Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P04626 (
erbB-2
)
5,251
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ca2+-Requiring proteases degrade cytosolic and integral membrane proteins as well as alter, by limited proteolysis, the activity of certain protein kinases. When cells are lysed, a Ca2+-requiring protease degrades the
epidermal growth factor (EGF) receptor
, an integral membrane protein with an intrinsic kinase activity, from its 170-kDa form to a 150-kDa form. This Ca2+-requiring protease has all of the characteristics of
calcium-activated neutral protease
(
CANP
). To show that
CANP
is the protease uniquely responsible for the degradation of the native EGF receptor in vitro,
CANP
was highly purified from beef lung. This affinity purified
CANP
had properties previously described for other CANPs: heterodimer of 80 and 30 kDa; neutral pH optimum; activation by millimolar Ca2+; and inhibition by an endogenous, heat-stable proteinaceous inhibitor, by leupeptin, and by sulfhydryl alkylating agents. Using the EGF receptor labeled by covalent attachment to 125I-EGF, this purified
CANP
quantitatively generated the 150-kDa form from the native receptor in A-431 cell membranes. As with the native receptor, the 150-kDa receptor forms produced by the endogenous Ca2+-requiring protease, by
CANP
, by chymotrypsin, and by elastase were all capable of EGF-stimulated autophosphorylation. When the 150-kDa receptor forms were generated by the three exogenously added proteases, autophosphorylation with [gamma-32P]ATP followed by trypsinization produced 32P-labeled peptides that were not the same. However, the tryptic 32P-labeled peptides from the autophosphorylated 150-kDa receptor form produced by
CANP
or by the endogenous Ca2+-requiring protease were identical. These data indicate that
CANP
is identical to the endogenous Ca2+-requiring protease responsible for producing the autophosphorylating 150-kDa receptor form from the native EGF receptor when cells are lysed.
...
PMID:Calcium-activated neutral protease purified from beef lung: properties and use in defining structure of epidermal growth factor receptors. 299 27
The membranes from epidermoid carcinoma cells (A-431) that were surface iodinated while intact using catalysis by lactoperoxidase and 125I as iodide contain one major labeled protein of Mr = 180,000. This protein is clearly iodinated on the outside of the intact cell because it is not the major protein labeled when isolated membranes are iodinated. This major surface-iodinated protein is almost certainly the
epidermal growth factor (EGF) receptor
, since both have the same Mr and have identical sensitivity to proteases. Both are nearly quantitatively converted from an Mr = 180,000 form to an Mr = 160,000 form by an endogenous
calcium-activated neutral protease
when cells are broken in the presence of calcium. Both are degraded by trypsin only if trypsin has access to the inside of the cell. This latter finding implies that the surface-iodinated EGF receptor spans the plasma membrane. Since the EGF receptor is an autophosphorylating kinase whose activity is enhanced in the presence of EGF, the receptor was labeled and identified using [gamma-32P] ATP. While both iodination and EGF-enhanced phosphorylation occur on tyrosine residues, peptide mapping of the iodinated or phosphorylated Mr = 180,000 band showed that different peptides were being labeled. Since the EGF receptor-kinase spans the plasma membrane, the peptide iodinated on the surface of the intact cell must be different from the peptides that are probably autophosphorylated on the cytoplasmic side of the membrane.
...
PMID:Surface iodination of epidermal growth factor receptors in intact cells. 632 89
