Project description:The effects of Gata4 inhibition on global gene expression in TM4 Sertoli cells was analyzed. Using microarray analysis we identified a set of genes that are downregulated or upregulated following siRNA-mediated silencing of Gata4 in the murine Sertoli cell line TM4. Among the downregulated genes were regulators of blood-testtis barrier function and lactate metabolism. TM4 cells were transfected with non-targeting (NT) siRNA and Gata4 siRNA respectively. 72h post transfection cells were lysed and RNA was extracted.

Project description:This study was designed to investigate the toxicological effects of MEHP on TM3 Leydig and TM4 Sertoli cells.

Project description:ERM knockout mice were produced. Testis develop a Sertoli cell only syndrome, which appears complete by 10 weeks of age in male ERM knockout mice. Three sets of Affymetrix comparisons were made. #1 and #2, Wt or ERM knockout testis from 4 week old males, totaly RNA. This time preceeds any significant histologic difference between the wt or knockout. The results was the finding that only a very specific set or markers for spermatogonial STEM CELLs were found to be greatly reduced in the ERM knockout. #3 and #4. The sertoli cell line TM4 was transduced with a retroviral ERM. The wild type TM4 cell line was compared to this TM$-ERM cell line, with the finding that only a few genes were increased in the TM4-ERM line. #5, #6 and #7. Primary Sertoli cells were purified from 4 week old wild type or ERM knockout or from 10 week old ERM knockout mice and compared. Keywords: other

Project description:ERM knockout mice were produced. Testis develop a Sertoli cell only; syndrome, which appears complete by 10 weeks of age in male ERM knockout mice. Three sets of Affymetrix comparisons were made. #1 and #2, Wt or ERM knockout testis from 4 week old males, totaly RNA. This time preceeds any significant histologic difference between the wt or; knockout. The results was the finding that only a very specific set or; markers for spermatogonial STEM CELLs were found to be greatly reduced in the ERM knockout. #3 and #4. The sertoli cell line TM4 was transduced with a retroviral; ERM. The wild type TM4 cell line was compared to this TM$-ERM cell line,; with the finding that only a few genes were increased in the TM4-ERM line. #5, #6 and #7. Primary Sertoli cells were purified from 4 week old wild; type or ERM knockout or from 10 week old ERM knockout mice and compared.

Project description:The effects of Gata4 inhibition on global gene expression in TM4 Sertoli cells was analyzed. Using microarray analysis we identified a set of genes that are downregulated or upregulated following siRNA-mediated silencing of Gata4 in the murine Leydig tumor cell line mLTC-1. Among the downregulated genes were enzymes of the androgen biosynthetic pathway. TM4 cells were transfected with non-targeting (NT) siRNA and Gata4 siRNA respectively. 72h post transfection cells were lysed and RNA was extracted. n=3 of each sample group; control samples are samples 3-6 (TM4 cells treated with non-targeting siRNA)

Project description:Zearalenone (ZEA) is a non-steroidal xenoestrogen mycotoxin produced by many Fusarium fungal species, which are common contaminants of cereal crops destined for worldwide human and animal consumption. ZEA has been linked to various male reproduction problems including decreased fertility potential. In this study, the direct impact of ZEA on the immature Sertoli TM4 cell line was evaluated. Results showed that high concentration of ZEA increase reactive oxygen species via the activation of MAPK signaling. Transcriptome analysis was performed on TM4 cell line treated with ZEA and genes involved in sex differentiation (Fgfr2, Igf1, Notch1, Sox9) and extracellular matrix (ECM) formation (Ctgf, Fam20a, Fbn1, Mmp9, Postn, Sparcl1, Spp1) were identified at the center of the functional protein association network suggesting that ZEA could be detrimental to the early steps of Sertoli cell differentiation.

Project description:Assessment of zearalenone-induced cell survival and global gene regulation in mouse TM4 Sertoli cells

Project description:<p>Sertoli cell-only syndrome is severe form of human male infertility in which most seminiferous tubules appear to lack all spermatogenic cells, including spermatogonial stem cells (SSCs). However, a few small tubule segments of some patients have active spermatogenesis and, thus, functional stem cell niches and SSCs. Normally SSCs replicate, migrate and refill adjacent empty niches, but this does not appear to occur in SCO syndrome. We hypothesized that this failure occurs because most niches are dysfunctional. As Sertoli cells are essential to formation of these niches, we used RNAseq to compare the transcriptomes of human testes with qualitatively normal (complete) spermatogenesis (n&#61;4) with the transcriptomes of human testes with SCO syndrome (n&#61;7). We then focused our analysis on the expression of transcripts that bioinformatic analyses identified as Sertoli cell signature transcripts. Results show that Sertoli cells in SCO testes express abnormally low levels of GDNF, FGF8 and BMP4, all of which are important regulators of mouse SSCs and/or progenitor spermatogonia. Sertoli cells in SCO testes express significantly reduced levels of transcripts for proteins that polarize the Sertoli cell plasma membrane and regulate the trafficking of cell adhesion and gap junction proteins in and out of that plasma membrane.</p>

Project description:Heat stress (HS) could damage animal reproduction, while the mechanisms are still required to be better understood. Here, we showed that incubation of porcine immature Sertoli cells (iSCs) at 43 °C for 30 minutes followed 36h recovery under normal culture could inhibit the proliferation, promote apoptosis and increase the lactate production. Then, we profiled mRNA expression by RNA sequencing on Control (before HS), HS0.5 (0h after HS) and HS0.5-R36 (36h recovery after HS) groups of iSCs. We identified 126 (92 up- and 64 down-regulated), 3372 (2076 up- and 1296 down-regulated) and 3096 (1772 up- and 1324 down-regulated) differentially expressed (DE) mRNAs respectively in HS0 vs. Control, HS0-R36 vs. HS0 and HS0-R36 vs. Control comparisons. Gene ontology (GO ) enrichment found multiple significantly enriched biological pathways involved in different comparisons, including cellular response to heat, heat shock protein binding, regulation of cellular response to stress, RNA polyadenylation, sterol biosynthetic process, positive regulation of stress-activated MAPK cascade, chaperone-mediated protein folding, ATPase activity, cell cycle process and DNA replication etc. KEGG analysis showed the changed pathways, including cell cycle, MAPK, P53, PI3K-AKT, GnRH, HIF1, Wnt, cAMP signal pathways and Glycolysis/Gluconeogenesis etc. RT-qPCR validation of 9 DEGs (DNAJB1, TRAF6, INSIG1, GADD45G, HDAC6, FKBP4, SERPINE1, PFKP and GALM) showed the expression change trend of most DEGs (except TRAF6) consistent with the RNA-seq. Moreover, 6 of HSPs (HSPA6, HSPB1, HSPD1, HSP90AA1, HSP90AB1 and HSPH1) were validated by RT-qPCR and 5 of 6 (except HSP90AB1) showed the similar expression trend to RNA-seq results. Further validation of HSP90AA1 on protein level via immunostaining and westernbloting showed similar expression trend to RT-qPCR and RNA-seq. Taken together, HS could extensively change the global transcriptome, especially HSPs, to affect proliferation, apoptosis and metabolite production of pig iSCs.

Project description:Sertoli cells, omnipresent, somatic cells within the seminiferous tubules of the mammalian testis are essential to male fertility. Sertoli cells maintain the integrity of the testicular microenvironment, regulate hormone synthesis, and of particular importance, synthesize the active derivative of vitamin A, all trans retinoic acid (atRA), which is required for germ cell differentiation and the commitment of male germ cells to meiosis. Stages VII-IX, when atRA synthesis occurs in the testis, coincides with multiple germ cell development and testicular restructuring events that rely on Sertoli cell gene products to proceed normally. In this study, we have synchronized and captured the mouse testis at four recurrent points of atRA synthesis to observe transcriptomic changes within Sertoli cells as mice age and the Sertoli cells are exposed to increasingly developed germ cell subtypes. This work provides comprehensive, high-resolution characterization of when known, functional Sertoli cell genes are induced across the first wave of spermatogenesis, and outlines in silico predictions of germ cell derived signaling mechanisms targeting Sertoli cells.