Post-Translational Acquisition of Ligand Binding-and Tyrosine Kinase-Domain Function by the Epidermal Growth Factor and Insulin Receptors

Abstract The epidermal growth factor receptor (EGFR) and insulin receptor undergo slow post-translational modification by which they acquire hormone binding and tyrosine kinase (EGFR) function. The half-time for acquisition of EGF or insulin binding activity is 30-40 min and of tyrosine kinase activity (EGFR), is 10-15 min. Tunicamycin, an inhibitor of N-linked oligosaccharide addition, blocks acquisition of both EGF and insulin binding activity. With EGFR, activation precedes acquisition of resistance to endoglucos-aminidase H (t1/2 75 min), a medial Golgi event. Treatment of active high mannose receptor with endo H generates fully active aglyco-receptor; thus, core oligosaccharide addition is a prerequisite for activation, but not for EGF binding per se. EGFR is activated in and translocated from the endoplasmic reticulum (ER) slowly (t1/2 75 min). Since translocation rate equals the rate for acquisition of endo H resistance, transit from the ER is rate limiting for EGFR maturation. Tunicamycin inhibits exit from the ER parallel to its effect on acquisition of binding activity. Insulin proreceptor, a 210 kDa high-mannose glycopolypeptide, acquires insulin binding function (t1/2 45 min) then is proteolytically cleaved (t1/2 3 hr) into subunits of the mature α2β2 receptor. Modification giving rise to insulin binding activity is due to a conformational change in the binding domain, since human autoimmune antibody recognizes only the active species, while rabbit polyclonal antibody recognizes all forms. Newly-translated EGF proreceptor lacks a functional tyrosine domain capable of autophosphorylation; 30-40 min after translation, while still in