Abstract

Abstract Disclosure: R. Ballesteros: None. A. Mukherjee: None. Folistatin Like 3 (FSTL3) is a known antagonist of activin and myostatin action that when deleted from the mouse genome displayed a set of phenotypic changes that are directly linked to glucose metabolism and reproductive function. Although our previous work showed that β-cell hyperplasia, increased pancreatic islet number and size and reduced visceral fat seen in FSTL3 knockout mice (FSTL3 KO) could be explained by enhanced activin and myostatin action, the molecular bases of the changes in the reproductive function seen in this mouse model remain elusive. In contrast to testicular degeneration produced by INHBA (activin A) transgenic overexpression in mice, deletion of FSTL3 results in increased testicular size, with increased Sertoli cell numbers and early meiotic entry of the first spermatogenic wave. This suggests a possibility that the phenotype in FSTL3 deleted mice might involve alteration of additional transcripts other than those induced by activin alone in the testis. To identify transcripts induced in FSTL3 deleted testis as a consequence of induced TGFβ ligand action we performed sequencing of Smad4 Chromatin immunoprecipitation (ChIP-Seq) from postnatal (3d) and post-pubertal (56d) whole testis. Our results show high activity of Smad4 signalling during postnatal stages compared to post-pubertal stages in both genotypes (Fstl3-KO vs wild-type). Interestingly, postnatal testis from FSTL3 KO contains significantly less activity from Smad4 signalling (69 peaks) compared to wild type (775 peaks). By contrast, on the whole, Smad4 signalling in post-pubertal stages is less active with 34 peaks in wild-type and 29 peaks in Fstl3-KO of which 8 genes are SMAD activated in both genotypes. To identify whether SMAD-dependent signalling produces significant differences in RNA expression, we then used the list of genes that generated peaks in the Smad4-ChIP-Seq experiment to filter our RNA-Seq data generated in a parallel experiment followed by differential gene expression analysis of GO terms by GSEA in postnatal testis from both genotypes. We found that Smad4-interacting genes in posnatal FSTL3 KO testis generate enrichment of 13 pathways including the androgen receptor signalling pathway. Taken together so far, our findings reveal a novel catalogue of SMAD-regulated genes in the testis, identifies a set of genes specifically upregulated in the testis in a SMAD-dependent manner upon FSTL3 deletion and also identify possible cross-talk between TGFβ and 13 other signalling pathways. Currently we are further analysing our data to identify whether there are SMAD regulated genes and pathways common in postnatal and postpubertal testes. We are also undertaking experiments to investigate expression pattern in FSTL3 KO testis to identify which pathways might specifically affect Sertoli cell proliferation and activity. Presentation: 6/2/2024

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