The neu oncogene encodes an epidermal growth factor receptor-related protein

The neu oncogene is repeatedly activated in neuro- and glioblastomas derived by transplacental mutagenesis of the BDIX strain of rat with ethylnitrosourea. Foci induced by the DNAs from such tumours on NIH 3T3 cells contain the neu oncogene and an associated phosphoprotein of relative molecular mass 185,000 (p185). Previous work has shown that the neu gene is related to, but distinct from, the gene encoding the EGF receptor (c-erb-B). Here we describe a neu complementary DNA clone isolated from a cell line transformed by this oncogene; the clone has biological activity in a focus-forming assay. The nucleotide sequence of this clone predicts a 1,260-amino-acid transmembrane protein product similar in overall structure to the EGF receptor. We found that 50% of the predicted amino acids of neu and the EGF receptor are identical; greater than 80% of the amino acids in the tyrosine kinase domain are identical. Our results suggest strongly that the neu gene encodes the receptor for an as yet unidentified growth factor.     

Structural alteration of viral homologue of receptor proto-oncogene fms at carboxyl terminus

A role for proto-oncogenes in the regulation and modulation of cell proliferation has been suggested by the findings that the B-chain of platelet-derived growth factor (PDGF) is encoded by the proto-oncogene sis and that the erb-B oncogene product is a truncated form of the epidermal growth factor (EGF) receptor. Furthermore, the product of the proto-oncogene fms (c-fms) may be related or identical to the receptor for macrophage colony-stimulating factor (CSF-1). v-fms is the transforming gene of the McDonough strain of feline sarcoma virus (SM-FeSV) and belongs to the family of src-related oncogenes which have tyrosine-specific kinase activity. Furthermore, nucleotide sequence analysis of the v-fms gene product revealed topological properties of a cell-surface receptor protein. To elucidate the features involved in the conversion of a normal cell-surface receptor gene into an oncogenic one, we have now determined the complete nucleotide sequence of a human c-fms complementary DNA. The 972-amino-acid c-fms protein has an extracellular domain, a membrane-spanning region, and a cytoplasmic tyrosine protein kinase domain. Comparison of the feline v-fms and human c-fms sequences reveals that the proteins share extensive homology but have different carboxyl termini.     

Leukocytes express a novel gene encoding a putative transmembrane protein-kinase devoid of an extracellular domain

Tyrosine-specific phosphorylation of proteins is a key to the control of diverse pathways leading to cell growth and differentiation. The protein-tyrosine kinases described to date are either transmembrane proteins having an extracellular ligand binding domain or cytoplasmic proteins related to the v-src oncogene. Most of these proteins are expressed in a wide variety of cells and tissues; few are tissue-specific. Previous studies have suggested that lymphokines could mediate haematopoietic cell survival through their action on glucose transport, regulated in some cells through the protein-tyrosine kinase activity of the insulin receptor. We have investigated the possibility that insulin receptor-like genes are expressed specifically in haematopoietic cells. Using the insulin receptor-related avian sarcoma oncogene v-ros as a probe, we have isolated and characterized the complementary DNA of a novel gene, ltk (leukocyte tyrosine kinase). The ltk gene is expressed mainly in leukocytes, is related to several tyrosine kinase receptor genes of the insulin receptor family and has unique structural properties: it apparently encodes a transmembrane protein devoid of an extracellular domain. Two candidate ltk proteins have been identified with antibodies in the mouse thymus, and have properties indicating that they are integral membrane proteins. These features suggest that ltk could be a signal transduction subunit for one or several of the haematopoietic receptors.     

Transforming potential of the c-fms proto-oncogene (CSF-1 receptor)

The c-fms proto-oncogene encodes a transmembrane glycoprotein that is probably identical to the receptor for the macrophage colony stimulating factor, CSF-1. Forty C-terminal amino acids of the normal receptor are replaced by 11 unrelated residues in the feline v-fms oncogene product, deleting a C-terminal tyrosine residue (Tyr969) whose phosphorylation might negatively regulate the receptor kinase activity. We show that the human c-fms gene stimulates growth of mouse NIH 3T3 cells in agar in response to human recombinant CSF-1, indicating that receptor transduction is sufficient to induce a CSF-1 responsive phenotype. Although cells transfected with c-fms genes containing either Tyr969 or Phe969 were not transformed, cotransfection of these genes with CSF-1 complementary DNA induced transformation, with c-fms(Phe969) showing significantly more activity than c-fms(Tyr969). In the absence of CSF-1, chimaeric v-fms/c-fms genes encoding the wild-type c-fms C terminus were poorly transforming, whereas chimaeras bearing Phe969 were as transforming as v-fms. Thus, the Phe969 mutation, although not in itself sufficient to induce transformation, activates the oncogenic potential of c-fms in association with an endogenous ligand or in conjunction with mutations elsewhere in the c-fms gene that confer ligand-independent signals for growth.     

Relationship of a putative receptor protein kinase from maize to the S-locus glycoproteins of Brassica

The protein kinase family of enzymes mediates the responses of eukaryotic cells to both inter- and intracellular signals. These enzymes are either serine/threonine-specific or tyrosine-specific. Many of the latter are transmembrane receptors and are important in transduction of extracellular signals across the plasma membrane, whereas few examples of receptor serine kinases have been reported. We have now identified a complementary DNA clone from Zea mays (L.) encoding a putative serine/threonine-specific protein kinase structurally related to the receptor tyrosine kinases. This structural similarity is evidence for a previously undescribed class of transmembrane receptor in higher plants likely to be involved in signal reception and transduction. Furthermore, the catalytic domain of this protein kinase is linked through a transmembrane domain to an extracellular domain similar to that of glycoproteins encoded in the self-incompatibility locus of Brassica which are involved in the self-recognition system between pollen and stigma.     

An N-terminal peptide from p60src can direct myristylation and plasma membrane localization when fused to heterologous proteins

The src gene product, p60src, of Rous sarcoma virus (RSV) is a tyrosine-specific protein kinase which is associated with the plasma membrane of infected cells. Myristic acid is bound in an amide linkage to glycine 2 of p60src. Of the N-terminal 30 kilodaltons of p60src, only amino acids 1-14 are required for myristylation, and myristylation of p60src may be required for its membrane association, and for cell transformation. To test the hypothesis that the first 14 amino acids of p60src contain a recognition sequence for myristylation, we have fused the DNA sequence coding for these amino acids to either the fps gene of the F36 derivative of Fujinami sarcoma virus (FSV), or to the chimpanzee alpha-globin gene. We report here that although the fusion proteins were myristylated, the parental proteins were not, and unlike the non-myristylated F36 p91fps which was not bound to the plasma membrane, the myristylated fusion protein was bound, like p60src. We conclude that the first 14 amino acids of p60src contain a sequence which is sufficient for myristylation, and which may direct proteins to the plasma membrane.     

Protein kinase C phosphorylation of the EGF receptor at a threonine residue close to the cytoplasmic face of the plasma membrane

The receptor for epidermal growth factor (EGF) is a 170,000-180,000 molecular weight single-chain glycoprotein of 1,186 amino acids. Its sequence suggests that it has an external EGF-binding domain, formed by the NH2-terminal 621 amino acids, linked to a cytoplasmic region by a single membrane-spanning segment. In the cytoplasmic portion, starting 50 residues from the membrane, there is a 250-residue stretch similar to the catalytic domain of the src gene family of retroviral tyrosine protein kinases, and, indeed, a tyrosine-specific protein kinase activity intrinsic to the receptor is stimulated when EGF is bound. Increased tyrosine phosphorylation of cellular proteins, detected in A431 cells following EGF binding, may be important in the mitogenic signal pathway. Tumour promoters such as 12-O-tetradecanoyl-phorbol-13-acetate (TPA), counteract this increase, as well as causing loss of a high affinity class of EGF binding sites. The major receptor for TPA has been identified as the serine/threonine-specific Ca2+/phospholipid-dependent diacylglycerol-activated protein kinase, protein kinase C. By substituting for diacylglycerol, TPA stimulates protein kinase C. Protein kinase C phosphorylates purified EGF receptor at specific sites, and this reduces EGF-stimulated tyrosine protein kinase activity. TPA treatment of A431 cells increases serine and threonine phosphorylation of the EGF receptor at the same sites, which suggests that the reduction of EGF receptor kinase activity in TPA-treated cells is a consequence of the receptor's phosphorylation by the kinase. We have attempted to identify these phosphorylation sites and show here that protein kinase C phosphorylates threonine 654 in the human EGF receptor. This threonine is in a very basic sequence nine residues from the cytoplasmic face of the plasma membrane in the region before the protein kinase domain; it is thus in a position to modulate signalling between this internal domain and the external EGF-binding domain.     

EGFR信号转导机制及靶向治疗

综述了EGFR基本结构特征及其介导细胞信号转导的机制,论述了基于EGFR靶向治疗的机理及研究现状。指出,EGFR是最早被发现并研究的RTK家族成员,其蛋白结构分成胞外域、跨膜区与胞内域三部分。EGFR介导细胞信号转导的核心机制是配体EGF与EGFR胞外域结合,通过变构作用与二聚化作用,使胞内域通过反式激活完成对受体末端酪氨酸残基的磷酸化,进而招募下游信号因子完成细胞信号转导过程。质膜结构与组成、EGFR跨膜区的组成及胞外域的有无、EGFR的内吞及泛素依赖性降解过程都调控EGFR细胞信号转导过程。阻断EGFR信号通路可抑制表皮肿瘤细胞成长。EGFR已经成为表皮肿瘤治疗的重要靶点。     

Insulin rapidly stimulates tyrosine phosphorylation of a Mr-185,000 protein in intact cells

Phosphotyrosine-containing proteins are minor components of normal cells which appear to be associated primarily with the regulation of cellular metabolism and growth. The insulin receptor is a tyrosine-specific protein kinase, and one of the earliest detectable responses to insulin binding is activation of this kinase and autophosphorylation of its beta-subunit. Tyrosine autophosphorylation activates the phosphotransferase in the beta-subunit and increases its reactivity toward tyrosine phosphorylation of other substrates. When incubated in vitro with [gamma-32P]ATP and insulin, the purified insulin receptor phosphorylates various proteins on their tyrosine residues. However, so far no proteins other than the insulin receptor have been identified as undergoing tyrosine phosphorylation in response to insulin in an intact cell. Here, using anti-phosphotyrosine antibodies, we have identified a novel phosphotyrosine-containing protein of relative molecular mass (Mr) 185,000 (pp185) which appears during the initial response of hepatoma cells to insulin binding. In contrast to the insulin receptor, pp185 does not adhere to wheat-germ agglutininagarose or bind to anti-insulin receptor antibodies. Phosphorylation of pp185 is maximal within seconds after exposure of the cells to insulin and exhibits a dose-response curve similar to that of receptor autophosphorylation, suggesting that this protein represents the endogenous substrate for the insulin receptor kinase.     

Association of p60c-src with polyoma virus middle-T antigen abrogating mitosis-specific activation.

Polyoma middle-T antigen is required for tumorigenesis in animals and for viral transformation of a variety of cells in culture (reviewed in ref. 1). Middle-T associates with and thereby activates p60c-src, a cellular tyrosine kinase homologous to the oncogene product of Rous sarcoma virus. Activation of p60c-src by middle-T is accompanied both by dephosphorylation of tyrosine 527, a site which negatively regulates src kinase src kinase activity (reviewed in refs 4-6) and by autophosphorylation on tyrosine 416 (refs 7-10). Phosphoprotein p60c-src is subject to cell cycle-specific regulation. It is most active during mitosis and repressed in interphase. Here we report that mitotic p60c-src is dephosphorylated at tyrosine 527. We also show that in cells expressing middle-T, src kinase activity is high both in mitosis and during interphase. An oncogenic mutant src protein, p60c-src(527F), where tyrosine 527 is substituted by phenylalanine, is also highly active in all phases of the cell cycle.     

Phosphorylation of GAP and GAP-associated proteins by transforming and mitogenic tyrosine kinases.

The critical pathways through which protein-tyrosine kinases induce cellular proliferation and malignant transformation are not well defined. As microinjection of antibodies against p21ras can block the biological effects of both normal and oncogenic tyrosine kinases, it is likely that they require functional p21ras to transmit their mitogenic signals. No biochemical link has been established, however, between tyrosine kinases and p21ras. We have identified a non-catalytic domain of cytoplasmic tyrosine kinases, SH2, that regulates the activity and specificity of the kinase domain. The presence of two adjacent SH2 domains in the p21ras GTPase-activating protein (GAP) indicates that GAP might interact directly with tyrosine kinases. Here we show that GAP, and two co-precipitating proteins of relative molecular masses 62,000 and 190,000 (p62 and p190) are phosphorylated on tyrosine in cells that have been transformed by cytoplasmic and receptor-like tyrosine kinases. The phosphorylation of these polypeptides correlates with transformation in cells expressing inducible forms of the v-src or v-fps encoded tyrosine kinases. Furthermore, GAP, p62 and p190 are also rapidly phosphorylated on tyrosine in fibroblasts stimulated with epidermal growth factor. Our results suggest a mechanism by which tyrosine kinases might modify p21ras function, and implicate GAP and its associated proteins as targets of both oncoproteins and normal growth factor receptors with tyrosine kinase activity. These data support the idea that SH2 sequences direct the interactions of cytoplasmic proteins involved in signal transduction.     

犬c-yes原癌基因

利用Ｓｏｕｔｈｅｎ ｂｌｏｔ和ＤＮＡ碱基序列分析技术，对正常犬ｃ－ｙｅｓ原癌基因的颁布规律及ｃ－ｙｅｓ ｃＤＮＡ的结构进行了分析。结果表明。犬体细胞染色质中ｃ－ｙｅｓ基因均一分布，ｃ－ｙｅｓ ｃＤＮＡ开放阅读框架有５３９个氨基酸组成，分子量为６０，３６８Ｄａ，与人和鸡ｐ６１＾ｃ－ｙｅｓ同源性分别为９５．９％和９０．４％。该产物具有ｓｒｃ（ＳＨ）３，ＳＨ２同源区和酷氨酸激酶序列，该序列与人和鸡的同源     

Anti-pp60src antibodies are substrates for EGF-stimulated protein kinase

Epidermal growth factor (EGF) stimulates phosphorylation of its own receptor at a tyrosine residue. Similarly, the viral gene product pp60src, which is responsible for cellular transformation by avian sarcoma virus (ASV), phosphorylates itself and immunoglobulin directed against pp60src at tyrosine residues. This unusual site of phosphorylation catalysed by two membrane-associated protein kinases involved in growth control prompted us to study the immunological relatedness of the EGF-stimulated protein kinase and the pp60src. Using anti-pp60src antisera, we attempted to immunoprecipitate the EGF-stimulated protein kinase solubilized from plasma membranes. We report here that neither the EGF-stimulated kinase nor the EGF receptor were immunoprecipitable by anti-pp60src sera. However, anti-pp60src IgG served as a specific substrate for the EGF-stimulated kinase, suggesting a close similarity between the EGF-stimulated kinase and pp60src.     

ATP-stimulated interaction between epidermal growth factor receptor and supercoiled DNA

The receptor for epidermal growth factor (EGF) has been identified as a transmembrane glycoprotein that has tyrosine-specific kinase activity. The kinase activity of the receptor is enhanced in the presence of EGF (or related peptides), and the phosphorylation of a number of substrates, as well as autophosphorylation of the receptor, has been reported. Analogous findings have been described for the insulin receptor and the receptor for platelet-derived growth factor (PDGF). Thus, a number of hormone receptors and several viral transforming proteins appear to share the highly unusual property of tyrosine-specific kinase activity. Nevertheless, the specific relationship between tyrosine kinase activity and the control of cell growth and replication is unknown. It is known that after the initial binding of EGF to the plasma membrane, the hormone together with its receptor is rapidly internalized in endocytic vesicles and the hormone is eventually degraded in lysosomes. It is possible that the function of EGF is simply to stimulate internalization of its receptor, and that as a result of its altered location the receptor is able to phosphorylate a cytoplasmic component or even interact directly with a nuclear component. We now report that the purified receptor for EGF is able to interact with and nick supercoiled double-stranded DNA in an ATP-stimulated manner.     

No T-cell tyrosine protein kinase signalling or calcium mobilization after CD4 association with HIV-1 or HIV-1 gp120.

The T lymphocyte surface protein CD4 is an integral membrane glycoprotein noncovalently associated with the tyrosine protein kinase p56lck. In normal T cells, surface association of CD4 molecules with other CD4 molecules or other T-cell surface proteins, such as the T-cell antigen receptor, stimulates the activity of the p56lck tyrosine kinase, resulting in the phosphorylation of various cellular proteins at tyrosine residues. Thus, the signal transduction in T cells generated through the surface engagement of CD4 is similar to that observed for the class of growth factor receptors possessing endogenous tyrosine kinase activity. As CD4 is also the cellular receptor for the human immunodeficiency virus (HIV), binding of the virus or gp120 (the virus surface protein responsible for specific CD4+ T-cell association) could mimic the types of immunological interactions that have previously been found to stimulate p56lck and trigger T-cell activation pathways. We have evaluated this possibility and report here that binding of HIV-1 or the virus glycoprotein gp120 to CD4+ human T cells fails to elicit detectable p56lck-dependent tyrosine kinase activation and signalling, alterations in the composition of cellular phosphotyrosine-containing proteins, or changes in intracellular Ca2+ concentration.     

Association of phosphatidylinositol kinase activity with polyoma middle-T competent for transformation

Polyoma middle-T antigen is required for viral transformation of cultured cells and for tumorigenesis in animals. Like many other transforming gene products, middle-T is bound to the membrane and has an associated tyrosine kinase activity in vitro. This activity seems to result from the interaction of middle-T with pp60c-src, the cellular homologue of the transforming gene product of the Rous sarcoma virus, pp60v-src (refs 3-5). Both pp60v-src (ref. 6) and another retrovirus transforming gene product, pp68v-ros (ref. 7) were shown recently to have an associated phosphatidylinositol (PI) kinase activity in vitro and to increase PI turnover in vivo. These results suggest that viral transformation may be directly connected to a complex network of second messengers generated from PI turnover. Here, we assayed for PI kinase activity in immunoprecipitates made with middle-T- or pp60c-src-specific antisera of cells infected with polyoma virus. A PI kinase activity was detected in those immunoprecipitates which contained middle-T. Studies of mutants of middle-T defective in transformation indicate a close correlation between PI kinase activity and transformation.     

The let-23 gene necessary for Caenorhabditis elegans vulval induction encodes a tyrosine kinase of the EGF receptor subfamily

The let-23 gene is required for induction of the Caenorhabditis elegans vulva. It is shown that let-23 encodes a putative tyrosine kinase of the epidermal growth factor receptor subfamily. Thus, let-23 might encode the receptor for the inductive signal required for vulval development. Because let-23 acts upstream of let-60 ras in the vulval determination pathway, the identification of the let-23 product provides support for a link in vivo between tyrosine kinase growth factor receptors and ras proteins in a pathway of cell-type determination.     

Specific dephosphorylation of membrane proteins in Rous sarcoma virus-transformed chick embryo fibroblasts

Chick embryo fibroblasts (CEF) infected with avian sarcoma virus become rapidly transformed as a result of expression of the viral src gene in the form of a single polypeptide of molecular weight 60,000 (pp60src) with protein kinase activity and suggested preferential association with the plasma membrane. Studies with normal avian and mammalian cells have revealed the presence of an antigenically related protein which seems to have similar kinase activity, but which is present at less than 1% of the levels of virally induced src protein found in transformed cells. As dynamic phosphorylation is important in numerous regulatory processes, the phenotypic expression of transformation may arise from an imbalance in one or more regulatory mechanisms that are controlled by protein phosphorylation. The cell membrane is affected during transformation, including its phosphotransferase activity. The latter has been shown using isolated membrane fractions whose properties may be changed during preparation. Therefore, we have compared the phosphorylation state of individual membrane proteins found in intact normal and RSV-transformed cells and report here the identification of two heavily phosphorylated, acidic membrane proteins in normal CEF which are specifically dephosphorylated on transformation by wild-type and temperature-sensitive Rous sarcoma viruses.