			Home About us Contact

Src-family Kinases (src-family + kinase)

Distribution by Scientific Domains

Medical Sciences	58%
Life Sciences	33%

Selected Abstracts

Activation of dorsal horn microglia contributes to diabetes-induced tactile allodynia via extracellular signal-regulated protein kinase signaling

GLIA, Issue 4 2008
Makoto Tsuda
Abstract Painful neuropathy is one of the most common complications of diabetes, one hallmark of which is tactile allodynia (pain hypersensitivity to innocuous stimulation). The underlying mechanisms of tactile allodynia are, however, poorly understood. Emerging evidence indicates that, following nerve injury, activated microglia in the spinal cord play a crucial role in tactile allodynia. However, it remains unknown whether spinal microglia are activated under diabetic conditions and whether they contribute to diabetes-induced tactile allodynia. In the present study, using streptozotocin (STZ)-induced diabetic rats that displayed tactile allodynia, we found several morphological changes of activated microglia in the dorsal horn. These included increases in Iba1 and OX-42 labeling (markers of microglia), hypertrophic morphology, the thickness and the retraction of processes, and in the number of activated microglia cells. Furthermore, in the dorsal horn of STZ diabetic rats, extracellular signal-regulated protein kinase (ERK) and an upstream kinase, Src-family kinase (SFK), both of which are implicated in microglial functions, were activated exclusively in microglia. Moreover, inhibition of ERK phosphorylation in the dorsal horn by intrathecal administration of U0126, an inhibitor of ERK activation, produced a striking alleviation of existing, long-term tactile allodynia of diabetic rats. We also found that a single administration of U0126 reduced the expression of allodynia. Together, these results suggest that activated dorsal horn microglia may be a crucial component of diabetes-induced tactile allodynia, mediated, in part, by the ERK signaling pathway. Thus, inhibiting microglia activation in the dorsal horn may represent a therapeutic strategy for treating diabetic tactile allodynia. © 2008 Wiley-Liss, Inc. [source]

Camellia japonica suppresses immunoglobulin E-mediated allergic response by the inhibition of Syk kinase activation in mast cells

CLINICAL & EXPERIMENTAL ALLERGY, Issue 5 2008
J-H. Lee
Summary Background Novel approaches are being explored to develop new therapies for various allergic diseases. Complementary and alternative medicines are considered to be promising avenues for the development of such new therapies. Objectives To investigate the effect of many Korean plants on the IgE-mediated allergic response in mast cells and in vivo, and its mechanism of action. Materials and methods The anti-allergic activity was tested by evaluating effects on degranulation of mast cells in culture and passive cutaneous anaphylaxis (PCA) in vivo. Its mechanism of action was investigated by immunoblotting analysis, immunoprecipitation, RT-PCR, and other molecular biological approaches in mast cells. Results We screened approximately 100 natural plant extracts collected in Korea for in vitro anti-allergic activity. The leaf extract of Camellia japonica (LECJ) exhibited the most potent effect on degranulation in antigen-stimulated rodent and human mast cells. LECJ reversibly inhibited degranulation in a dose-dependent manner, with IC50 values of ,50 ,g/mL for the mast cells, and it also suppressed the expression and secretion of TNF-, and IL-4 in rat basophilic leukaemia-2H3 mast cells. In agreement with its in vitro activity, LECJ significantly inhibited mast cell-mediated PCA in an animal model. LECJ inhibited activating phosphorylation of tyrosine Y371 on Syk kinase, indicating that LECJ inhibits the activity of Src-family kinases in mast cells. In the in vitro kinase assay, LECJ directly inhibited Lyn kinase, the major Src-family kinase in the cells. It also suppressed Akt and MAP kinases, which are critical for the production of various pro-inflammatory cytokines in mast cells. In high-performance liquid chromatography analysis, quercetin-3-,- d -glucoside and eugenol were identified as the major active components. Conclusion The present results strongly suggest that the anti-allergic activity of LECJ is mediated through inhibiting degranulation and allergic cytokine secretion by inhibition of Src-family kinase in mast cells and it may be useful for the treatment of mast cell-related immediate and delayed allergic diseases. [source]

T-cell receptor proximal signaling via the Src-family kinases, Lck and Fyn, influences T-cell activation, differentiation, and tolerance

IMMUNOLOGICAL REVIEWS, Issue 1 2009
Robert J. Salmond
Summary:, T-cell development in the thymus and activation of mature T cells in secondary lymphoid organs requires the ability of cells to respond appropriately to environmental signals at multiple stages of their development. The process of thymocyte selection insures a functional T-cell repertoire, while activation of naive peripheral T cells induces proliferation, gain of effector function, and, ultimately, long-lived T-cell memory. The T-cell immune response is initiated upon engagement of the T-cell receptor (TCR) and coreceptor, CD4 or CD8, by cognate antigen/major histocompatibility complexes presented by antigen-presenting cells. TCR/coreceptor engagement induces the activation of biochemical signaling pathways that, in combination with signals from costimulator molecules and cytokine receptors, direct the outcome of the response. Activation of the src- family kinases p56lck (Lck) and p59fyn (Fyn) is central to the initiation of TCR signaling pathways. This review focuses on our current understanding of the mechanisms by which these two proteins orchestrate T-cell function. [source]

Lysophosphatidic acid induces ovarian cancer cell dispersal by activating Fyn kinase associated with p120-catenin

INTERNATIONAL JOURNAL OF CANCER, Issue 4 2008
Ruby Yun-Ju Huang
Abstract Lysophosphatidic acid (LPA), known as the "ovarian cancer activating factor," is a natural phospholipid involved in important biological functions, such as cell proliferation, wound healing and neurite retraction. LPA causes colony dispersal in various carcinoma cell lines by inducing morphological changes, including membrane ruffling, lamellipodia formation, cell,cell dissociation and single cell migration. However, its effects on cell,cell dissociation and cell,cell adhesion of ovarian cancer cells have not been studied. In our study, we showed that LPA induced sequential events of intercellular junction dispersal and "half-junction" formation in ovarian cancer SKOV3 cells and that Src-family kinases were involved in both processes, since the effects were abolished by the selective tyrosine kinase inhibitor PP2. LPA induced rapid and transient activation of Src family kinases, which were recruited to cell,cell junctions by increasing the association with the adherens junction protein p120-catenin. We identified the Src family kinase, Fyn, as the key component associated with p120-catenin after LPA stimulation in SKOV3 cells. Our study provides evidence that LPA induces junction dispersal in ovarian cancer SKOV3 cells by activating the Src family kinase Fyn and increasing its association with p120-catenin at the cell,cell junction. © 2008 Wiley-Liss, Inc. [source]

Continuous requirement for pp60-Src and phospho-paxillin during fibronectin matrix assembly by transformed cells

JOURNAL OF CELLULAR PHYSIOLOGY, Issue 3 2007
Iwona Wierzbicka-Patynowski
Fibronectin (FN) matrix assembly is an integrin-mediated process that is regulated by both the extracellular environment and intracellular signaling pathways. The activity of Src-family kinases is important for initiation of FN assembly by normal fibroblasts. Here we report that in HT1080 fibrosarcoma cells, Src kinase activity is required not only for the assembly of FN matrix but also for the maintenance of FN matrix fibrils at the cell surface. Dexamethasone-induced FN fibril formation by these cells was completely blocked for at least 24 h when Src-family kinase activity was inhibited by either PP1 or SU6656. Inhibition of Src after significant matrix had already been assembled, resulted in an increased rate of loss of detergent-insoluble FN. Binding of activation-dependent integrin antibodies reveals a role for Src in maintaining integrin activity. The requirement for Src kinase activity appears to depend, in part, on phosphorylation of paxillin at tyrosine 118 (Y118). Phospho-paxillin co-localized with FN fibrils, and overexpression of GFP-paxillin but not of GFP-paxillinY118F enhanced cell-mediated assembly of FN. Our results indicate that Src maintains FN matrix at the cell surface through its effect on integrin activity and paxillin phosphorylation. J. Cell. Physiol. 210: 750,756, 2007. © 2006 Wiley-Liss, Inc. [source]

Interactions between the L1 cell adhesion molecule and ezrin support traction-force generation and can be regulated by tyrosine phosphorylation

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 12 2008
Takeshi Sakurai
Abstract An Ig superfamily cell-adhesion molecule, L1, forms an adhesion complex at the cell membrane containing both signaling molecules and cytoskeletal proteins. This complex mediates the transduction of extracellular signals and generates actin-mediated traction forces, both of which support axon outgrowth. The L1 cytoplasmic region binds ezrin, an adapter protein that interacts with the actin cytoskeleton. In this study, we analyzed L1,ezrin interactions in detail, assessed their role in generating traction forces by L1, and identified potential regulatory mechanisms controlling ezrin,L1 interactions. The FERM domain of ezrin binds to the juxtamembrane region of L1, demonstrated by yeast two-hybrid interaction traps and protein binding analyses in vitro. A lysine-to-leucine substitution in this domain of L1 (K1147L) shows reduced binding to the ezrin FERM domain. Additionally, in ND7 cells, the K1147L mutation inhibits retrograde movement of L1 on the cell surface that has been linked to the generation of the traction forces necessary for axon growth. A membrane-permeable peptide consisting of the juxtamembrane region of L1 that can disrupt endogenous L1,ezrin interactions inhibits neurite extension of cerebellar cells on L1 substrates. Moreover, the L1,ezrin interactions can be modulated by tyrosine phosphorylation of the L1 cytoplasmic region, namely, Y1151, possibly through Src-family kinases. Replacement of this tyrosine together with Y1176 with either aspartate or phenylalanine changes ezrin binding and alters colocalization with ezrin in ND7 cells. Collectively, these data suggest that L1,ezrin interactions mediated by the L1 juxtamembrane region are involved in traction-force generation and can be regulated by the phosphorylation of L1. © 2008 Wiley-Liss, Inc. [source]

Cyclic guanosine monophosphate signalling pathway plays a role in neural cell adhesion molecule-mediated neurite outgrowth and survival

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 4 2007
Dorte Kornerup Ditlevsen
Abstract The neural cell adhesion molecule (NCAM) plays a crucial role in neuronal development, regeneration, and synaptic plasticity associated with learning and memory consolidation. Homophilic binding of NCAM leads to neurite extension and neuroprotection in various types of primary neurons through activation of a complex network of signalling cascades, including fibroblast growth factor receptor, Src-family kinases, the mitogen-activated protein kinase pathway, protein kinase C, phosphatidylinositol-3 kinase, and an increase in intracellular Ca2+. Here we present data indicating an involvement of cyclic GMP in NCAM-mediated neurite outgrowth in both hippocampal and dopaminergic neurons and in NCAM-mediated neuroprotection of dopaminergic neurons. In addition, evidence is presented suggesting that NCAM mediates activation of cGMP via synthesis of nitric oxide (NO) by NO synthase (NOS) and activation of soluble guanylyl cyclase by NO, leading to an increased synthesis of cGMP and activation by cGMP of protein kinase G. © 2007 Wiley-Liss, Inc. [source]

The Abl SH2-kinase linker naturally adopts a conformation competent for SH3 domain binding

PROTEIN SCIENCE, Issue 4 2007
Shugui Chen
Abstract The core of the Abelson tyrosine kinase (c-Abl) is structurally similar to Src-family kinases where SH3 and SH2 domains pack against the backside of the kinase domain in the down-regulated conformation. Both kinase families depend upon intramolecular association of SH3 with the linker joining the SH2 and kinase domains for suppression of kinase activity. Hydrogen deuterium exchange (HX) and mass spectrometry (MS) were used to probe intramolecular interaction of the c-Abl SH3 domain with the linker in recombinant constructs lacking the kinase domain. Under physiological conditions, the c-Abl SH3 domain undergoes partial unfolding, which is stabilized by ligand binding, providing a unique assay for SH3:linker interaction in solution. Using this approach, we observed dynamic association of the SH3 domain with the linker in the absence of the kinase domain. Truncation of the linker before W254 completely prevented cis -interaction with SH3, while constructs containing amino acids past this point showed SH3:linker interactions. The observation that the Abl linker sequence exhibits SH3-binding activity in the absence of the kinase domain is unique to Abl and was not observed with Src-family kinases. These results suggest that SH3:linker interactions may have a more prominent role in Abl regulation than in Src kinases, where the down-regulated conformation is further stabilized by a second intramolecular interaction between the C-terminal tail and the SH2 domain. [source]

Camellia japonica suppresses immunoglobulin E-mediated allergic response by the inhibition of Syk kinase activation in mast cells

Activation of src-family tyrosine kinases by LPS regulates cytokine production in dendritic cells by controlling AP-1 formation

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 10 2003
Giorgio Napolitani
Abstract The role of src-family tyrosine kinases in LPS-induced DC maturation has not been fully addressed. We show that LPS induces activation of c-Src and Lyn in human DC. Inhibition of these kinasesby PP1 uncoupled LPS-induced cytokine production from the up-regulation of costimulatory molecules, resulting in DC still capable of stimulating T cell proliferation but much less efficient in inducing Th1 differentiation. This is the first example of a pharmacological inhibitor able to modulate the capacity of DC to induce a particular type of immune response. Inhibition of src-family kinases impaired phosphorylation and accumulation of c-Jun, leading to reduced formation of AP-1 complexes upon LPS stimulation. Thus, src-kinases control cytokine production in LPS-induced DC maturation through a timely formation of AP-1. [source]

CD20-mediated apoptosis: signalling through lipid rafts

IMMUNOLOGY, Issue 2 2002
Julie P. Deans
Summary CD20 is an effective target for therapeutic B-cell depletion with monoclonal antibodies. One proposed mechanism of action is direct cytotoxicity mediated via tyrosine kinase-dependent signalling pathways activated upon CD20 cross-linking. The association of CD20 with membrane microdomains known as lipid rafts, enriched in src-family tyrosine kinases and other signalling effectors, suggests an indirect mechanism of anti-CD20-induced apoptosis in which activation of src-family kinases occurs as a consequence of lipid raft clustering. [source]