Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated HGF-induced signal transduction in two normal mouse epithelial cell lines (M23 and MM55). Both cell lines display HGF-induced mitogenesis and high level HGF-induced autophosphorylation of MET/HGFR. In both M23 and MM55 cells, HGF induces association with MET/HGFR and increased tyrosine phosphorylation of the SH2-domain containing proteins PI3K, GAP and NCK. PLC-gamma exhibited neither HGF-induced increases in tyrosine phosphorylation nor an association with MET/HGFR in these cell lines. Additionally, HGF induced increased transcription of c-fos, c-jun, junB, junD, and c-myc early response genes in both cell lines. We therefore suggest that the second messenger proteins PI3K, GAP and NCK, and possibly the protein products of the c-fos, c-jun, junB, junD and c-myc genes, are important elements in the HGF-induced mitogenic pathway in the normal mouse epithelial cell lines M23 and MM55.
Biochem Mol Biol Int 1995 Jul
PMID:Hepatocyte growth factor-induced signal transduction in two normal mouse epithelial cell lines. 754 43

The presence and role of the c-kit protein was investigated in the mature sperm of the mouse. The c-kit monoclonal antibody (mAb) ACK2 reacted specifically with the acrosomal region and the principal piece of fixed noncapacitated sperm but did not react with the acrosome region in acrosome-reacted sperm. ACK2 significantly inhibited the acrosome reaction; this inhibition was relieved by the calcium ionophore A23187. The kit ligand stem cell factor (SCF) significantly increased the percentage of sperm undergoing acrosome reaction. This increase was partially inhibited by the calcium channel inhibitor (verapamil), the PI3k inhibitor (wortmannin), and the PLC inhibitor (U-73122). ACK2 predominantly recognized c-kit proteins of 33, 48, and 150 kDa by Western blotting of mouse sperm extracts. The 48- and 150-kDa protein bands were released into the media and tyrosine autophosphorylated at low basal levels during acrosome reaction. On stimulation with SCF, the level of c-kit phosphorylation increased significantly. These findings suggest that c-kit is present in mature sperm, and its binding to SCF may result in the activation of PLC gamma 1 and PI3K, leading to receptor autophosphorylation, and ultimately may play a role in capacitation and/or the acrosome reaction.
Mol Reprod Dev 1998 Mar
PMID:The c-kit receptor and its possible signaling transduction pathway in mouse spermatozoa. 949 84

The insulin receptor kinase (IRK) is a tyrosine kinase whose activation, subsequent to insulin binding, is essential for insulin-signalling in target tissues. Insulin binding to its cell surface receptor is rapidly followed by internalization of insulin-IRK complexes into the endosomal apparatus (EN) of the cell. Internalization of insulin into target organs, especially liver, is implicated in effecting insulin clearance from the circulation. Internalization mediates IRK downregulation and hence attenuation of insulin sensitivity although most internalized IRKs readily recycle to the plasma membrane at physiological levels of insulin. A role for internalization in insulin signalling is indicated by the accumulation of activated IRKs in ENs. Furthermore, the maximal level of IRK activation has been shown to exceed that attained at the cell surface. Using an in vivo rat liver model in which endosomal IRKs are exclusively activated has revealed that IRKs at this intracellular locus are able by themselves to promote IRS-1 tyrosine phosphorylation and induce hypoglycemia. Furthermore, studies with isolated rat adipocytes reveal the EN to be the principle site of insulin-stimulated IRS-1 tyrosine phosphorylation and associated PI3K activation. Key steps in the termination of the insulin signal are also operative in ENs. Thus, an endosomal acidic insulinase has been identified which limits the extent of IRK activation. Furthermore, IRK dephosphorylation is effected in ENs by an intimately associated phosphotyrosine phosphatase(s) which, in rat liver, appears to regulate IRK activity in both a positive and negative fashion. Thus, insulin-mediated internalization of IRKs into ENs plays a crucial role in effecting and regulating signal transduction in addition to modulating the levels of circulating insulin and the cellular concentration of IRK in target tissues.
Mol Cell Biochem 1998 May
PMID:Insulin receptor internalization and signalling. 960 14

The scatter factor/hepatocyte growth factor regulates scattering and morphogenesis of epithelial cells through activation of the MET tyrosine kinase receptor. In particular, the noncatalytic C-terminal tail of MET contains two autophosphorylation tyrosine residues, which form a multisubstrate-binding site for several cytoplasmic effectors and are thought to be essential for signal transduction. We show here that a MET receptor mutated on the four C-terminal tyrosine residues, Y1311F, Y1347F, Y1354F, and Y1363F, can induce efficiently a transcriptional response and cell scattering, whereas it cannot induce cell morphogenesis. Although the mutated receptor had lost its ability to recruit and/or activate known signaling molecules, such as GRB2, SHC, GAB1, and PI3K, by using a sensitive association-kinase assay we found that the mutated receptor can still associate and phosphorylate a approximately 250-kDa protein. By further examining signal transduction mediated by the mutated MET receptor, we established that it can transmit efficient RAS signaling and that cell scattering by the mutated MET receptor could be inhibited by a pharmacological inhibitor of the MEK-ERK (MAP kinase kinase-extracellular signal-regulated kinase) pathway. We propose that signal transduction by autophosphorylation of the C-terminal tyrosine residues is not the sole mechanism by which the activated MET receptor can transmit RAS signaling and cell scattering.
Mol Biol Cell 1999 Mar
PMID:The multisubstrate docking site of the MET receptor is dispensable for MET-mediated RAS signaling and cell scattering. 1006 3

The binding properties of Src homology-2 (SH2) domains to phosphotyrosine (pY)-containing peptides have been studied in recent years with the elucidation of a large number of crystal and solution structures. Taken together, these structures suggest a general mode of binding of pY-containing peptides, explain the specificities of different SH2 domains, and may be used to design inhibitors of pY binding by SH2 domain-containing proteins. We now report the crystal structure to 1.8 A resolution of the C-terminal SH2 domain (C-SH2) of the P85alpha regulatory subunit of phosphoinositide 3-kinase (PI3 K). Surprisingly, the carboxylate group of Asp2 from a neighbouring molecule occupies the phosphotyrosine binding site and interacts with Arg18 (alphaA2) and Arg36 (betaB5), in a similar manner to the phosphotyrosine-protein interactions seen in structures of other SH2 domains complexed with pY peptides. It is the first example of a non-phosphate-containing, non-aromatic mimetic of phosphotyrosine binding to SH2 domains, and this could have implications for the design of substrate analogues and inhibitors. Overall, the crystal structure closely resembles the solution structure, but a number of loops which demonstrate mobility in solution are well defined by the crystal packing. C-SH2 has adopted a binding conformation reminiscent of the ligand bound N-terminal SH2 domain of PI3K, apparently induced by the substrate mimicking of a neighbouring molecule in the crystal.
J Mol Biol 1999 Oct 01
PMID:Crystal structure of the C-terminal SH2 domain of the p85alpha regulatory subunit of phosphoinositide 3-kinase: an SH2 domain mimicking its own substrate. 1052 2

Prolactin induces cell proliferation and cell differentiation through well-known MAPK Erk, and JAK2/STAT5 pathways depending on the cell line. The aim of the present study was to delineate the functional domains of the PRL receptor involved in PRL induced MAPK regulation. Using various PRL-R mutants of the cytoplasmic domain we found, that the membrane proximal domain is necessary for PRL induced MAPK activation and that the C-terminal part of the receptor exerts a negative regulatory role. A pharmacological approach, using different types of inhibitors, provided evidence that PRL induced MAPK activation requires both a MEK dependent pathway and a PI3K dependent pathway. The negative regulation induced by the carboxy-terminal part of the receptor involves a combination of tyrosine phosphatases and serine/threonine phosphatases as concluded from the actions of the phosphatase inhibitors: pervanadate, PAO and okadaic acid. The mechanism by which these phosphatases are recruited or are induced by the last 141 cytoplasmic residues of the receptor remains to be determined. Finally the negative regulatory role of the carboxy-terminal part of the receptor, first demonstrated in the present study, is discussed in terms of the regulation of different effects of PRL on growth and differentiation.
Mol Cell Endocrinol 2000 Jan 25
PMID:Effect of PRL on MAPK activation: negative regulatory role of the C-terminal part of the PRL receptor. 1068 59

Insulin-stimulated signaling pathways are activated upon interactions between the intracellular domains of the receptor and its downstream effectors. Insulin receptor substrate proteins (IRS-1, -2, -3 and -4) are the best-studied substrates for the insulin receptor kinase (IRK). We have previously shown that IRS-1 and IRS-2 interact with the juxtamembrane (JM) but not with the carboxyl-terminal (CT) region of the insulin receptor (IR) in vitro. However, the precise role of these IR regions in mediating insulin's bioeffects is still unresolved. In the present work we made use of vaccinia virus as a vector for quantitative expression of the JM and CT domains within the cytoplasm of physiologically insulin-responsive primary rat adipocytes and rat hepatoma Fao cells. We could demonstrate that overexpression of either the JM or the CT domains did not inhibit either insulin binding or insulin-stimulated receptor autophosphorylation. In contrast, metabolic effects such as insulin-induced glucose utilization in adipocytes, and insulin-induced amino acid utilization in Fao hepatoma cells were inhibited (70-80%) in cells overexpressing the JM but not the CT domains of IR. The inhibitory effects of the overexpressed JM domain were accompanied by inhibition of insulin-stimulated IRS-1 phosphorylation, decreased IRS-1-associated PI3K activity, and decreased phosphorylation of the downstream effectors of PI3K, PKB and p70 S6K. Insulin-stimulated thymidine incorporation in Fao cells was also inhibited (40%) upon overexpression of the JM but not the CT region of IR. Our findings suggest that interactions between the JM region of IR and its downstream effectors are obligatory for insulin-stimulated metabolic functions in physiologically relevant insulin responsive cells. They also rule out the possibility that interaction of proteins, including PI3K, with the CT domain can provide an alternative pathway.
J Mol Endocrinol 2000 Jun
PMID:The juxtamembrane but not the carboxyl-terminal domain of the insulin receptor mediates insulin's metabolic functions in primary adipocytes and cultured hepatoma cells. 1082 35

Gas6 is a growth factor related to protein S that was identified as the ligand for the Axl receptor tyrosine kinase (RTK) family. In this study, we show that Gas6 induces a growth response in a cultured mammalian mammary cell line, C57MG. The presence of Gas6 in the medium induces growth after confluence and similarly causes cell cycle reentry of density-inhibited C57MG cells. We show that Axl RTK but not Rse is efficiently activated by Gas6 in density-inhibited C57MG cells. We have analyzed the signaling required for the Gas6 proliferative effect and found a requirement for PI3K-, S6K-, and Ras-activated pathways. We also demonstrate that Gas6 activates Akt and concomitantly inhibits GSK3 activity in a wortmannin-dependent manner. Interestingly, Gas6 induces up-regulation of cytosolic beta-catenin, while membrane-associated beta-catenin remains unaffected. Stabilization of beta-catenin in C57MG cells is correlated with activation of a T-cell factor (TCF)-responsive transcriptional element. We thus provide evidence that Gas6 is mitogenic and induces beta-catenin proto-oncogene stabilization and subsequent TCF/Lef transcriptional activation in a mammary system. These results suggest that Gas6-Axl interaction, through stabilization of beta-catenin, may have a role in mammary development and/or be involved in the progression of mammary tumors.
Mol Cell Biol 2001 Feb
PMID:Gas6 induces growth, beta-catenin stabilization, and T-cell factor transcriptional activation in contact-inhibited C57 mammary cells. 1115 77

The tumour suppressor gene PTEN encodes a dual-specificity phosphatase that recognizes protein substrates and phosphatidylinositol-3,4,5-triphosphate. PTEN seems to play multiple roles in tumour suppression and the blockade of phosphoinositide-3-kinase signalling is important for its growth suppressive effects, although precise mechanisms are not fully understood. In this study, we show that PTEN plays a unique role in the insulin-signalling pathway in a breast cancer model. Ectopic expression of wild-type PTEN in MCF-7 epithelial breast cancer cells resulted in universal inhibition of Akt phosphorylation in response to stimulation by diverse growth factors and selective inhibition of MEK/extracellular signal-regulated kinase (ERK) phosphorylation stimulated by insulin or insulin-like growth factor 1 (IGF-1). The latter was accompanied by a decrease in the phosphorylation of insulin receptor substrate 1 (IRS-1) and the association of IRS-1 with Grb2/Sos, without affecting the phosphorylation status of the insulin receptor and Shc, nor Shc/Grb2 complex formation. The MEK inhibitor, PD980059, but not the PI3K inhibitor, wortmannin, abolished the effect of PTEN on insulin-stimulated cell growth. Without addition of insulin, wortmannin reduced PTEN-mediated growth suppression, whereas PD980059 had little effect, suggesting that PTEN suppresses insulin-stimulated cell growth by blocking the mitogen-activated protein kinase (MAPK) pathway. Furthermore, PD980059 treatment led to the downregulation of cyclin D1 and the suppression of cell cycle progression. Our data suggest that PTEN blocks MAPK phosphorylation in response to insulin stimulation by inhibiting the phosphorylation of IRS-1 and IRS-1/Grb2/Sos complex formation, which leads to downregulation of cyclin D1, inhibition of cell cycle progression and suppression of cell growth.
Hum Mol Genet 2001 Mar 15
PMID:PTEN inhibits insulin-stimulated MEK/MAPK activation and cell growth by blocking IRS-1 phosphorylation and IRS-1/Grb-2/Sos complex formation in a breast cancer model. 1123 Jan 80

We demonstrate that PI3 kinase and protein kinase B (PKB or Akt) control cell polarity and chemotaxis, in part, through the regulation of PAKa, which is required for myosin II assembly. We demonstrate that PI3K and PKB mediate PAKa's subcellular localization, PAKa's activation in response to chemoattractant stimulation, and chemoattractant-mediated myosin II assembly. Mutation of the PKB phosphorylation site in PAKa to Ala blocks PAKa's activation and inhibits PAKa redistribution in response to chemoattractant stimulation, whereas an Asp substitution leads to an activated protein. Addition of the PI3K inhibitor LY294002 results in a rapid loss of cell polarity and the axial distribution of actin, myosin, and PAKa. These results provide a mechanism by which PI3K regulates chemotaxis.
Mol Cell 2001 May
PMID:Control of cell polarity and chemotaxis by Akt/PKB and PI3 kinase through the regulation of PAKa. 1138 41


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