The tyrosine kinase of the insulin receptor can be activated by trypsin treatment. The concomitant abolition of insulin binding has been postulated to result from proteolytic destruction of the receptor. A discrepancy between the decrease in insulin binding and receptor immunoreactivity after trypsin treatment led us to investigate more closely the structure of the trypsin-treated receptor. After trypsin treatment of the CHOT cell line, which over-expresses transfected human insulin receptors, insulin binding was significantly decreased, but reactivity with five alpha-subunit monoclonal antibodies was either unaffected or only moderately decreased, indicating that the alpha-subunit was substantially intact. Examination of receptor structure after trypsin treatment, receptor autophosphorylation and gel electrophoresis revealed a single band at 110 kDa in non-reduced gels, comprising a small fragment (21 kDa) of the alpha-subunit linked to the beta-subunit by class II disulphides. When the receptor was radio-labelled with 125I, two additional alpha-subunit bands of 142 kDa and 81 kDa (composed of identical reduced bands) were observed on non-reduced gels, which contained disulphide-linked (class I) fragments. All fragments could be precipitated by antibodies to both alpha- and beta-subunits. However, only antibodies directed towards the N-terminus of the receptor could immunoblot trypsin-treated fragments. Thus activation of the receptor tyrosine kinase by trypsin occurs after cleavage, but not loss of the alpha-subunit. This finding has implications for the mechanism of transmembrane activation of the receptor kinase by insulin.
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