Patricia A. Klase scite author profile

Incubation of swine granulosa cells in chemically defined medium selectively deficient in calcium ions markedly impaired progesterone production in response to submaximal and maximally stimulating concentrations of LH. Accumulation of progesterone in response to LH was reduced significantly in both cells and medium, without a discernible shift in the time-course of progestin production. The reduction in progesterone accumulation could not be accounted by increased formation of the catabolite 20 alpha-hydroxypregn-4-en-3-one. In addition, progesterone secretion basally or in response to exogenously supplied pregnenolone was not altered in calcium-deficient incubations. Administration of verapamil or diltiazem, organic inhibitors of net transmembrane calcium uptake, also suppressed LH-stimulated progesterone production. Conversely, micromolar concentrations of the divalent cation ionophore A23187 significantly enhanced the stimulatory effects of LH. The mechanisms of calcium action were examined further in relation to the cAMP effector system. Calcium deprivation significantly suppressed the dose-dependent accumulation of cAMP in granulosa cells treated with LH but had no effect on basal levels. Omission of calcium ions from the extracellular medium also markedly impaired production of progesterone in response to 8-bromo-cAMP, cholera toxin, or 3-isobutyl-l-methylxanthine. The present studies suggest that calcium ions significantly modulate LH-stimulated progesterone biosynthesis in isolated ovarian cells in vitro. Specific regulatory actions of calcium ions in granulosa cells may be exerted at several levels, including LH-stimulated cAMP accumulation and at intracellular loci distal to the actual generation of cAMP.

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Mechanisms Subserving Calcium’s Modulation of Luteinizing Hormone Action in Isolated Swine Granulosa Cells*

Veldhuis

Klase

Demers³

et al. 1984

Endocrinology

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We studied the mechanism(s) by which calcium ions modulate progesterone biosynthesis by isolated swine granulosa cells incubated in chemically defined medium in vitro. In selectively calcium-deficient incubations, the capacity of 8-bromo-cAMP to stimulate pregnenolone synthesis from endogenous sterol substrate was significantly impeded. This effect of calcium ions was specific, because calcium ions did not influence basal pregnenolone production or alter progesterone production in response to exogenously supplied cholesterol substrate. Moreover, calcium ions did not modify other biosynthetic processes in granulosa cells, such as de novo synthesis of cholesterol from [14C]acetate or the aromatization of testosterone to 17 beta-estradiol. The possible role of calmodulin in mediating calcium's actions in pig granulosa cells was tested by measuring the calmodulin content of these cells and assessing the functional responses to classical calmodulin antagonists. By immunoassay, swine granulosa cells contained high concentrations of calmodulin, viz. 4.21-4.88 micrograms calmodulin/mg protein. Moreover, calmodulin antagonists inhibited LH-stimulated progesterone production with the following rank order of potencies [estimated by half-maximally inhibitory concentrations (ID50)]: penfluridol (1 microM), trifluoroperazine (9 microM), chlorpromazine (95 microM), and trifluoperazine sulfoxide (greater than 300 microM). In addition, the nonphenothiazine calmodulin antagonist W7 inhibited stimulated progesterone production with an ID50 of 16.7 microM. W5 was less active. None of these antagonists significantly suppressed LH-stimulated cAMP generation at the low concentrations capable of inhibiting progesterone production. The effects of calcium ions seemed to depend upon the availability of intracellular pools of calcium, because TMB-8, an inhibitor of intracellular calcium mobilization, effectively suppressed LH-stimulated progesterone production (ID50, 18 microM). However, even 100 microM TMB-8 failed to alter basal progesterone production or suppress LH-stimulated cAMP generation in these cells. In summary, the present studies indicate that calcium ions significantly modulate LH's stimulation of pregnenolone biosynthesis from endogenous cholesterol substrate in swine ovarian cells. Calcium does not influence basal pregnenolone production, estrogen synthesis from androgen substrate, de novo biosynthesis of cholesterol from [14C]acetate, or progesterone production from exogenously supplied sterol substrate.(ABSTRACT TRUNCATED AT 400 WORDS)

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Patricia A. Klase

Divergent Effects of Prolactin upon Steroidogenesis by Porcine Granulosa Cells in Vitro: Influence of Cytodifferentiation*

Mechanisms by which Calcium Ions Regulate the Steroidogenic Actions of Luteinizing Hormone in Isolated Ovarian Cells in Vitro*

Mechanisms Subserving Calcium’s Modulation of Luteinizing Hormone Action in Isolated Swine Granulosa Cells*

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