Barry G. Kasson scite author profile

Although insulin-like growth factor-I (IGF-I) and insulin have been shown to augment rat granulosa cell differentiation, their mechanism(s) of action has not yet been elucidated. In the present study, we have examined granulosa cells obtained from immature hypophysectomized estrogen-treated rats for specific IGF-binding sites that might mediate the effects of the insulin-like peptides. Using synthetic [125I]iodo-IGF-I, we have found specific high affinity, low capacity (Kd = 1.36 +/- 0.131 nM; 3250 +/- 662 sites/cell) IGF-I-binding sites that have lower affinities for the related peptides IGF-II and insulin (potency ratio, 1:9:700 for IGF-I, IGF-II, and insulin). We have also found specific binding sites for [125I]iodo-IGF-II, a newly available synthetic peptide. The IGF-II-preferring sites were of a single class (Kd = 1.54 +/- 0.32 nM; 4728 sites/cell) and exhibited a rank competition order of IGF-II greater than IGF-I much greater than insulin. To study the functional correlates of these binding activities, granulosa cells were cultured for 2 days in serum-free medium in the presence of FSH, with or without increasing concentrations of IGF-I, IGF-II, or insulin. Medium steroids were then determined by specific RIA, and cellular LH/hCG receptors were measured by specific [125I]iodo-hCG binding. Treatment with FSH increased estrogen and progestin production and induced the formation of LH/hCG receptors. Concomitant treatment with the three peptides dose-dependently enhanced both FSH-stimulated steroidogenesis and LH/hCG receptor induction, with a rank order of potency of IGF-I greater than IGF-II greater than insulin (potency ratio, 1:8:36). This rank order of potency of the insulin-like peptides was more closely correlated with their ability to compete for IGF-I binding rather than IGF-II binding, suggesting the preferential involvement of IGF-I receptors in the ovarian actions of the IGFs, although the involvement of IGF-II and insulin receptors cannot be dismissed. Our results demonstrate, for the first time, a biological action of synthetic IGF-II in granulosa cells and further show a novel insulin effect, enhancement of LH/hCG receptor induction. These findings also indicate that rat granulosa cells possess specific IGF-I and IGF-II-binding sites that may mediate the gonadotropin-enhancing actions of the insulin-like peptides. Since IGF-I appears to be the most biologically potent peptide, it is likely to be the most important insulin-like peptide involved in granulosa cell differentiation in vivo.

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Insulin Stimulation of a MEK-Dependent but ERK-Independent SOS Protein Kinase

Holt

Kasson

Pessin

1996

Molecular and Cellular Biology

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The Ras guanylnucleotide exchange protein SOS undergoes feedback phosphorylation and dissociation from Grb2 following insulin receptor kinase activation of Ras. To determine the serine/threonine kinase(s) responsible for SOS phosphorylation in vivo, we assessed the role of mitogen-activated, extracellular-signal-regulated protein kinase kinase (MEK), extracellular-signal-regulated protein kinase (ERK), and the c-JUN protein kinase (JNK) in this phosphorylation event. Expression of a dominant-interfering MEK mutant, in which lysine 97 was replaced with arginine (MEK/K97R), resulted in an inhibition of insulin-stimulated SOS and ERK phosphorylation, whereas expression of a constitutively active MEK mutant, in which serines 218 and 222 were replaced with glutamic acid (MEK/EE), induced basal phosphorylation of both SOS and ERK. Although expression of the mitogen-activated protein kinase-specific phosphatase (MKP-1) completely inhibited the insulin stimulation of ERK activity both in vitro and in vivo, SOS phosphorylation and the dissociation of the Grb2-SOS complex were unaffected. In addition, insulin did not activate the related protein kinase JNK, demonstrating the specificity of insulin for the ERK pathway. The insulin-stimulated and MKP-1-insensitive SOS-phosphorylating activity was reconstituted in whole-cell extracts and did not bind to a MonoQ anion-exchange column. In contrast, ERK1/2 protein was retained by the MonoQ column, eluted with approximately 200 mM NaCl, and was MKP-1 sensitive. Although MEK also does not bind to MonoQ, immunodepletion analysis demonstrated that MEK is not the insulin-stimulated SOS-phosphorylating activity. Together, these data demonstrate that at least one of the kinases responsible for SOS phosphorylation and functional dissociation of the Grb2-SOS complex is an ERK-independent but MEK-dependent insulin-stimulated protein kinase.

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Adenosine Triphosphatases of Rat Pancreatic Islets

Levin¹,

Kasson²,

Driessen³

1978

J. Clin. Invest.

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Hormonal Regulation of 3′,5′-Adenosine Monophosphate Phosphodiesterases in Cultured Rat Granulosa Cells*

1984

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The effect of gonadotropins on phosphodiesterase activity of rat granulosa cells was studied in an in vitro model. Granulosa cells were prepared from hypophysectomized or intact, estrogen-primed immature female rats and treated with FSH, hCG, or (Bu)2cAMP in vitro. Phosphodiesterase activity was determined in cell homogenates. FSH treatment for 2 days produced a marked increase in phosphodiesterase activity, while hCG was ineffective. FSH stimulation was potentiated by the addition of 1-methyl-3-isobutylxanthine, while treatment with the cAMP analog, (Bu)2cAMP by itself also markedly stimulated enzyme activity. FSH stimulated cAMP, but not cGMP, hydrolysis, suggesting that a phosphodiesterase specific for cAMP was stimulated by the gonadotropin. Time-course studies showed that an increase in phosphodiesterase activity was apparent after 1 h of incubation and was maximal at 48 h. FSH stimulation of phosphodiesterase was dose-dependent, with an ED50 of 30 ng/ml FSH and a maximal increase at 100-300 ng/ml. Treatment with cycloheximide (1 or 10 micrograms/ml) completely blocked the gonadotropin stimulation, suggesting that on-going protein synthesis is required for the FSH action. DEAE-cellulose chromatography of soluble extracts of control and FSH-treated cells indicated that two forms of phosphodiesterase were present in unstimulated granulosa cells. The first form, eluting at 0.17 M Na-acetate, hydrolyzed both cAMP and cGMP and was stimulated by Ca++ and calmodulin; the second form, eluting at 0.48 M Na-acetate, was insensitive to Ca++ or calmodulin and hydrolyzed mainly cAMP. FSH treatment markedly stimulated cAMP hydrolysis by the calmodulin-dependent first form as well as that by the second form. Double reciprocal analysis indicated that the FSH-stimulated enzymes are of high affinity for cAMP. In agreement with the data on total homogenate, the cGMP hydrolysis was not affected by the hormone treatment. These data demonstrate that FSH stimulates cAMP, but not cGMP, phosphodiesterase activity in rat granulosa cells in vitro. This stimulation might represent a mechanism for termination of the FSH primary stimulus and regulation of granulosa cell responsiveness to the gonadotropin.

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Barry G. Kasson

Specific Insulin-Like Growth Factor (IGF) I- and II-Binding Sites on Rat Granulosa Cells: Relation to IGF Action*

Insulin Stimulation of a MEK-Dependent but ERK-Independent SOS Protein Kinase

Adenosine Triphosphatases of Rat Pancreatic Islets

Hormonal Regulation of 3′,5′-Adenosine Monophosphate Phosphodiesterases in Cultured Rat Granulosa Cells*

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