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n receptor (TCR) signaling, we utilized a mouse expressing mutated Csk (Csk(AS)) whose catalytic activity is specifically and rapidly inhibited by a small molecule. Inhibition of Csk(AS) during TCR stimulation led to stronger and more prolonged TCR signaling and to increased proliferation. Inhibition of Csk(AS) enhanced activation by weak but strictly cognate agonists. Titration of Csk inhibition revealed that a very small increase in SFK activity was sufficient to potentiate T cell responses to weak agonists. Csk plays an important role, not only in basal signaling, but also in setting the TCR signaling threshold and affinity recognition.

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span>) that can specifically phosphorylate the negative regulatory site of p60c-src. To elucidate the relationship between CSK and other types of src family kinases, we investigated the tissue distribution of CSK and examined whether CSK could phosphorylate the negative regulatory sites of src family kinases other than p60c-src. Western blot analysis indicated that CSK was enriched at the highest level in lymphoid tissues in which the expression of p60c-src is considerably lower than those of other types of src family kinases. CSK phosphorylated p56lyn and p59fyn, which are known to be expressed in lymphoid tissues at a relatively high level. The putative regulatory site, tyrosine 508, was found to be essential for phosphorylation in p56lyn, and the kinase activities of these src family kinases were repressed by phosphorylation with CSK. These findings raise the possibility that CSK might act as a universal regulator for src family kinases.

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howed depressed productions of monokines and nitric oxide (NO), but enhanced production of prostaglandin E2 (PGE2). In the present study, mechanism(s) underlying the reciprocal functions seen in NO and PGE2 productions was investigated. When aminoguanidine, an inhibitor of NO synthesis, was added to the Csk transfectants stimulated with lipopolysaccharide (LPS), not only NO production but also PGE2 production was suppressed. Exogenous NO showed no influence on PGE2 production by the transfectants stimulated with LPS. It was also shown that mitogenactivated protein kinase (MAPK) pathway was activated in the Csk transfectants as compared to parental J774A.1 or a vector control, J.pBK2, cells. Large amounts of phosphorylated MAPK were detected in the Csk transfectants compared to J774A.1. This finding appeared to be consistent with the result that MAPK inhibitor completely abolished NO production by J774A.1 cells upon stimulation with LPS + interferon-gamma (IFN-gamma), whereas the inhibitor partially blocked the NO production by J.Csk transfectants which expressed large amounts of Csk protein. The overexpressed Csk resulted in suppression of phagocytosis of latex beads and uptake of acetyl-low-density lipoprotein (LDL) by the transfectants. The present findings demonstrate that Csk regulates NO and PGE2 productions independently and suggest that introduction of csk gene may be applicable to understanding the pathogenesis of certain diseases where dysregulated macrophages are involved.

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e='font-weight:700;'>CSK. There is a paucity of information regarding the role of CSK and/or specific Src family kinases in neuronal differentiation. Pretreatment of PC12 cells with the Src family kinase inhibitor, PP1, blocked NGF-induced activation of SFKs and obliterated neurite outgrowth. To confirm a role for CSK and specific isoforms of SFKs in neuronal differentiation, we overexpressed active and catalytically dead CSK in the rat pheochromocytoma cell line, PC12. CSK overexpression caused a profound inhibition of NGF-induced activation of FYN, YES, RAS, and ERK and inhibited neurite outgrowth, NGF-stimulated integrin-directed migration and blocked the NGF-induced conversion of GDP-RAC to its GTP-bound active state. CSK overexpression markedly augmented the activation state of AKT following NGF stimulation. In contrast, kinase-dead CSK augmented the activation of FYN, RAS, and ERK and increased neurite outgrowth. These data suggest a distinct requirement for CSK in the regulation of NGF/TrkA activation of RAS, RAC, ERK, and AKT via the differential control of SFKs in the orchestration of neuronal differentiation.

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therefore remain largely unknown. Performing a functional genomics screen, we found that downregulation of SRC inhibitory kinase CSK is sufficient to overcome growth arrest induced by depriving human prostate cancer cells of androgen. CSK knockdown led to ectopic SRC activation, increased AR signaling, and resistance to anti-androgens. Consistent with the in vitro observations, stable knockdown of CSK conferred castration resistance in mouse xenograft models, while sensitivity to the tyrosine kinase inhibitor dasatinib was retained. Finally, CSK was found downregulated in a distinct subset of CRPCs marked by AR amplification and ETS2 deletion but lacking PTEN and RB1 mutations. These results identify CSK downregulation as a principal driver of SRC activation and castration resistance and validate SRC as a drug target in a molecularly defined subclass of CRPCs.

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elation between the activities of Src family kinases and the expression level of Csk during development of the rat brain. Csk was expressed at high levels in the developing embryonic brain and then rapidly decreased as the brain matured. Consistent with the decrease in the Csk level, the kinase activity of a member of the Src family, Fyn, was greatly enhanced, but that of Src was not correlated inversely with the level of Csk expression. Src exhibited elevated activity in the developing brain, in which a neuronal form of Src (N-Src) is expressed as the dominant form of Src. Although N-Src was readily down-regulated by Csk when coexpressed in yeast, it showed much higher specific activity than c-Src, even in the repressed form. These findings suggest that neural tissues acquire high activities of Src family kinases, which might be important for differentiation and development of the nervous system, through induction of the active form of Src (N-Src) and down-regulation of their suppresser, Csk.

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:700;'>Csk, but also its Src homology 3 (SH3) and SH2 regions. We showed previously that the Csk SH3 domain mediates highly specific associations with two members of the PEP family of nonreceptor protein tyrosine phosphatases (PTPs), PEP and PTP-PEST. In comparison, the Csk SH2 domain interacts with several tyrosine phosphorylated molecules, presumed to allow targetting of Csk to sites of Src family kinase activation. Herein, we attempted to understand better the regulation of Csk by identifying ligands for its SH2 domain. Using a modified yeast two-hybrid screen, we uncovered the fact that Csk associates with PTP-HSCF, the third member of the PEP family of PTPs. This association was documented not only in yeast cells but also in a heterologous mammalian cell system and in cytokine-dependent hemopoietic cells. Surprisingly, the Csk-PTP-HSCF interaction was found to be mediated by the Csk SH2 domain and two putative sites of tyrosine phosphorylation in the noncatalytic portion of PTP-HSCF. Transfection experiments indicated that Csk and PTP-HSCF synergized to inhibit signal transduction by Src family kinases and that this cooperativity was dependent on the domains mediating their association. Finally, we obtained evidence that PTP-HSCF inactivated Src-related PTKs by selectively dephosphorylating the positive regulatory tyrosine in their kinase domain. Taken together, these results demonstrate that part of the function of the Csk SH2 domain is to mediate an inducible association with a PTP, thereby engineering a more efficient inhibitory mechanism for Src-related PTKs. Coupled with previously published observations, these data also establish that Csk forms complexes with all three known members of the PEP family.