vitro studies have suggested that cortisol suppresses tumor necrosis factor α (TNFα)-stimulated prostaglandin (PG) F 2α production in endometrial stromal cells [8] and inhibits apoptosis of cultured luteal cells induced by TNFα and interferon-γ (IFNG) [13]. Based on the results of in vitro studies, it seems that cortisol plays a role in preventing excessive uterine PGF 2α production and protecting the CL against apoptosis in nonpregnant cattle [13,16].…”

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confidence: 99%

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confidence: 99%

Effects of Cortisol on Pregnancy Rate and Corpus Luteum Function in Heifers: An <i>In Vivo</i> Study

Duong

Piotrowska-Tomala

Acosta

et al. 2012

Journal of Reproduction and Development

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Abstract. To determine whether glucocorticoids affect the function of the bovine corpus luteum (CL) during the estrous cycle and early pregnancy, we examined the effects of exogenous cortisol or reduced endogenous cortisol on the secretion of progesterone (P4) and on pregnancy rate. In preliminary experiments, doses of cortisol and metyrapone (an inhibitor of cortisol synthesis) were established (n=33). Cortisol in effective doses of 10 mg blocked tumor necrosis factor-induced prostaglandin F 2α secretion as measured by its metabolite (PGFM) concentrations in the blood. Metyrapone in effective doses of 500 mg increased the P4 concentration. Thus, both reagents were then intravaginally applied in the chosen doses daily from Day 15 to 18 after estrus (Day 0) in noninseminated heifers (n=18) or after artificial insemination (n=36). Pregnancy was confirmed by transrectal ultrasonography between Days 28-30 after insemination. Plasma concentrations of P4 were lower in cortisol-treated heifers than in control heifers on Days 17 and 18 of the estrous cycle (P<0.05). However, the interestrus intervals were not different between control and cortisol-treated animals (P>0.05). Moreover, metyrapone increased P4 and prolonged the CL lifespan in comparison to control animals (P<0.05). Interestingly, in inseminated heifers, cortisol increased the pregnancy rate (75%) compared with control animals (58%), whereas metyrapone reduced the pregnancy rate to 16.7% (P<0.05). The overall results suggest that cortisol, depending on the physiological status of heifers (pregnant vs. nonpregnant), modulates CL function by influencing P4 secretion. Cortisol may have a positive influence on CL function during early pregnancy, leading to support of embryo implantation and resulting in higher rates of pregnancy in heifers. Key words: Cattle, Cortisol, Early pregnancy, Estrous cycle, Progesterone (J. Reprod. Dev. 58: [223][224][225][226][227][228][229][230] 2012) G lucocorticoids (GCs) are involved in many physiological processes [1,2], including female reproductive functions [3] in rabbits [4], ewes [5] and humans [6]. Cortisol, an active GC, is an anti-inflammatory agent that acts to modulate the production and action of cytokines and prostaglandins required for ovulation, luteolysis, embryo implantation, fetal growth and placental development [3,7]. It is synthesized from cholesterol in the adrenal cortex and is locally regulated by 11β-hydroxysteroid dehydrogenases (11β-HSDs) [8]. The biological action of GCs is mediated through the activation of intracellular GR receptors (GC-R). Two isoforms of GC-R, GC-Rα and GC-Rβ, have been identified [9,10]. Access of GCs to GC receptors in target tissues is regulated by two 11β-HSDs, bidirectional 11β-HSD type 1 (11β-HSD1) that mainly converts cortisone to active cortisol [11] and 11β-HSD type 2 (11β-HSD2) that inactivates cortisol to cortisone [12]. Although both 11β-HSDs and GC receptors are expressed in the bovine corpus luteum (CL) [13,14] and endometrium [8] throughout the estrous cycle and ea...

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Changes in expression of 11β‐Hydroxysteroid dehydrogenase type‐1, type‐2 and glucocorticoid receptor mRNAs in porcine corpus luteum during the estrous cycle

Sakumoto

Ito

Okuda

2007

Molecular Reproduction Devel

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The objective of the present study was to determine whether glucocorticoid (GC) and its receptor (GC-R) are expressed in the porcine corpus luteum (CL), and whether GC influences porcine luteal hormone production. The gene expressions of 11beta-hydroxysteroid dehydrogenase type 1 (11-HSD1), type 2 (11-HSD2), GC-R, and the concentrations of GC were determined in the CL of Chinese Meishan pigs during the estrous cycle. Moreover, the effects of GC on progesterone (P(4)), estradiol-17beta (E(2)), and prostaglandin (PG) F2alpha secretion by cultured luteal cells were investigated. Messenger RNAs of the 11-HSD1, 11-HSD2, and GC-R were clearly expressed in the CL throughout the estrous cycle. The 11-HSD1 mRNA level in the CL was higher at the regressed stage than at the other stages (P < 0.05), whereas 11-HSD2 mRNA was lower at the regressed stage than at the other stages (P < 0.05). GC-R mRNA level was higher at the regressed stages than at the other stages (P < 0.01). Concentrations of GC were lower in the regressed CL than in the other stages (P < 0.01). When the cultured luteal cells obtained from mid-stage CL (Days 8-11) were exposed to GC (50-5,000 ng/ml), P(4) and PGF2alpha secretion by the cells were reduced (P < 0.05), whereas GC had no effect on E(2) secretion by the cells. The overall results suggest that GC is regulated locally by 11-HSD1 and 11-HSD2 in the porcine CL. GC inhibits P(4) and PGF2alpha production from luteal cells via their specific receptors, implying GC plays some roles in regulating porcine CL function throughout the estrous cycle.

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Expression of 11beta-hydroxysteroid dehydrogenases in bovine follicle and corpus luteum

Cited by 30 publications

References 38 publications

11β-Hydroxysteroid dehydrogenase expression and activities in bovine granulosa cells and corpora lutea implicate corticosteroids in bovine ovarian physiology

11β-Hydroxysteroid dehydrogenase expression and activities in bovine granulosa cells and corpora lutea implicate corticosteroids in bovine ovarian physiology

Effects of Cortisol on Pregnancy Rate and Corpus Luteum Function in Heifers: An <i>In Vivo</i> Study

Changes in expression of 11β‐Hydroxysteroid dehydrogenase type‐1, type‐2 and glucocorticoid receptor mRNAs in porcine corpus luteum during the estrous cycle

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