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Src Phosphorylation of the Epidermal Growth Factor Receptor at Novel Sites Mediates Receptor Interaction with Src and P85
Following ligand binding, the epidermal growth factor receptor (EGF-R) autophosphorylates itself on tyrosine residues located in its carboxyl terminus; in vitro , three sites are highly phosphorylated, while two other sites are phosphorylated to lesser extents. In the presence of the Src protein-tyr...
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| Published in: | The Journal of biological chemistry 1995-06, Vol.270 (26), p.15591 |
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| Language: | English |
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| container_issue | 26 |
| container_start_page | 15591 |
| container_title | The Journal of biological chemistry |
| container_volume | 270 |
| creator | David R. Stover Michael Becker Janis Liebetanz Nicholas B. Lydon |
| description | Following ligand binding, the epidermal growth factor receptor (EGF-R) autophosphorylates itself on tyrosine residues located
in its carboxyl terminus; in vitro , three sites are highly phosphorylated, while two other sites are phosphorylated to lesser extents. In the presence of the
Src protein-tyrosine kinase, in vitro phosphorylation of the minor autophosphorylation sites was increased, and four additional residues were phosphorylated. Following
EGF stimulation, two (Tyr-891 and Tyr-920) were found to be phosphorylated in a colorectal cell line (DLD-1) and in a breast
tumor cell line (MCF7). The remaining in vitro sites were not found to be highly phosphorylated in vivo . The sequences surrounding Tyr-891 and Tyr-920 match the reported consensus binding sequences for the SH2 domains of Src
and the regulatory domain of phosphatidylinositol 3-kinase (p85α), respectively. In vitro , both of these proteins were found to bind to Src-phosphorylated EGF-R with 100-fold greater affinity than to autophosphorylated EGF-R, demonstrating that Src creates new sites for SH2 binding. Furthermore,
Csk-inactivated Src was activated by interaction with Src-phosphorylated EGF-R but not by autophosphorylated EGF-R. Upon EGF
treatment of MCF7 or three colorectal carcinoma cell lines (WiDr, DLD-1, and LS174T), the EGF-R coimmunoprecipitated with
both p85α and Src. Evidence is also presented that suggests that an EGF-R-related protein, ErbB2, may be involved in similar
Src-mediated interactions. These data demonstrate that EGF-R is phosphorylated in vivo at non-autophosphorylation sites and that these novel sites can act as docking sites for Src, P85α, and potentially other
SH2-containing proteins. In addition, the data suggest a tyrosine phosphatase-independent mechanism for the elevation of Src
activity in cells exposed to growth factors. Overexpression of Src, EGF-R, and/or ErbB2 in breast and colorectal tumor cells
suggests the potential that such interactions may contribute to the transformed phenotype of these carcinomas. |
| doi_str_mv | 10.1074/jbc.270.26.15591 |
| format | article |
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in its carboxyl terminus; in vitro , three sites are highly phosphorylated, while two other sites are phosphorylated to lesser extents. In the presence of the
Src protein-tyrosine kinase, in vitro phosphorylation of the minor autophosphorylation sites was increased, and four additional residues were phosphorylated. Following
EGF stimulation, two (Tyr-891 and Tyr-920) were found to be phosphorylated in a colorectal cell line (DLD-1) and in a breast
tumor cell line (MCF7). The remaining in vitro sites were not found to be highly phosphorylated in vivo . The sequences surrounding Tyr-891 and Tyr-920 match the reported consensus binding sequences for the SH2 domains of Src
and the regulatory domain of phosphatidylinositol 3-kinase (p85α), respectively. In vitro , both of these proteins were found to bind to Src-phosphorylated EGF-R with 100-fold greater affinity than to autophosphorylated EGF-R, demonstrating that Src creates new sites for SH2 binding. Furthermore,
Csk-inactivated Src was activated by interaction with Src-phosphorylated EGF-R but not by autophosphorylated EGF-R. Upon EGF
treatment of MCF7 or three colorectal carcinoma cell lines (WiDr, DLD-1, and LS174T), the EGF-R coimmunoprecipitated with
both p85α and Src. Evidence is also presented that suggests that an EGF-R-related protein, ErbB2, may be involved in similar
Src-mediated interactions. These data demonstrate that EGF-R is phosphorylated in vivo at non-autophosphorylation sites and that these novel sites can act as docking sites for Src, P85α, and potentially other
SH2-containing proteins. In addition, the data suggest a tyrosine phosphatase-independent mechanism for the elevation of Src
activity in cells exposed to growth factors. Overexpression of Src, EGF-R, and/or ErbB2 in breast and colorectal tumor cells
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in its carboxyl terminus; in vitro , three sites are highly phosphorylated, while two other sites are phosphorylated to lesser extents. In the presence of the
Src protein-tyrosine kinase, in vitro phosphorylation of the minor autophosphorylation sites was increased, and four additional residues were phosphorylated. Following
EGF stimulation, two (Tyr-891 and Tyr-920) were found to be phosphorylated in a colorectal cell line (DLD-1) and in a breast
tumor cell line (MCF7). The remaining in vitro sites were not found to be highly phosphorylated in vivo . The sequences surrounding Tyr-891 and Tyr-920 match the reported consensus binding sequences for the SH2 domains of Src
and the regulatory domain of phosphatidylinositol 3-kinase (p85α), respectively. In vitro , both of these proteins were found to bind to Src-phosphorylated EGF-R with 100-fold greater affinity than to autophosphorylated EGF-R, demonstrating that Src creates new sites for SH2 binding. Furthermore,
Csk-inactivated Src was activated by interaction with Src-phosphorylated EGF-R but not by autophosphorylated EGF-R. Upon EGF
treatment of MCF7 or three colorectal carcinoma cell lines (WiDr, DLD-1, and LS174T), the EGF-R coimmunoprecipitated with
both p85α and Src. Evidence is also presented that suggests that an EGF-R-related protein, ErbB2, may be involved in similar
Src-mediated interactions. These data demonstrate that EGF-R is phosphorylated in vivo at non-autophosphorylation sites and that these novel sites can act as docking sites for Src, P85α, and potentially other
SH2-containing proteins. In addition, the data suggest a tyrosine phosphatase-independent mechanism for the elevation of Src
activity in cells exposed to growth factors. Overexpression of Src, EGF-R, and/or ErbB2 in breast and colorectal tumor cells
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in its carboxyl terminus; in vitro , three sites are highly phosphorylated, while two other sites are phosphorylated to lesser extents. In the presence of the
Src protein-tyrosine kinase, in vitro phosphorylation of the minor autophosphorylation sites was increased, and four additional residues were phosphorylated. Following
EGF stimulation, two (Tyr-891 and Tyr-920) were found to be phosphorylated in a colorectal cell line (DLD-1) and in a breast
tumor cell line (MCF7). The remaining in vitro sites were not found to be highly phosphorylated in vivo . The sequences surrounding Tyr-891 and Tyr-920 match the reported consensus binding sequences for the SH2 domains of Src
and the regulatory domain of phosphatidylinositol 3-kinase (p85α), respectively. In vitro , both of these proteins were found to bind to Src-phosphorylated EGF-R with 100-fold greater affinity than to autophosphorylated EGF-R, demonstrating that Src creates new sites for SH2 binding. Furthermore,
Csk-inactivated Src was activated by interaction with Src-phosphorylated EGF-R but not by autophosphorylated EGF-R. Upon EGF
treatment of MCF7 or three colorectal carcinoma cell lines (WiDr, DLD-1, and LS174T), the EGF-R coimmunoprecipitated with
both p85α and Src. Evidence is also presented that suggests that an EGF-R-related protein, ErbB2, may be involved in similar
Src-mediated interactions. These data demonstrate that EGF-R is phosphorylated in vivo at non-autophosphorylation sites and that these novel sites can act as docking sites for Src, P85α, and potentially other
SH2-containing proteins. In addition, the data suggest a tyrosine phosphatase-independent mechanism for the elevation of Src
activity in cells exposed to growth factors. Overexpression of Src, EGF-R, and/or ErbB2 in breast and colorectal tumor cells
suggests the potential that such interactions may contribute to the transformed phenotype of these carcinomas.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>7797556</pmid><doi>10.1074/jbc.270.26.15591</doi></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 0021-9258 |
| ispartof | The Journal of biological chemistry, 1995-06, Vol.270 (26), p.15591 |
| issn | 0021-9258 1083-351X |
| language | eng |
| recordid | cdi_highwire_biochem_270_26_15591 |
| source | ScienceDirect (Online service) |
| title | Src Phosphorylation of the Epidermal Growth Factor Receptor at Novel Sites Mediates Receptor Interaction with Src and P85 |
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