Project description:This project was aimed at evaluating the influence of Autoimmune Regulator in gene expression in GC1-spg cells.

Project description:The RNA binding protein Dazl is essential for gametogenesis, but its direct in vivo functions, RNA targets, and the molecular basis for germ cell loss in DAZL null mice are unknown. Here, we mapped transcriptome-wide Dazl-RNA interactions in vivo, revealing Dazl binding to thousands of mRNAs via polyA-proximal 3’UTR interactions. In parallel, fluorescence activated cell sorting and RNA-Seq identified mRNAs sensitive to Dazl deletion in male germ cells. Despite binding a broad set of mRNAs, integrative analyses indicate that Dazl post-transcriptionally controls only a subset of its mRNA targets, namely those corresponding to a network of genes critical for germ cell proliferation and survival. Additionally, we provide evidence that polyA sequences have key roles in specifying Dazl-RNA interactions across the transcriptome. Altogether, our results reveal a mechanism for Dazl-RNA binding, and illustrate that Dazl functions as a master regulator of a post-transcriptional mRNA program essential for germ cell survival.

Project description:ROS-GC1 belongs to the Ca(2+)-modulated sub-family of membrane guanylate cyclases. It primarily exists and is linked with signaling of the sensory neurons - sight, smell, taste, and pinealocytes. Exceptionally, it is also present and is Ca(2+)-modulated in t he non-neuronal cells, the sperm cells in the testes, where S100B protein serves as its Ca(2+) sensor. The present report demonstrates the identification of an additional Ca(2+) sensor of ROS-GC1 in the testes, neurocalcin ?. Through mouse molecular genetic models, it compares and quantifies the relative input of the S100B and neurocalcin ? in regulating the Ca(2+) signaling of ROS-GC1 transduction machinery, and via immunochemistry it demonstrates the co-presence of neurocalcin ? and ROS-GC1 in the spermatogenic cells of the testes. The suggestion is that in more ways than one the Ca(2+)-modulated ROS-GC1 transduction system is linked with the testicular function. This non-neuronal transduction system may represent an illustration of the ROS-GC1 expanding role in the trans-signaling of the neural and non-neural systems.

Project description:This study was designed to evaluate the proteome profiles of GC1-spg cells transfected with pEGFPN1-dynlt1 (experiment) and empty vector (control). The cells were harvested 48 hrs after transfection and the proteins were profiled.

Project description:Mrhl is a non coding RNA identified from mouse chromosome 8. It is a 2.4kb poly adenylated, nuclear restricted RNA expressed in multiple tissues. The 2.4 kb RNA also undergoes a nuclear processing event mediated through Drosha that generates an 80nt intermediate RNA. This study was aimed at understanding the functiion of mrhl by silencing the mrhl RNA in the mouse spermatogonial cells using a pool of siRNAs targeted against the mrhl and analyse the global gene expression change using Affymetrix mouse expression array. The mRNAs that showed significant change in expression in mrhl siRNA treated cells against control were studied further for their biological significance with respect to mrhl silencing.

Project description:Mrhl is a non coding RNA identified from mouse chromosome 8. It is a 2.4kb poly adenylated, nuclear restricted RNA expressed in multiple tissues. The 2.4 kb RNA also undergoes a nuclear processing event mediated through Drosha that generates an 80nt intermediate RNA. This study was aimed at understanding the functiion of mrhl by silencing the mrhl RNA in the mouse spermatogonial cells using a pool of siRNAs targeted against the mrhl and analyse the global gene expression change using Affymetrix mouse expression array. The mRNAs that showed significant change in expression in mrhl siRNA treated cells against control were studied further for their biological significance with respect to mrhl silencing. The mouse spermatogonial cells that were either mock silenced using scrambled siRNA or silenced using siRNAs against mrhl were harvested at 44hrs post transfection. The silencing efficiency was checked by realtime quantitative PCR and was found be almost 80% in all three independent experiments.The total RNA was extracted using Trizol and was taken further for microarray expriment. All the subsequent steps were according to the Affymetrix protocol. Gene expression was profiled for control and mrhl silenced cells.

Project description:Spermatogonial development is a key process during spermatogenesis to prepare germ cells to enter meiosis. While the initial point of spermatogonial differentiation is well-characterized, the development of spermatogonia from the onset of differentiation to the point of meiotic entry has not been well defined. Further, STRA8 is highly induced at the onset of spermatogonial development but its function in spermatogonia has not been defined. To better understand how STRA8 impacts spermatogonia, we performed RNA-sequencing in both wild-type and STRA8 knockout mice at multiple timepoints during retinoic acid (RA)-stimulated spermatogonial development. As expected, in spermatogonia from wild-type mice we found that steady-state levels of many transcripts that define undifferentiated progenitor cells were decreased while transcripts that define the differentiating spermatogonia were increased as a result of the actions of RA. However, the spermatogonia from STRA8 knockout mice displayed a muted RA response such that there were more transcripts typical of undifferentiated cells and fewer transcripts typical of differentiating cells following RA action. While spermatogonia from STRA8 knockout mice can ultimately form spermatocytes that fail to complete meiosis, it appears that the defect likely begins as a result of altered messenger RNA levels during spermatogonial differentiation.

Project description:The RNA binding protein Dazl is essential for gametogenesis, but its direct in vivo functions, RNA targets, and the molecular basis for germ cell loss in DAZL null mice are unknown. Here, we mapped transcriptome-wide Dazl-RNA interactions in vivo, revealing Dazl binding to thousands of mRNAs via polyA-proximal 3?UTR interactions. In parallel, fluorescence activated cell sorting and RNA-Seq identified mRNAs sensitive to Dazl deletion in male germ cells. Despite binding a broad set of mRNAs, integrative analyses indicate that Dazl post-transcriptionally controls only a subset of its mRNA targets, namely those corresponding to a network of genes critical for germ cell proliferation and survival. Additionally, we provide evidence that polyA sequences have key roles in specifying Dazl-RNA interactions across the transcriptome. Altogether, our results reveal a mechanism for Dazl-RNA binding, and illustrate that Dazl functions as a master regulator of a post-transcriptional mRNA program essential for germ cell survival.

Project description:Hormone suppression given before or after cytotoxic treatment stimulates the recovery of spermatogenesis from endogenous and transplanted spermatogonial stem cells (SSC) and restores fertility in rodents. To test whether the combination of hormone suppression and transplantation could enhance the recovery of spermatogenesis in primates, we irradiated (7 Gy) the testes of 12 adult cynomolgus monkeys and treated six of them with gonadotropin-releasing hormone antagonist (GnRH-ant) for 8 weeks. At the end of this treatment, we transfected cryopreserved testicular cells with green fluorescent protein-lentivirus and autologously transplanted them back into one of the testes. The only significant effect of GnRH-ant treatment on endogenous spermatogenesis was an increase in the percentage of tubules containing differentiated germ cells (tubule differentiation index; TDI) in the sham-transplanted testes of GnRH-ant-treated monkeys compared with radiation-only monkeys at 24 weeks after irradiation. Although transplantation alone after irradiation did not significantly increase the TDI, detection of lentiviral DNA in the spermatozoa of one radiation-only monkey indicated that some transplanted cells colonized the testis. However, the combination of transplantation and GnRH-ant clearly stimulated spermatogenic recovery as evidenced by several observations in the GnRH-ant-treated monkeys receiving transplantation: (i) significant increases (~20%) in the volume and weight of the testes compared with the contralateral sham-transplanted testes and/or to the transplanted testes of the radiation-only monkeys; (ii) increases in TDI compared to the transplanted testes of radiation-only monkeys at 24 weeks (9.6% vs. 2.9%; p = 0.05) and 44 weeks (16.5% vs. 6.1%, p = 0.055); (iii) detection of lentiviral sequences in the spermatozoa or testes of five of the GnRH-ant-treated monkeys and (iv) significantly higher sperm counts than in the radiation-only monkeys. Thus hormone suppression enhances spermatogenic recovery from transplanted SSC in primates and may be a useful tool in conjunction with spermatogonial transplantation to restore fertility in men after cancer treatment.

Project description:Research about potential use of stem cells for the development of germ line cells in vitro had been challenged. In the present study, we reported a novel protocol consisting of cocktail growth factor addition for germ cell differentiation followed by transfection. The cells were purificated based on the expression on the cell surface of a protein. This protein is not present in normal cells of mice and does not interfere with cellular function. This cell surface marker is efficiently recognized by monoclonal antibodies. Bone marrow mesenchymal stem cells derived primordial germ like cells were differentiated to spermatogonial stem like cells by inducer cocktail including Retinoic acid (RA)+Leukemia inhibitory factor (LIF)+Basic fibroblast growth factor (bFgF). Co-culture system was used as a feeder under differentiated cells. A 400 bp fragment of spermatogonia-specific Stra-8 locus was enough to direct gene expression to the germ line stem cells. Stra8-CD4HAglo construct was used for purification of premeiotic differentiated cells. Expression of pluripotency (Pou5F1, Nanog, c-Myc) and specific germ cell (Mvh, Piwil2, Stra-8) genes in each stage were analyzed. The purified cells expressed the known molecular markers of PGC-like cells such as Mvh, Piwil2 & Stra-8. The outcomes of qPCR showed that ratio pluripotency of genes expression in selective group significantly decreased (p≤0.05) in the initial differentiation process. This results showed that ratio of Pou5F1, Nanog, c-Myc, Mvh, Piwil2 & Stra-8 expression to purified PGC-like cells were 0.41, 0.204, 1.1, 0.003, 0.184 and 2.276, respectively. Treatment of cells with RA affected up regulation of Stra-8. Although, c-Myc gene as an oncogenic gene had significantly increased (p≤0.05) at the end of differentiation stage compared to initial phase of study, this level of expression could not be tumorgenic. qPCR results of the differentiation stage showed higher expression of Stra-8 in co-culture+ cocktail and co-culture groups, Also, there was a significant difference (p≤0.05) in the expression of Pou5F1 & Nanog. Our results suggest that selection and purification of PGC-like cells based on Stra-8 as a pre-meiotic marker is a useful tool for getting in vitro spermatogonial stem cell. This method facilitates identification of safely differentiated germ cells in vitro.