Gibbes R. Johnson scite author profile

One of the most important processes in fertilization is the fusion of egg and sperm; however, the molecular mechanisms involved in this process are not well understood. So far, using genetic approaches, only two proteins have been demonstrated to be necessary for this process: Izumo in sperm and CD9 in the egg. Here we demonstrate that sperm produced by Tssk6 (Sstk)-null mice present defects that prevent the successful fertilization of eggs in vitro and the fusion to zona-pellucida-free eggs. Tssk6 is a member of the testis-specific serine kinase family of proteins and is expressed postmeiotically in male germ cells. In order for fusion to occur, during the process known as acrosome reaction Izumo needs to relocate from the anterior head to other regions, including the postacrosomal compartment. Tssk6-null sperm fails to relocate Izumo during the acrosome reaction. Agents that interfere with actin dynamics blocked the acrosome-reaction-associated translocation of Izumo that is required for fusion in wild-type sperm. Additionally, actin polymerization was compromised in Tssk6-null sperm. Taken together, our results indicate that Tssk6 is involved in sperm-egg fusion through the regulation of actin polymerization and changes in Izumo localization.

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Identification and Characterization of SSTK, a Serine/Threonine Protein Kinase Essential for Male Fertility

Spiridonov

Wong

Zerfas

et al. 2005

Molecular and Cellular Biology

122

129

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Here we describe and characterize a small serine/threonine kinase (SSTK) which consists solely of the Nand C-lobes of a protein kinase catalytic domain. SSTK protein is highly conserved among mammals, and no close homologues were found in the genomes of nonmammalian organisms. SSTK specifically interacts with HSP90-1␤, HSC70, and HSP70 proteins, and this association appears to be required for SSTK kinase activity. The SSTK transcript was most abundant in human and mouse testes but was also detected in all human tissues tested. In the mouse testis, SSTK protein was localized to the heads of elongating spermatids. Targeted deletion of the SSTK gene in mice resulted in male sterility due to profound impairment in motility and morphology of spermatozoa. A defect in DNA condensation in SSTK null mutants occurred in elongating spermatids at a step in spermiogenesis coincident with chromatin displacement of histones by transition proteins. SSTK phosphorylated histones H1, H2A, H2AX, and H3 but not H2B or H4 or transition protein 1 in vitro. These results demonstrate that SSTK is required for proper postmeiotic chromatin remodeling and male fertility. Abnormal sperm chromatin condensation is common in sterile men, and our results may provide insight into the molecular mechanisms underlying certain human infertility disorders.Phosphorylation of serine, threonine, and tyrosine residues in substrate targets by protein kinases is a common posttranslational protein modification in eukaryotes and provides a fundamental mechanism for the control of cellular events. Cell division and growth, adhesion and migration, metabolic activity and responses upon environmental stimuli, cell to cell communication, signal transduction, and apoptosis are among the many processes regulated by protein kinases (15,16). At the molecular level, phosphorylation and dephosphorylation of enzymes allow fast and sensitive regulation of enzyme activity and are also a major mechanism of transmembrane signaling and signal amplification in the branching network of intracellular protein kinase cascades that ultimately control gene expression by phosphorylation of transcription factors. Phosphorylation of protein substrates can provide binding sites for protein domains which recognize specific phosphorylated amino acid sequences, thereby mediating protein-protein interactions. Protein kinases constitute a large superfamily of related enzymes which contain 12 conserved subdomains folded into N-and C-lobes of the catalytic domain. The superfamily is subdivided into protein serine/threonine kinases, protein tyrosine kinases, and atypical kinases on the basis of substrate specificity (14,16).Phosphorylation events play a central role in chromatin remodeling during mitosis in somatic cells and during meiosis in mammalian spermiogenesis (2, 10). Much less is known about the mechanisms of postmeiotic chromatin condensation. The structure of chromatin changes dramatically during postmeiotic spermiogenesis, as germ cells develop from round spermatids to fully differ...

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The tyrosine phosphatase SHP-2 is required for mediating phosphatidylinositol 3-kinase/Akt activation by growth factors

et al. 2001

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SHP-2 is a ubiquitously expressed non-transmembrane tyrosine phosphatase with two SH2 domains. Multiple reverse-genetic studies have indicated that SHP-2 is a required component for organ and animal development. SHP-2 wild-type and homozygous mutant mouse ®bro-blast cells in which the N-terminal SH2 domain was target-deleted were used to examine the function of SHP-2 in regulating Phosphatidylinositol 3-Kinase (PI3K) activation by growth factors. In addition, SHP-2 and various mutants were introduced into human glioblastoma cells as well as SHP-2 7/7 mouse ®bro-blasts. We found that EGF stimulation and EGFR oncoprotein (DEGFR) expression independently induced the co-immunoprecipitation of the p85 subunit of PI3K with SHP-2. Targeted deletion of the N-terminal SH2 domain of SHP-2 severely impaired PDGF-and IGFinduced Akt phosphorylation. Ectopic expression of SHP-2 in U87MG gliobastoma cells elevated EGFinduced Akt phosphorylation, and the e ect was abolished by mutation of its N-terminal SH2 domain. Likewise, the reconstitution of SHP-2 expression in the SHP-2 7/7 cells enhanced Akt phosphorylation induced by EGF while rescuing that induced by PDGF and IGF. Further lipid kinase activity assays con®rmed that SHP-2 modulation of Akt phosphorylation correlated with its regulation of PI3K activation. Based on these results, we conclude that SHP-2 is required for mediating PI3K/Akt activation, and the N-terminal SH2 domain is critically important for a`positive' role of SHP-2 in regulating PI3K pathway activation. Oncogene (2001) 20, 6018 ± 6025.

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Neutralizing antibodies to therapeutic enzymes: considerations for testing, prevention and treatment

et al. 2008

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Lysosomal storage diseases are characterized by deficiencies in lysosomal enzymes, allowing accumulation of target substrate in cells and eventually causing cell death. Enzyme replacement therapy is the principal treatment for most of these diseases. However, these therapies are often complicated by immune responses to the enzymes, blocking efficacy and causing severe adverse outcomes by neutralizing product activity. It is thus crucial to understand the relationships between genetic mutations, endogenous residual enzyme proteins (cross-reactive immunologic material), development of neutralizing antibodies and their impact on clinical outcomes of lysosomal storage diseases. For patients in whom neutralizing antibodies may cause severe adverse clinical outcomes, it is paramount to develop tolerance inducing protocols to preclude, where predictable, or treat such life-threatening responses.

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Expression and localization of five members of the testis-specific serine kinase (Tssk) family in mouse and human sperm and testis

Sosnik

Brassard

et al. 2010

Molecular Human Reproduction

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Members of the testis-specific serine/threonine kinases (Tssk) family may have a role in sperm differentiation in the testis and/or fertilization. To gain insight into the functional relevance of these kinases, their expression was examined both at the mRNA and protein levels. Quantitative PCR analysis confirmed that all five Tssk mRNAs are almost exclusively expressed postmeiotically in the testis. Recombinant mouse and human Tssks were cloned and used for validation of an array of commercial and custom-made antibodies against Tssks. Immunolocalization in mouse testis, and in mouse and human sperm, showed that Tssk1, Tssk2, Tssk4 and Tssk6, but not Tssk3, were present in mouse sperm and in germ cells from mouse testis. TSSK1, TSSK2 and TSSK6 were also detected in human sperm, while TSSK3 was absent. In both mouse and human sperm, Tssk1 was partially soluble, while Tssk2, Tssk4 and Tssk6 were insoluble in non-ionic detergents. In vitro recombinant TSSK2 activity assays showed maximum enzymatic activity at 5 mM Mg(2+) and a Km for ATP of ∼10 µM. These, observations together with findings that the Tssk1/Tssk2 double knock-out as well as the Tssk6 null mice are sterile without presenting other detectable defects, suggest that these kinases could be used as targets for male contraception.

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Gibbes R. Johnson

Tssk6 is required for Izumo relocalization and gamete fusion in the mouse

Identification and Characterization of SSTK, a Serine/Threonine Protein Kinase Essential for Male Fertility

The tyrosine phosphatase SHP-2 is required for mediating phosphatidylinositol 3-kinase/Akt activation by growth factors

Neutralizing antibodies to therapeutic enzymes: considerations for testing, prevention and treatment

Expression and localization of five members of the testis-specific serine kinase (Tssk) family in mouse and human sperm and testis

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