Abstract
The cyclic expression of gonadotropin releasing-hormone receptors (GnRHR), luteinizing hormone (LH), and follicle-stimulating hormone (FSH) by pituitary gonadotropes is critical in the female reproductive process. We have shown that the translational regulator Musashi (MSI) binds to Gnrhr mRNA and inhibits its translation, and the gonadotrope-specific deletion of Msi1 and Msi2 (Gon-Msi-null) leads to increased pituitary GnRHR protein levels. An in silico analysis of gonadotropin mRNAs revealed 5 different MSI binding elements in the 3’UTR of Fshb mRNA. We hypothesize that, in addition to Gnrhr, MSI may also bind and repress Fshb mRNA translation in the gonadotropes. To test if MSI does target the Fshb transcript in the pituitary, we performed RNA immunoprecipitation (IP) on pooled control female mouse pituitaries using a MSI1 antibody and measured Fshb mRNA by qRT-PCR. To study the in vivo effects of MSI on Fshb, we harvested the pituitaries of the Gon-Msi-null (MUT) female mice and their littermate controls (CTL) during the estrous cycle. We collected serum and protein for EIAs to measure the levels of FSH and LH, and RNA for Fshb qRT-PCR. We harvested proestrous ovaries and fixed them for embedding, sectioning, and H&E staining. Our RNA IP experiments show a 7-fold enrichment for Fshb with the MSI1 antibody. The Gon-Msi-null females have significantly higher pituitary FSH protein content than controls on estrous morning (MUT: 4.8±1.3 vs. CTL: 1.8±2.6 ng/ml/μg protein, p<0.0001, n=9-10/group). These mice also have increased serum FSH levels (MUT: 56.9±6.4 vs. CTL: 44.5±9.6 ng/ml, p=0.0147, n=9-10/group). No changes at the Fshb mRNA level were detected. Analysis of Gon-Msi-null ovaries revealed a 50% decrease in the number of follicles, with significant decreases in the average numbers of maturing follicles (p<0.0175) and corpora lutea (p<0.0215). Interestingly, the LH levels in these mice were also altered. The Gon-Msi-null females show a decrease in the pituitary LH protein content in the evening of proestrus (MUT: 11.8±1.4 vs. CTL: 15.1±2.0 ng/ml/μg protein, p=0.0333, n=7/group), in addition to a delayed and blunted LH surge (MUT: 2.6±1.9 vs. CTL: 7.3±3.5 ng/ml, p=0.0089, n=7-11/group). Taken together, our data indicate that Fshb is a Musashi target in the gonadotropes. By deleting MSI from the pituitary gonadotropes, we observe an increase in FSH protein content and serum levels. These Gon-Msi-null female mice have significantly fewer maturing follicles and corpora lutea, which might suggest lower levels of estrogens and progesterone. This, together with the increased GnRHR pituitary protein content, affects LH secretion, leading to a blunted LH surge in the Gon-Msi-null females. Our studies thus reveal a novel translational regulatory mechanism to govern levels of critical reproductive hormones in the pituitary.
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