Objective: Chinese hamster ovary (CHO) cells transfected with human engineered insulin receptor (IR) cDNA to mutate Cys 860 to Ser (CHO-IR(C860S)) showed a defective insulin internalization without affecting insulin binding and IR autophosphorylation. Moreover, this mutation reduces insulin receptor substrate (IRS)-1 tyrosine phosphorylation and insulin-induced metabolic and mitogenic effects. Altogether, these observations support a role of the extracellular domain of IR beta-subunit in insulin and receptor intracellular targeting as well as in insulin signaling.
Design and methods: This study assesses in more details the effect of IR(C860S) mutation on the trafficking of the insulin-IR complex. In particular, IR internalization, phosphorylation, dissociation and recycling, as well as insulin degradation and retroendocytosis have been investigated in CHO cells overexpressing either wild type (CHO-IR(WT)) or mutated IRs.
Results: the C860S mutation significantly decreases IR internalization both insulin stimulated and constitutive. In spite of a similar dissociation of internalized insulin-IR complex, recycling of internalized IR was significantly faster (half life (t(1/2)): 21 min vs 40 min, P<0.001) and more extensive (P<0.01) for IR(C860S) than for IR(WT). On the other hand, insulin degradation and retroendocytosis were superimposable in both cell lines. As expected, insulin-induced phosphorylation was similar in both IRs, however dephosphorylation was much more rapid and was greater (P<0.01) in CHO-IR(WT) as compared with CHO-IR(C860S) cells.
Conclusions: Transmembrane and intracellular domain of IR seem to be determinants for IR internalization. Now we report that Cys 860 in the IR beta-subunit ectodomain may be of relevance in ensuring a proper internalization and intracellular trafficking of the insulin-IR complex.