Genome-wide association studies recently identified 32 loci that associate with the age at menarche (AAM) in humans. Because the locus most robustly associated with AAM is in/near LIN28B, the goal of this study was to investigate how the Lin28 pathway might modulate pubertal timing by examining expression of Lin28b, and its homologue, Lin28a, across the pubertal transition in female mice. Quantitative reverse-transcriptase PCR data indicate that, prior to the onset of puberty, expression of both Lin28b and Lin28a decreases in the ovary, while expression of only Lin28a decreases in the hypothalamus; the expression of Lin28a increases after the onset of puberty in the pituitary. Immunohistochemistry in ovarian tissue verified that Lin28a protein levels decreased in parallel with gene expression. Although these data do not demonstrate cause and effect, they do suggest that decreased expression of Lin28a/Lin28b may facilitate the transition into puberty, consistent with previous data showing that overexpression of Lin28a in transgenic mice leads to delayed puberty. In addition, although Lin28b and/or Lin28a expression significantly decreased prior to puberty, neither Let-7a nor Let-7g miRNA levels changed significantly, raising the possibility that some effects of Lin28b and Lin28a within the hypothalamic-pituitary-gonadal (HPG) axis may be Let-7 miRNA independent. Subsequent studies, such as tissue and age specific modulation of Lin28b and Lin28a expression, could determine whether the expression patterns observed are responsible for modulating the onset of puberty and delineate further the role of this pathway in the HPG axis.
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