Native avian c-erbB gene expresses a secreted protein product corresponding to the ligand-binding domain of the receptor

N. J. Maihle, T. W. Flickinger, M. A. Raines, M. L. Sanders, H. J. Kung

Research output: Contribution to journalArticle

22 Citations (Scopus)

Abstract

A primer-directed cDNA library was used to obtain cDNA clones corresponding to the 5′ end (i.e., the ligand-binding domain) of the avian c-erbB gene. Bacterial c-erbB fusion proteins were synthesized and used to obtain polyclonal antisera specific for the ligand-binding domain of the avian receptor. These antisera and antisera specific for the carboxyl terminal domain of the chicken c-erbB gene product have been used to study the native protein products of the c-erbB locus in primary cell cultures by in vivo labeling and immunoprecipitation. Our studies reveal that three c-erbB gene products of Mr 300,000, Mr 170,000, and Mr 95,000 are synthesized in uninfected chicken embryo fibroblasts. Only the Mr 300,000 and Mr 170,000 species can be precipitated by using antisera specific for the cytoplasmic domain of the c-erbB product. The 95,000 species is not recognized by the antiserum directed against the carboxyl-terminal domain of c-erbB and is specifically released into the culture medium. Northern transfer studies reveal a lower molecular weight transcript of ≈2.6 kilobases that selectively hybridizes to the ligand-binding domain of the avian c-erbB gene product but does not hybridize with probes specific for the cytoplasmic kinase domain of c-erbB. An additional cDNA clone corresponding to this transcript has been isolated, and its sequence suggests it may arise via alternative processing. Together, these data suggest that a truncated form of this growth factor receptor - i.e., a Mr 95,000 species - is synthesized from a low molecular weight c-erbB transcript that exclusively encodes the ligand-binding domain of the receptor. Secretion of truncated growth factor receptors has been reported recently in several systems, and our results are discussed in the light of these findings.

Original languageEnglish
Pages (from-to)1825-1829
Number of pages5
JournalProceedings of the National Academy of Sciences of the United States of America
Volume88
Issue number5
DOIs
Publication statusPublished - Jan 1 1991
Externally publishedYes

Fingerprint

erbB Genes
Immune Sera
Ligands
Growth Factor Receptors
Proteins
Chickens
Complementary DNA
Clone Cells
Molecular Weight
Primary Cell Culture
Gene Library
Immunoprecipitation
Culture Media
Phosphotransferases
Embryonic Structures
Fibroblasts

Keywords

  • Epidermal growth factor receptor
  • Oncogene
  • Truncated receptors

ASJC Scopus subject areas

  • General

Cite this

Native avian c-erbB gene expresses a secreted protein product corresponding to the ligand-binding domain of the receptor. / Maihle, N. J.; Flickinger, T. W.; Raines, M. A.; Sanders, M. L.; Kung, H. J.

In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 88, No. 5, 01.01.1991, p. 1825-1829.

Research output: Contribution to journalArticle

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abstract = "A primer-directed cDNA library was used to obtain cDNA clones corresponding to the 5′ end (i.e., the ligand-binding domain) of the avian c-erbB gene. Bacterial c-erbB fusion proteins were synthesized and used to obtain polyclonal antisera specific for the ligand-binding domain of the avian receptor. These antisera and antisera specific for the carboxyl terminal domain of the chicken c-erbB gene product have been used to study the native protein products of the c-erbB locus in primary cell cultures by in vivo labeling and immunoprecipitation. Our studies reveal that three c-erbB gene products of Mr 300,000, Mr 170,000, and Mr 95,000 are synthesized in uninfected chicken embryo fibroblasts. Only the Mr 300,000 and Mr 170,000 species can be precipitated by using antisera specific for the cytoplasmic domain of the c-erbB product. The 95,000 species is not recognized by the antiserum directed against the carboxyl-terminal domain of c-erbB and is specifically released into the culture medium. Northern transfer studies reveal a lower molecular weight transcript of ≈2.6 kilobases that selectively hybridizes to the ligand-binding domain of the avian c-erbB gene product but does not hybridize with probes specific for the cytoplasmic kinase domain of c-erbB. An additional cDNA clone corresponding to this transcript has been isolated, and its sequence suggests it may arise via alternative processing. Together, these data suggest that a truncated form of this growth factor receptor - i.e., a Mr 95,000 species - is synthesized from a low molecular weight c-erbB transcript that exclusively encodes the ligand-binding domain of the receptor. Secretion of truncated growth factor receptors has been reported recently in several systems, and our results are discussed in the light of these findings.",
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N2 - A primer-directed cDNA library was used to obtain cDNA clones corresponding to the 5′ end (i.e., the ligand-binding domain) of the avian c-erbB gene. Bacterial c-erbB fusion proteins were synthesized and used to obtain polyclonal antisera specific for the ligand-binding domain of the avian receptor. These antisera and antisera specific for the carboxyl terminal domain of the chicken c-erbB gene product have been used to study the native protein products of the c-erbB locus in primary cell cultures by in vivo labeling and immunoprecipitation. Our studies reveal that three c-erbB gene products of Mr 300,000, Mr 170,000, and Mr 95,000 are synthesized in uninfected chicken embryo fibroblasts. Only the Mr 300,000 and Mr 170,000 species can be precipitated by using antisera specific for the cytoplasmic domain of the c-erbB product. The 95,000 species is not recognized by the antiserum directed against the carboxyl-terminal domain of c-erbB and is specifically released into the culture medium. Northern transfer studies reveal a lower molecular weight transcript of ≈2.6 kilobases that selectively hybridizes to the ligand-binding domain of the avian c-erbB gene product but does not hybridize with probes specific for the cytoplasmic kinase domain of c-erbB. An additional cDNA clone corresponding to this transcript has been isolated, and its sequence suggests it may arise via alternative processing. Together, these data suggest that a truncated form of this growth factor receptor - i.e., a Mr 95,000 species - is synthesized from a low molecular weight c-erbB transcript that exclusively encodes the ligand-binding domain of the receptor. Secretion of truncated growth factor receptors has been reported recently in several systems, and our results are discussed in the light of these findings.

AB - A primer-directed cDNA library was used to obtain cDNA clones corresponding to the 5′ end (i.e., the ligand-binding domain) of the avian c-erbB gene. Bacterial c-erbB fusion proteins were synthesized and used to obtain polyclonal antisera specific for the ligand-binding domain of the avian receptor. These antisera and antisera specific for the carboxyl terminal domain of the chicken c-erbB gene product have been used to study the native protein products of the c-erbB locus in primary cell cultures by in vivo labeling and immunoprecipitation. Our studies reveal that three c-erbB gene products of Mr 300,000, Mr 170,000, and Mr 95,000 are synthesized in uninfected chicken embryo fibroblasts. Only the Mr 300,000 and Mr 170,000 species can be precipitated by using antisera specific for the cytoplasmic domain of the c-erbB product. The 95,000 species is not recognized by the antiserum directed against the carboxyl-terminal domain of c-erbB and is specifically released into the culture medium. Northern transfer studies reveal a lower molecular weight transcript of ≈2.6 kilobases that selectively hybridizes to the ligand-binding domain of the avian c-erbB gene product but does not hybridize with probes specific for the cytoplasmic kinase domain of c-erbB. An additional cDNA clone corresponding to this transcript has been isolated, and its sequence suggests it may arise via alternative processing. Together, these data suggest that a truncated form of this growth factor receptor - i.e., a Mr 95,000 species - is synthesized from a low molecular weight c-erbB transcript that exclusively encodes the ligand-binding domain of the receptor. Secretion of truncated growth factor receptors has been reported recently in several systems, and our results are discussed in the light of these findings.

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