Insulin-like growth factor I gene expression by primary cultures of ovarian cells: insulin and dexamethasone dependence.

A growing body of information now supports the existence of a complete intraovarian insulin-like growth Factor I (IGF-I) system replete with ligands, receptors, and binding protein(s). However, studies concerned with the regulation of ovarian IGF-I gene expression remain scarce. It was thus the objective of this communication to evaluate the expression of the IGF-I gene in the immature rat ovary under in vitro conditions. Whole ovarian dispersates or isolated granulosa cells were cultured for up to 96 h under serum-free conditions in the absence or presence of the indicated experimental agents. Extracted total RNA was subjected to a sensitive solution hybridization/RNase protection assay using 32P-labeled rat IGF-I and/or type I IGF receptor antisense RNA probes. Cultured in the absence or presence of FSH (100 ng/ml), whole ovarian dispersates (or isolated granulosa cells) displayed time-dependent (FSH-independent) decrements in the relative abundance of IGF-I transcripts apparent as early as 3 h after the onset of culture. No evidence of recovery was apparent by 96 h of culture. The apparent lack of an FSH effect did not reflect diminished biopotency as attested to by the ability of the hormone to promote time-dependent increments in the accumulation of progesterone. Importantly, the apparent decrease in ovarian IGF-I gene expression proved to be IGF-I specific in that type I IGF receptor transcripts displayed a substantial and sustained (for up to 96 h) FSH-independent increase beginning at the 24-h time point. At no point were IGF-II transcripts detected. The apparent decrease in the expression of IGF-I did not reflect the lack of extracellular matrix support in that neither laminin, collagen, nor whole serum supported sustained ovarian IGF-I gene expression. Treatment of whole ovarian dispersates with pharmacological concentrations of either insulin (1 micrograms/ml) or dexamethasone (10(-7) M) did not reverse the decline in IGF-I gene expression. Importantly, however, the combined application of both insulin and dexamethasone resulted in virtually complete preservation of IGF-I gene expression, the relative abundance of the corresponding transcripts proving uniform throughout. Taken together, these in vitro observations reveal irreversible (FSH-independent) decrements in ovarian IGF-I (but not type I IGF receptor) gene expression, the preservation of which required the concurrent provision of both insulin and dexamethasone.

Rat ovarian insulin-like growth factor binding protein-3: a growth hormone-dependent theca-interstitial cell-derived antigonadotropin.

To further the identification and characterization of insulin-like growth factor binding proteins at the level of the immature rat ovary, we have set out to study the ovarian expression, cellular localization, and hormonal regulation of the insulin-like growth factor binding protein (IGFBP)-3. To this end, use was made of a solution hybridization/RNAse protection assay wherein ovarian total RNA from immature (21-23 days old) female rats was hybridized with a 343 bases-long [32P]-labeled rat IGFBP-3 riboprobe. As in liver, a single protected fragment (315 bases-long) corresponding to IGFBP-3 transcripts was identified in whole ovarian material. Cellular localization studies revealed the IGFBP-3 gene to be exclusively expressed in the theca-interstitial rather than the granulosa cell compartment. To confirm presence and cellular distribution of the IGFBP-3 protein, media conditioned by cultured granulosa cells, theca-interstitial cells, and whole ovarian dispersates were subjected to Western Ligand Blotting. Importantly, media conditioned by cultured theca-interstitial (but not granulosa) cells displayed an IGFBP the size of rat IGFBP-3 (46kDa) as determined by comigration with a rat serum standard. A similarly-sized band was apparent in media conditioned by cultured whole ovarian dispersates reflecting in all likelihood the contribution of the theca-interstitial cell component. Significantly, deglycosylation of media conditioned by cultured theca-interstitial cells revealed the glycosylated nature of the 46kDa IGFBP species as judged by the apparent reduction in its molecular size to 35kDa. Similar alterations were noted in corresponding rat serum samples. Hypophysectomy of immature rats resulted in a modest but statistically insignificant decrease in the relative (densitometrically-quantified) abundance of ovarian IGFBP-3 transcripts, an effect further augmented by the systemic provision of either FSH or diethylstilbestrol (DES). In contrast, systemic treatment of hypophysectomized rats with GH produced a marked (3.2-fold) increase (P less than 0.05) in the steady state levels of ovarian (as well as hepatic) IGFBP-3 transcripts. However, the concurrent provision of either FSH or DES resulted in substantial (P less than 0.05) attenuation (78 and 57% inhibition, respectively) of the upregulatory GH effect. These findings document the highly compartmentalized expression of the IGFBP-3 gene at the level of the immature rat ovary, implicate the theca-interstitial cell as the sole source of its generation, reveal its pituitary dependence, and disclose its diametrically-opposed (indeed antagonistic) regulation by FSH (or estrogens) and GH.(ABSTRACT TRUNCATED AT 400 WORDS)