| Abstract: | ![]()
Partial cleavage with trypsin has been used to study the structure of the epidermal growth factor (EGF) receptor purified from human carcinoma cells. Following affinity labeling of the receptor with 125I-EGF or the ATP analogue 5'-p-fluorosulfonyl benzoyl[14C]adenosine, metabolic labeling with [35S]methionine, [3H]glucosamine, or [32P]orthophosphate, or in vitro autophosphorylation with [gamma-32P]ATP, tryptic cleavage defines the following three regions of the 180-kDa receptor protein: 1) a 125-kDa trypsin-resistant domain which contains sites of glycosylation, EGF binding, and an EGF-specific threonine phosphorylation site; 2) an adjacent 40-kDa fragment which contains serine and threonine phosphorylation sites and is further cleaved to a 30-kDa trypsin-resistant domain; and 3) a terminal 15-kDa portion of the receptor that contains the sites of tyrosine phosphorylation and is degraded to small fragments in the presence of trypsin. Both the 125- and 40-kDa regions of the EGF receptor appear to be required for receptor-associated protein kinase activity since separation of these regions by tryptic cleavage abolishes this activity, and both regions are specifically labeled with an ATP affinity analogue, suggesting that both are involved in ATP binding. Additional 63- and 48-kDa phosphorylated fragments are generated upon trypsin treatment of EGF receptor from EGF-treated cells. The potential usefulness of partial tryptic cleavage in studying the EGF receptor and the possible biological function of the 30-kDa trypsin-resistant fragment of the receptor are discussed. |
