Project description:Transcriptional profiling of Sertoli cells of Monkey origin comparing infant Sertoli cells with pubertal Sertoli cells, isolated from Monkeys in which puberty was induced by extrinsic GnRH administration. Both Infant and pubertal cells were treated with FSH and Testosterone in vitro.
Project description:Transcriptional profiling of Sertoli cells of Monkey origin comparing infant Sertoli cells with pubertal Sertoli cells, isolated from Monkeys in which puberty was induced by extrinsic GnRH administration. Both Infant and pubertal cells were treated with FSH and Testosterone in vitro.
Project description:The Sertoli cells (Sc) of 5 days (infant) and 12 days (pubertal) old rat were isolated and cultured in triplicates. Nuclear and cytoplasmic fractionation was done for both the cases. All the four protein fractions (nuclear and cytoplasm of infant and pubertal Sc) were anaysed using Lc-MS/MS.
Project description:The Sertoli cells (Sc) of 5 days (infant) and 12 days (pubertal) old rat were isolated and cultured in triplicates. Nuclear and cytoplasmic fractionation was done for both the cases. All the four protein fractions (nuclear and cytoplasm of infant and pubertal Sc) were anaysed using Lc-MS/MS. SWATH analysis was done for all the four samples in biological and technical replicates. The objective was to quantity the proteins of all the samples with respect to each other at whole proteome level.
Project description:The human testis undergoes dramatic developmental and structural changes during puberty, including proliferation and maturation of niche/somatic cells, and the onset of spermatogenesis. Here, we profiled and analyzed single-cell transcriptomes of ~10,000 testicular cells from four boys spanning puberty, and compared to infants and adults. During puberty, undifferentiated spermatogonia first expand and then differentiate, prior to gametogenesis. Notably, we identify a common pre-pubertal progenitor for Leydig and myoid cells, and reveal candidate factors/pathways for pubertal differentiation. Furthermore, pre-pubertal Sertoli cells form two states that differ in mitochondrial/metabolic transcription, which converge to a single mature population during puberty. Roles for testosterone in Sertoli cell maturation, antimicrobial peptide secretion and spermatogonial differentiation are revealed through analyses of testosterone-suppressed transgender female testis and via in vitro seminiferous tubule culturing. Overall, our transcriptional atlas of the developing human testis provides major insights into developmental changes and key factors/pathways that accompany male puberty.
Project description:Spermatogenesis requires the presence of functional somatic Sertoli cells in the seminiferous tubules of the testis. Sertoli cells provide support and factors necessary for the successful progression of germ cells into spermatozoa. Sertoli cells are regulated to a large degree by the glycoprotein hormone FSH, which is required for the testis to acquire full size and spermatogenic capacity. Signaling events initiated by the binding of FSH to its receptor lead to an alteration of Sertoli cell gene expression. To characterize the changes in gene expression in FSH-treated Sertoli cells, we used the mRNA from these cells to screen Affymetrix U34A rat GeneChip oligonucleotide microarrays. Sertoli cells from 20-d-old rats were cultured in the presence of 25 ng/ml ovine FSH. At 0, 2, 4, 8, and 24 h after the addition of FSH, total RNA was purified and used to prepare biotinylated target, which was hybridized to the U34A rat microarray containing approximately 9000 rat genes. Analysis identified 100-300 transcripts at each time point that were up-regulated or down-regulated by 2-fold or greater. Genes previously reported to be FSH or cAMP regulated in rat Sertoli cells were identified, in addition to numerous genes not reported to be expressed or FSH regulated in Sertoli cells. The expression patterns of five of these genes, encoding nerve growth factor inducible gene B, PRL-1, PC3 nerve growth factor-inducible antiproliferative putative secreted protein, diacylglycerol acyltransferase, and an expressed sequence tag, in FSH- and N,O'-dibutyryl cAMP-treated rat Sertoli cells were confirmed and characterized by Northern blot analysis. Thus, we have begun to define the transcriptome induced and repressed by FSH in rat Sertoli cells, and we have generated datasets of genes available for further analysis in regard to spermatogenesis and Sertoli cell signaling.
