| Abstract: | The epidermal growth factor (EGF) and erbB-2 receptors are structurally related membrane-bound tyrosine kinases. While these proteins exhibit close sequence homology, 50% overall and 80% in the tyrosine kinase domains, they respond very differently to heat stress. In NIH-3T3 or NR6 cells transfected with wild-type EGF-R and incubated at 37°C or heat shocked at 46°C, EGF binds to its receptor and stimulates receptor autophosphorylation to equivalent extents. At 46°C, however, the basal tyrosine kinase activity of the wild-type erbB-2 receptor is rapidly lost. When cells containing chimeric receptors composed of the EGF-R extracellular domain and intracellular domain of erbB-2 were heat stressed, 125I-EGF bound to the receptors, but did not stimulate receptor autophosphorylation. The decline in EGF-stimulated chimeric erbB-2 receptor autophosphorylation is dependent on the length of heat shock, with nearly 100% of the kinase activity lost after 60 min at 46°C. The loss of chimeric receptor erbB-2 kinase activity is not due to degradation of receptor protein, nor is it attributable to a specific transmembrane domain from either the EGF or erbB-2 receptors. Sensitivity of erbB-2 to heat stress is also not a result of denaturation of this receptor's carboxy-terminal domain. Insertion of the erbB-2 tyrosine kinase domain into the EGF-R confers heat stress sensitivity to the resultant chimeric receptor. Thus, although the EGF-R and erbB-2 kinase domains show a high degree of homology, the secondary/tertiary structures of these domains would seem to be stabilized in distinct manners. © 1993 Wiley-Liss, Inc. |
