The adapter protein SLP-76 is required for T cell development and TCR signal transduction. SLP-76... more The adapter protein SLP-76 is required for T cell development and TCR signal transduction. SLP-76 is also expressed in NK cells, yet splenic populations of NK cells develop normally in SLP-76-deficient mice. We examined the effects of SLP-76 deficiency upon cellular activation through studies of NK function in SLP-76(-/-) mice. This study presents evidence that NK populations in both spleen and liver of SLP-76(-/-) mice remain intact. Natural cytotoxic responses of SLP-76(-/-) splenocytes proceed in a manner comparable to those of wild-type control splenocytes. Similar to controls, SLP-76(-/-) splenocytes exhibit enhanced survival and augmented cytotoxic capacity after in vitro culture with IL-2. IL-2-stimulated SLP-76(-/-) splenocytes also retain normal antibody-dependent cellular cytotoxicity and the ability to secrete IFN-gamma in response to IL-12 stimulation. These results indicate that, unlike events stimulated by TCR engagement, signaling cascades engaged by IL-2 and IL-12 receptors, by Fc gammaRIIIA (which mediates antibody-dependent cellular cytotoxicity), and by natural cytotoxicity-associated receptors on murine NK cells can occur independently of SLP-76.
Adaptor molecules, proteins that possess no intrinsic enzymatic function, but which mediate prote... more Adaptor molecules, proteins that possess no intrinsic enzymatic function, but which mediate protein-protein interactions, have a critical role in integrating signal transduction pathways following engagement of cell-surface receptors. Several newly described adaptor molecules have been shown to serve important functions in the regulation of signaling events initiated by lymphocyte antigen receptors. Understanding how these adaptor proteins function to modulate signaling cascades will provide important insights into the complex biology of lymphocyte activation.
The initiation of biochemical signal transduction following ligation of surface receptors with in... more The initiation of biochemical signal transduction following ligation of surface receptors with intrinsic cytoplasmic tyrosine kinase activity is common for many cell types. T lymphocytes also require activation of tyrosine kinases following T cell receptor (TCR) ligation for maximal stimulation. However, the TCR has no intrinsic tyrosine kinase activity. Instead, the TCR must rely on cytoplasmic tyrosine kinases that localize to the TCR complex and initiate TCR-mediated signaling events. Although much has been learned regarding how these cytosolic tyrosine kinases are activated and recruited to the TCR complex, relatively little is understood about how these initial events are translated into transcriptional activation of genes that regulate cytokine production, cell proliferation, and cell death. Recently, it has become clear that the class of intracellular molecules known collectively as adapter proteins, molecules with modular domains capable of recruiting additional proteins but that exhibit no intrinsic enzymatic activity, serve to couple proximal biochemical events initiated by TCR ligation with more distal signaling pathways.
Glycogen synthase kinase 3beta (GSK3beta) is involved in metabolism, neurodegeneration, and cance... more Glycogen synthase kinase 3beta (GSK3beta) is involved in metabolism, neurodegeneration, and cancer. Inhibition of GSK3beta activity is the primary mechanism that regulates this widely expressed active kinase. Although the protein kinase Akt inhibits GSK3beta by phosphorylation at the N terminus, preventing Akt-mediated phosphorylation does not affect the cell-survival pathway activated through the GSK3beta substrate beta-catenin. Here, we show that p38 mitogen-activated protein kinase (MAPK) also inactivates GSK3beta by direct phosphorylation at its C terminus, and this inactivation can lead to an accumulation of beta-catenin. p38 MAPK-mediated phosphorylation of GSK3beta occurs primarily in the brain and thymocytes. Activation of beta-catenin-mediated signaling through GSK3beta inhibition provides a potential mechanism for p38 MAPK-mediated survival in specific tissues.
The adapter protein SLP-76 is required for T cell development and TCR signal transduction. SLP-76... more The adapter protein SLP-76 is required for T cell development and TCR signal transduction. SLP-76 is also expressed in NK cells, yet splenic populations of NK cells develop normally in SLP-76-deficient mice. We examined the effects of SLP-76 deficiency upon cellular activation through studies of NK function in SLP-76(-/-) mice. This study presents evidence that NK populations in both spleen and liver of SLP-76(-/-) mice remain intact. Natural cytotoxic responses of SLP-76(-/-) splenocytes proceed in a manner comparable to those of wild-type control splenocytes. Similar to controls, SLP-76(-/-) splenocytes exhibit enhanced survival and augmented cytotoxic capacity after in vitro culture with IL-2. IL-2-stimulated SLP-76(-/-) splenocytes also retain normal antibody-dependent cellular cytotoxicity and the ability to secrete IFN-gamma in response to IL-12 stimulation. These results indicate that, unlike events stimulated by TCR engagement, signaling cascades engaged by IL-2 and IL-12 receptors, by Fc gammaRIIIA (which mediates antibody-dependent cellular cytotoxicity), and by natural cytotoxicity-associated receptors on murine NK cells can occur independently of SLP-76.
Adaptor molecules, proteins that possess no intrinsic enzymatic function, but which mediate prote... more Adaptor molecules, proteins that possess no intrinsic enzymatic function, but which mediate protein-protein interactions, have a critical role in integrating signal transduction pathways following engagement of cell-surface receptors. Several newly described adaptor molecules have been shown to serve important functions in the regulation of signaling events initiated by lymphocyte antigen receptors. Understanding how these adaptor proteins function to modulate signaling cascades will provide important insights into the complex biology of lymphocyte activation.
The initiation of biochemical signal transduction following ligation of surface receptors with in... more The initiation of biochemical signal transduction following ligation of surface receptors with intrinsic cytoplasmic tyrosine kinase activity is common for many cell types. T lymphocytes also require activation of tyrosine kinases following T cell receptor (TCR) ligation for maximal stimulation. However, the TCR has no intrinsic tyrosine kinase activity. Instead, the TCR must rely on cytoplasmic tyrosine kinases that localize to the TCR complex and initiate TCR-mediated signaling events. Although much has been learned regarding how these cytosolic tyrosine kinases are activated and recruited to the TCR complex, relatively little is understood about how these initial events are translated into transcriptional activation of genes that regulate cytokine production, cell proliferation, and cell death. Recently, it has become clear that the class of intracellular molecules known collectively as adapter proteins, molecules with modular domains capable of recruiting additional proteins but that exhibit no intrinsic enzymatic activity, serve to couple proximal biochemical events initiated by TCR ligation with more distal signaling pathways.
Glycogen synthase kinase 3beta (GSK3beta) is involved in metabolism, neurodegeneration, and cance... more Glycogen synthase kinase 3beta (GSK3beta) is involved in metabolism, neurodegeneration, and cancer. Inhibition of GSK3beta activity is the primary mechanism that regulates this widely expressed active kinase. Although the protein kinase Akt inhibits GSK3beta by phosphorylation at the N terminus, preventing Akt-mediated phosphorylation does not affect the cell-survival pathway activated through the GSK3beta substrate beta-catenin. Here, we show that p38 mitogen-activated protein kinase (MAPK) also inactivates GSK3beta by direct phosphorylation at its C terminus, and this inactivation can lead to an accumulation of beta-catenin. p38 MAPK-mediated phosphorylation of GSK3beta occurs primarily in the brain and thymocytes. Activation of beta-catenin-mediated signaling through GSK3beta inhibition provides a potential mechanism for p38 MAPK-mediated survival in specific tissues.
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Papers by James Clements