Project description:Expression of GDNF-regulated genes was studied in cultures of self-renewing rat spermatogonial stem cells established from 8-10 day old rat pups maintained in a defined serum free medium. GDNF is the primary regulator of spermatogonial stem cell self renewal in the rat. GDNF regulated genes were identified using microarray profiling rat spermatogonial stem cells in the presence and absence of GDNF.
Project description:Expression of GDNF-regulated genes was studied in cultures of self-renewing rat spermatogonial stem cells established from 8-10 day old rat pups maintained in a defined serum free medium. GDNF is the primary regulator of spermatogonial stem cell self renewal in the rat. GDNF regulated genes were identified using microarray profiling rat spermatogonial stem cells in the presence and absence of GDNF. Experiment Overall Design: Highly enriched population of rat spermatogonial stem cells were maintained in defined serum free media which allowed for their continued self-renewal in the presence of GDNF. GDNF was withdrawn from cultures for 18 hours followed by replacement for 2, 4, and 8 hours. Gene expression was studied using microarray profiling prior to GDNF withdrawal, after GDNF withdrawal, and after 2, 4, and 8 hours of GDNF replacement. 3 replicate samples from each timepoint were analyzed.
Project description:GDNF-regulated gene expression was studied in cultures of actively self-renewing spermatogonial stem cells established from 6 day old male mice. GDNF is the essential growth factor regulating mouse spermatogonial stem cell self-renewal. Using a serum-free chemically defined culture system that supports mouse spermatogonial stem cell self-renewal for extended periods of time, GDNF-regulated genes were identified using microarray profiling. Keywords: GDNF withdrawal and time-course replacement
Project description:GDNF-regulated gene expression was studied in cultures of actively self-renewing spermatogonial stem cells established from 6 day old male mice. GDNF is the essential growth factor regulating mouse spermatogonial stem cell self-renewal. Using a serum-free chemically defined culture system that supports mouse spermatogonial stem cell self-renewal for extended periods of time, GDNF-regulated genes were identified using microarray profiling. Experiment Overall Design: Established cultures of highly enriched self-renewing spermatogonial stem cells were subjeted to withrawal of GDNF and GFRalpha1 for 18-hr followed by replacement of the growth factors for 2, 4, and 8-hr. Gene expression was studied using microarray profiling prior to withdrawal, after withdrawal and at each time-point of GDNF/GFRalpha1 replacement.
Project description:Long non-coding RNAs (lncRNAs) are transcripts longer than 200 nucleotides and have little or no potential for translation. More and more studies have domenstrated mammalian lncRNAs are intrinsically functional and growing data indicate lncRNAs are determinants of stem cell fate by regulating potency, self-renewal and differentiation. There is no report of lncRNAs in spermatogonial stem cells?SSCs?, and importance of lncRNAs in germline linage stem cell has not been investigated yet. here, we presents a large –scale profiling of all lncRNAs in SSCs as well as those lncRNAs regulated by SSC dependent growth factor GDNF through high throughput sequencing. Spermatogonial stem cells were first suffered from an 18 hr GDNF withdrawal followed by refreshment with GDNF for 8 hrs and RNA samples were collected from normal culture wells (N), GDNF 18hr withdrawal wells (0hr), and GDNF 8 hr refreshed cells (8hr). After all GDNF treatment, cultured germ cell clumps were gently blowed with a 200?l pipette, and followed by Total RNA isolation and sequencing by Illumina HiSeqTM 2000
Project description:In the normal adult testis GDNF specifically targets spermatogonial stem cells and early progenitor spermatogonia. Inhibition of GDNF signaling for 9 days alters only 171 of the 15,000 transcripts expressed in the mouse testis. Many of these transcripts are known to be expressed by the spermatogonial stem cells. One transcript that is affected is Kif26A, a known suppressor of GDNF signaling.
Project description:In order to establish a rat embryonic stem cell transcriptome, mRNA from rESC cell line DAc8, the first male germline competent rat ESC line to be described and the first to be used to generate a knockout rat model was characterized using RNA sequencing (RNA-seq) analysis.
Project description:Analysis of hormone effects on irradiated LBNF1 rat testes, which contain only somatic cells except for a few type A spermatgogonia. Rats were treated for 2 weeks with either sham treatment (group X), hormonal ablation (GnRH antagonist and the androgen receptor antagonist flutamide, group XAF), testosterone supplementation (GnRH antagonist and testosterone, group XAT), and FSH supplementation ((GnRH antagonist, androgen receptor antagonist, and FSH, group XAFF). Results provide insight into identifying genes in the somatic testis cells regulated by testosterone, LH, or FSH.
Project description:Analysis of LBNF1 rat testes from controls, containing both somatic and all germ cell types and from irradiated rats in which all cells germ cells except type A spermatgogonia are eliminated. Results provide insight into distinguishing germ and somatic cell genes and identification of somatic cell genes that are upregulated after irradiation.
