Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P43146 (tumour suppressor)
 5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The testis is a tissue of high proliferative activity. In this organ, sperm cells (spermatozoa) are produced from stem cells (spermatogonia) by two consecutive steps of cell multiplication and spermatid cytodifferentiation. Mitotic proliferation of spermatogonia generates primary spermatocytes which enter meiosis, leading to the generation of spermatids. The number of cells entering meiosis is held constant, since outnumbering spermatogonia or premeiotic spermatocytes are eliminated by apoptosis (programmed cell death). During apoptosis, the nuclear chromatin is internucleosomally degraded by the activity of a Ca2+, Mg2+-dependent endonuclease. Recent data indicate that deoxyribonuclease I (DNase I) is identical to the apoptotic endonuclease responsible for the internucleosomal DNA degradation. Previous results using primers specific for rat parotid DNase I in a polymerase chain reaction have demonstrated the presence of DNase I-specific gene transcripts in rat testis. We have therefore analysed the presence of DNase I in rat testis by immunohistochemistry and biochemical procedures. The presence of DNase I-like endonucleolytic activity was verified enzymatically. DNase I immunoreactivity was detected in the nuclei of a few spermatogonia and premeiotic spermatocytes, but within the acrosomic vesicle of all spermatids and spermatozoa. In situ hybridisation revealed the accumulation of DNase I-specific gene transcripts in a small number of spermatogonia and/or premeiotic spermatocytes, but in a large number of spermatids. The occurrence of apoptotic DNA fragmentation was investigated by in situ end-labelling (ISEL) of free 3'-OH DNA ends and gave positive nuclear staining of only very few spermatogonia. No positive ISEL staining was observed in maturing spermatids and/or spermatozoa. These data support the notion that, within the seminiferous epithelium, the number of primary spermatocytes entering meiosis is controlled by apoptosis. In addition, they demonstrated that mature sperm cells are equipped with an endonuclease that might be used for DNA degradation during their elimination at later stages of their life span. The expression and distribution of the tumour suppressor gene product, p53, was analysed by immunostaining. Strong p53 immunoreactivity was observed in the nuclei of a number of spermatogonia, of some premeiotic spermatocytes and probably in all spermatids. Thus, p53 expression appeared to parallel that of DNase I. In contrast, p53 immunoreactivity was absent in mature spermatozoa present in the lumen of the testicular tubules or the ductus epididymidis. It is therefore proposed that at later stages of spermatid maturation most probably before their release as mature spermatozoa-the p53 gene product was either degraded or retained in residual bodies, since p53 immunoreactivity was found to be concentrated within these organelles.
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PMID:Distribution of deoxyribonuclease I (DNase I) and p53 in rat testis and their correlation with apoptosis. 891 66

SSeCKS is a major protein kinase C substrate which has tumour suppressor activity in models of src- and ras-induced oncogenic transformation. The mitogenic regulatory activity of SSeCKS is likely manifested by its ability to bind key signalling proteins such as protein kinases C and A and calmodulin, and to control actin-based cytoskeletal architecture. Rat SSeCKS shares extensive homology with human Gravin, an autoantigen in myasthenia gravis that encodes kinase scaffolding functions and whose expression pattern in fibroblasts and nerves suggests a role in cell motility. Here, we analyse the expression of SSeCKS and Gravin in rodent and human fibroblast and epithelial cell lines using antibodies specific or crossreactive for SSeCKS or Gravin. SSeCKS expression was then analysed in developing mouse embryos and in adult tissues. In the foetal mouse, early SSeCKS protein expression (E10-11) is focused in the loose mesenchyme, luminal surface of the neural tube, notochord, early heart and pericardium, urogenital ridge, and dorsal and ventral sections of limb buds. In later stages (E12-14), SSeCKS is widely expressed in mesenchymal cells but is absent in the spinal ganglia. By E15, SSeCKS expression is ubiquitous, although the staining pattern varies from being striated within smooth muscle sarcomeres to filamentous in mesenchymal and select epithelial cells. In the adult mouse, SSeCKS staining is relatively ubiquitous, with highest expression in the gonads, smooth and cardiac muscle, lung, brain and heart. High expression is also detected in fibroblasts and nerve fibres as well as in more specialized cells such as glomerular mesangial cells and testicular Sertoli cells. SSeCKS expression in the rat testes correlates with the induction of puberty, and in mature mouse spermatozoa, SSeCKS is found in peripheral acrosome membranes and in a helix-like winding pattern within the midsection. Periodic enrichments of SSeCKS are found in sperm midsections and in developing axons, suggesting a role in architectural infrastructure. As with Gravin, high SSeCKS expression is absent in most epithelial cells; however, in contrast to Gravin, SSeCKS is expressed in Purkinje cells, cardiac muscle, macrophages and hepatic stellate cells, indicating overlapping yet distinct patterns of tissue expression in the SSeCKS/Gravin family. The data suggest roles for SSeCKS in the control of cytoskeletal and tissue architecture, formation of migratory processes and cell migration during embryogenesis.
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PMID:A role for SSeCKS, a major protein kinase C substrate with tumour suppressor activity, in cytoskeletal architecture, formation of migratory processes, and cell migration during embryogenesis. 1080 81

PATZ1 is a recently discovered zinc finger protein that, due to the presence of the POZ domain, acts as a transcriptional repressor affecting the basal activity of different promoters. To gain insights into its biological role, we generated mice lacking the PATZ1 gene. Male PATZ1(-/-) mice were unfertile, suggesting a crucial role of this gene in spermatogenesis. Consistently, most of adult testes from these mice showed only few spermatocytes, associated with increased apoptosis, and complete absence of spermatids and spermatozoa, with the subsequent loss of tubular structure. The analysis of PATZ1 expression, by northern blot, western blot and immunohistochemistry, revealed its presence in Sertoli cells and, among the germ cells, exclusively in the spermatogonia. Since PATZ1 has been indicated as a potential tumour suppressor gene, we also looked at its expression in tumours deriving from testicular germ cells (TGCTs). Although expression of PATZ1 protein was increased in these tumours, it was delocalized in the cytoplasm, suggesting an impaired function. These results indicate that PATZ1 plays a crucial role in normal male gametogenesis and that its up-regulation and mis-localization could be associated to the development of TGCTs.
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PMID:PATZ1 gene has a critical role in the spermatogenesis and testicular tumours. 1824 Oct 78

LKB1 was discovered as a tumour suppressor mutated in Peutz-Jeghers syndrome, and is a gene involved in cell polarity as well as an upstream protein kinase for members of the AMP-activated protein kinase family. We report that mammals express two splice variants caused by alternate usage of 3'-exons. LKB1(L) is the previously described form, while LKB1(S) is a novel form in which the last 63 residues are replaced by a unique 39-residue sequence lacking known phosphorylation (Ser(431)) and farnesylation (Cys(433)) sites. Both isoforms are widely expressed in rodent and human tissues, although LKB1(S) is particularly abundant in haploid spermatids in the testis. Male mice in which expression of Lkb1(S) is knocked out are sterile, with the number of mature spermatozoa in the epididymis being dramatically reduced, and those spermatozoa that are produced have heads with an abnormal morphology and are non-motile. These results identify a previously undetected variant of LKB1, and suggest that it has a crucial role in spermiogenesis and male fertility.
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PMID:A novel short splice variant of the tumour suppressor LKB1 is required for spermiogenesis. 1893 46

The LKB1 serine/threonine kinase is a tumour suppressor responsible for the inherited familial cancer disorder Peutz-Jeghers syndrome and is inactivated in a large percentage of human lung cancers. LKB1 acts a master kinase, directly phosphorylating and activating a family of 14 AMPK (AMP-activated protein kinase)-related kinases which control cell metabolism, cell growth and cell polarity. In this issue of the Biochemical Journal, Hardie and colleagues discover an alternative splice form of LKB1 that alters the C-terminus of the protein containing a few known sites of post-translational regulation. Although widely expressed, the short isoform (LKB1(s)) is the sole splice isoform expressed in testes, and its expression peaks at the time of spermatid maturation. Male mice lacking the LKB1(s) isoform have dramatic defects in spermatozoa, resulting in sterility.
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PMID:LKB1: cancer, polarity, metabolism, and now fertility. 1877 45

Glycodelin is an endocrine-regulated glycoprotein that has significant effects on immune cells, apoptosis, reproduction, cell adhesion, differentiation and cancer. In reproduction, glycodelin contributes to capacitation and immunoprotection of spermatozoa, and it modulates sperm-oocyte binding, acrosome reaction and implantation. In endocrine-related cancer, the differentiation inducing effects of glycodelin are accompanied by growth restriction of malignant cells, decreased expression of oncogenes, increased expression of tumour suppressor genes and morphological reversion of the malignant phenotype. This review features these properties and clinical connections, highlighting the role of glycosylation in biological actions.
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PMID:Glycodelin in reproductive endocrinology and hormone-related cancer. 1903 86

Expression profiling and genomic sequencing methods enable the accumulation of vast quantities of data that relate to the expression of genes during the maturation of male germ cells from primordial germ cells to spermatozoa and potential mutations that underlie male infertility. However, the determination of gene function in specific aspects of spermatogenesis or linking abnormal gene function with infertility remain rate limiting, as even in an era of CRISPR analysis of gene function in mammalian models, this still requires considerable resources and time. Comparative developmental biology studies have shown the remarkable conservation of spermatogenic developmental processes from insects to vertebrates and provide an avenue of rapid assessment of gene function to inform the potential roles of specific genes in rodent and human spermatogenesis. The vinegar fly, Drosophila melanogaster, has been used as a model organism for developmental genetic studies for over one hundred years, and research with this organism produced seminal findings such as the association of genes with chromosomes, the chromosomal basis for sexual identity, the mutagenic properties of X-irradiation and the isolation of the first tumour suppressor mutations. Drosophila researchers have developed an impressive array of sophisticated genetic techniques for analysis of gene function and genetic interactions. This review focuses on how these techniques can be utilised to study spermatogenesis in an organism with a generation time of 9 days and the capacity to introduce multiple mutant alleles into an individual organism in a relatively short time frame.
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PMID:A Drosophila toolkit for defining gene function in spermatogenesis. 2807 24