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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In studies aimed at identifying and characterizing pp60c-src substrates that participate in the enhanced mitogenic response to epidermal growth factor (EGF) observed in murine C3H10T1/2 fibroblasts overexpressing c-src, we have identified a 75-kDa protein (p75) whose properties are consistent with those expected of such a substrate. We present evidence to show that p75 is immunologically related to a recently described, cytoskeleton-associated, pp60v-src substrate [Wu et al. (1991). Mol. Cell. Biol., 11, 5113-5124), and that its phosphotyrosine content is increased cooperatively by c-src overexpression and EGF stimulation. p75 is rapidly (within 2 min) phosphorylated on tyrosine upon EGF treatment and undergoes a second, prolonged phase of tyrosyl phosphorylation from 7 to 21 h after EGF addition, suggesting that tyrosyl phosphorylation of p75 is important for late as well as early events following EGF receptor activation. Enhanced tyrosyl phosphorylation of p75 is also seen when cells overexpressing c-src are treated with platelet-derived growth factor (PDGF), but significantly less phosphorylation is observed with insulin and fibroblast growth factor (FGF). Both basal and EGF-induced tyrosyl phosphorylation of p75 are reduced in cells overexpressing mutated forms of c-src (unmyristylated, or kinase deficient) as compared with wild-type c-src overexpressers, indicating the dependence of the enhanced tyrosyl phosphorylation on membrane-associated, enzymatically active pp60c-src. In cellular fractionation experiments p75 partitions with the cytosol, while immunofluorescence studies reveal a striking colocalization with pp60c-src at the plasma membrane and in the perinuclear region. Partial co-staining of p75 and actin occurs at the cell's periphery. These data provide evidence for p75 being a direct substrate of pp60c-src. The possible role of p75 in the enhanced response to EGF seen in c-src overexpressers is discussed.
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PMID:Identification and characterization of a cytoskeleton-associated, epidermal growth factor sensitive pp60c-src substrate. 128 4

Nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), and neurotrophin 3 (NT-3) are members of a family of structurally related proteins termed neurotrophins that promote the growth and survival of neurons in the central and peripheral nervous systems. Each of these proteins bind to at least two membrane receptors. One is the low affinity nerve growth factor receptor (p75), which binds each member of the neurotrophin family. The other is one of a family of tyrosine kinase receptors--trkA binds only NGF, the related trkB receptor binds BDNF and NT-3, and trkC binds NT-3 alone. This article reviews kinetic and biochemical information on p75 and its relationship to the trk gene products.
Mol Cell Biochem 1992 Mar 04
PMID:The nerve growth factor receptor: a multicomponent system that mediates the actions of the neurotrophin family of proteins. 131 23

We have compared the properties of a rat aorta-derived protein kinase C substrate (p75) with those of 80 kDa kinase C substrates from rat brain (MARCKS) and rabbit aorta (p80). Rat aortic p75 appeared to be closely related to rat brain MARCKS on the basis of: solubility in perchloric acid and trichloroacetic acid, heat stability, isoelectric point (pI approximately 4.2), overall V8 protease phosphopeptide map, and immunocrossreactivity with an antibody directed against the N-terminal domain of MARCKS. However, p75 could be distinguished from rat brain MARCKS and from the rabbit aorta-derived p80 on the basis of its consistently more rapid electrophoretic mobility in SDS-containing gels, and in terms of a unique proteolytic phosphopeptide found in MARCKS but not in aortic p75. We conclude that p75 probably belongs to the family of protein kinase C substrates represented by MARCKS, and that differences in post-translational processing (glycosylation) or mRNA processing may account for the unique properties of the p75 protein in rat aortic tissue.
Mol Cell Biochem 1992 Dec 16
PMID:Comparison of an endogenous protein kinase C substrate in rat aorta with rat brain MARCKS. 133 18

Cellular responses to epidermal growth factor (EGF) are dependent on the tyrosine-specific protein kinase activity of the cell-surface EGF receptor. Previous studies using WB rat liver epithelial cells have detected at least 10 proteins whose phosphotyrosine (P-Tyr) content is increased by EGF. In this study, we have examined alternate modes of activating tyrosine phosphorylation. Treatment of WB cells with hormones linked to Ca2+ mobilization and protein kinase C (PKC) activation, including angiotensin II, [Arg8]vasopressin, or epinephrine, stimulated rapid (less than or equal to 15-s) and transient increases in the P-Tyr content of several proteins (p120/125, p75/78, and p66). These proteins, detected by anti-P-Tyr immunoblotting, were similar in molecular weight to a subset of EGF-sensitive P-Tyr-containing proteins (P-Tyr-proteins). The increased P-Tyr content was confirmed by [32P]phosphoamino acid analysis of proteins recovered by anti-P-Tyr immunoprecipitation. Elevating intracellular [Ca2+] with the ionophore A23187 or ionomycin or with the tumor promoter thapsigargin mimicked the effects of hormones on tyrosine phosphorylation, whereas treatment with a PKC-activating phorbol ester did not. In addition, responses to angiotensin II were not diminished in PKC-depleted cells. Ca2+ mobilization, measured by fura-2 fluorescence, was coincident with the increase in tyrosine phosphorylation in response to angiotensin II or thapsigargin. Loading cells with the intracellular Ca2+ chelator bis-(o-aminophenoxy)ethane-N ,N ,N' , N'-tetraacetic acid (BAPTA) inhibited the appearance of all P-Tyr-proteins in response to angiotensin II, thapsigargin, or ionophores, as well as two EGF-stimulated P-Tyr-proteins. The majority of EGF-stimulated P-Tyr-proteins were not affected by BAPTA. These studies indicate that angiotensin II can alter protein-tyrosine phosphorylation in a manner that is secondary to, and apparently dependent on, Ca2+ mobilization. Thus, ligands such as EGF and angiotensin II, which act through distinct types of receptors, may activate secondary pathways involving tyrosine phosphorylation. These results also raise the possibility that certain growth-promoting effects of Ca2+ -mobilizing agents such as angiotensin II may be mediated via tyrosine phosphorylation.
Mol Cell Biol 1990 Dec
PMID:Angiotensin II stimulates protein-tyrosine phosphorylation in a calcium-dependent manner. 170 Oct 16

Incubation of plasma membranes isolated from bovine aorta with either 0.5 mM CaCl2 or with a phorbol ester (1 microM phorbol 12,13-dibutyrate) and phosphatidylserine in an EGTA-containing buffer resulted in the phosphorylation of 10 proteins (Mr of 158, 105, 75, 62, 44, 39, 33, 22, 15 and 9 kDa), presumably due to activation of endogenous protein kinase C (PKC). After heat treatment of the aortic plasma membranes at 80 degrees C for 5 min in order to inactivate all endogenous protein kinase, phosphatase and ATPase activities, membrane phosphorylation was absolutely-dependent upon the addition of an exogenous, partially-purified PKC preparation from bovine aorta. Under these conditions, a total of 17 phosphoproteins could be detected (Mr of 158, 105, 75, 44, 39, 33, 30, 29, 27, 25, 22, 17.5, 16, 15, 11, 10 and 9 kDa). The most prominent phosphoprotein band in native membranes had a molecular weight of 75 kDa (p75); several characteristics suggest that p75 might be autophosphorylated PKC. The phosphorylation of aortic plasma membranes by exogenous PKC required phosphatidylserine and was calcium-dependent (10(-5) to 10(-7) M Ca2+); the addition of diolein resulted in little or no enhancement of phosphorylation. Replacement of phosphatidylserine with oleic acid resulted in the same number of phosphoproteins, but the extent of phosphorylation was diminished. The phosphorylation pattern was altered slightly if the aortic plasma membranes were isolated in the presence of 1 mM Ca2+ instead of EGTA buffers as in the standard procedure. Experiments were performed to determine if the p39 substrate of PKC in aortic plasma membranes was calpactin II (lipocortin I). Immunoblotting established that calpactin II was present in aortic plasma membranes, but there was no corresponding phosphoprotein on the autoradiographs.
Mol Cell Biochem 1991 Aug 14
PMID:Phosphorylation of aortic plasma membranes by protein kinase C. 183 27

The MET proto-oncogene encodes a transmembrane tyrosine kinase of 190 kDa (p190MET), which has recently been identified as the receptor for hepatocyte growth factor/scatter factor. p190MET is a heterodimer composed of two disulfide-linked chains of 50 kDa (p50 alpha) and 145 kDa (p145 beta). We have produced four different monoclonal antibodies that are specific for the extracellular domain of the Met receptor. These antibodies immunoprecipitate with p190MET two additional Met proteins of 140 and 130 kDa. The first protein (p140MET) is membrane bound and is composed of an alpha chain (p50 alpha) and an 85-kDa C-terminal truncated beta chain (p85 beta). The second protein (p130MET) is released in the culture supernatant and consists of an alpha chain (p50 alpha) and a 75-kDa C-terminal truncated beta chain (p75 beta). Both truncated forms lack the tyrosine kinase domain. p140MET and p130MET are consistently detected in vivo, together with p190MET, in different cell lines or their culture supernatants. p140MET is preferentially localized at the cell surface, where it is present in roughly half the amount of p190MET. The two C-terminal truncated forms of the Met receptor are also found in stable transfectants expressing the full-length MET cDNA, thus showing that they originate from posttranslational proteolysis. This process is regulated by protein kinase C activation. Together, these data suggest that the production of the C-terminal truncated Met forms may have a physiological role in modulating the Met receptor function.
Mol Cell Biol 1991 Dec
PMID:C-terminal truncated forms of Met, the hepatocyte growth factor receptor. 194 72

Murine T and B lymphocytes can be induced to release soluble interleukin 2 receptors (sIL2R). This receptor is believed to be a truncated form of the p55 chain of the cell membrane-associated receptor. It has been speculated that this receptor may play an immunoregulatory role via competition for IL-2 with the high-affinity (p55/75 heterodimer) IL-2 receptor. Of crucial importance to this hypothesis are both the concentration of the receptor and its affinity of binding for interleukin 2. We report the measurement of the affinity of sIL2R derived from stimulated normal murine splenocytes for IL-2. We also report the quantification of an enzyme linked immunosorbent assay (ELISA) for sIL2R via measurement of the sIL2R concentration in normal murine splenocyte conditioned medium using a radioimmunometric assay and Scatchard analysis. This method of sIL2R quantification is preferable to sIL2R purification and subsequent concentration estimation as used by previous investigators as any purification process risks destruction of some epitopes. Using the above conditioned medium as a standard we have tested supernatants from several cell lines and sera from several different mouse strains for sIL2R. As would be expected this method of quantification yielded a markedly different value for serum sIL2R levels in normal mice than that obtained by previous investigators. Our results indicate that it is very unlikely that sIL2R competes with the high-affinity form of the IL-2 receptor for IL-2. However, it is possible that it competes for IL-2 with the medium-affinity p75 form of the IL-2 receptor and as such is important in restricting unwanted non-specific (bystander) activation of p75 expressing cells. Evidence from both our previous work as well as from the literature is presented to support this hypothesis.
J Mol Cell Immunol 1990
PMID:A regulatory role for the soluble IL-2 receptor via competition with the p75 cell-surface form of the receptor for IL-2. 208 Sep 85

The major protein encoded by the c-myb oncogene in many species has been identified as an unstable, nuclear DNA-binding protein with an apparent molecular mass of 75 to 80 kilodaltons (p75c-myb). Recently, an alternatively spliced form of c-myb-encoded mRNA has been identified in murine cells containing either normal or rearranged c-myb genes. This mRNA includes a new exon, termed E6A, formed through use of cryptic splice sites located in the large intron between c-myb exons vE6 and vE7. E6A is predicted to contribute an internal 121-residue in-frame insertion into a region C terminal of the DNA-binding domain the c-myb-encoded protein. Here we report the identification of an 85-kilodalton (p85c-myb-E6A) protein as the translation product of the alternatively spliced E6A c-myb mRNA. This protein as well as p75c-myb were precipitated with anti-Myb antibodies raised against the conserved DNA-binding region of c-Myb. Proteolytic mapping studies showed that the two proteins are highly related but not identical. However, only the p85 protein reacted with an antiserum prepared against the E6A region expressed in bacteria, demonstrating that p85 but not p75 contains E6A sequences. In addition, the mobilities of both p85 and p75 were increased in myeloid tumor cell lines containing proviral integrations upstream of the 5' coding exons of v-myb, indicating that both proteins are truncated forms of c-Myb expressed from the same disrupted allele. p75c-myb and p85c-myb-E6A were indistinguishable with respect to nuclear localization and protein half-life. Furthermore, both forms of Myb were synthesized continuously throughout the cell cycle in 70Z ore-B cells. The contribution of the E6A domain to c-myb function remains to be elucidated.
Mol Cell Biol 1989 Dec
PMID:A second c-myb protein is translated from an alternatively spliced mRNA expressed from normal and 5'-disrupted myb loci. 268 65

A 75-kilodalton polypeptide has been identified which copurifies with karyoskeletal protein-enriched fractions prepared from Drosophila melanogaster embryos. Results of indirect immunofluorescence experiments suggest that this protein, here designated p75, is primarily associated with puffed regions of larval salivary gland polytene chromosomes. In nonpolytenized Schneider 2 tissue culture cells, p75 appeared to be localized throughout the nuclear interior during interphase. In mitotic cells, p75 was redistributed diffusely. A possible role for karyoskeletal elements in transcriptional regulation is discussed.
Mol Cell Biol 1988 May
PMID:p75, a polypeptide component of karyoskeletal protein-enriched fractions associated with transcriptionally active loci of Drosophila melanogaster polytene chromosomes. 313 49

Interleukin 2 (IL-2) binds to its receptors with three distinct affinities, with Kd values of 10(-11) M (high), 10(-9) M (intermediate) and 10(-8) M (low). IL-2 responding cells express two proteins that bind IL-2, i.e. a 55 x 10(3) Mr protein (p55 or L chain), which has classically been known as the IL-2 receptor and a second 75 x 10(3) Mr chain (p75 or H chain) with intermediate affinity. Experiments were performed to clarify the mechanism of the high-affinity site formation. Crosslinking of human IL-2 with the high-affinity sites of human T lymphocytes yielded a 150 x 10(3) Mr ternary complex consisting of IL-2, L and H chains. The ternary complex with human IL-2 was formed on EL/Tac 3 cells expressing human L and murine H chains, although human IL-2 was unable to bind to the parental EL-4 cell, which does not express human L chain. The high-affinity ternary complex was stable during solubilization and fractionated by gel-filtration chromatography, and the numbers of these complexes were quantified by this method. The number of high-affinity sites on the CT/hR-1 cells, which express the human L, murine L and murine H chains, was almost constant even when either the human or murine L chain was blocked by specific antibodies in agreement with a previous observation. These results indicate that the L and H chains do not form a stable binary complex by themselves and that IL-2 binding induces the formation of the stable high-affinity ternary complex.
Mol Biol Med 1988 Apr
PMID:Molecular mechanism for the formation of the high-affinity complex of interleukin 2 and its receptor. 313 61


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