Abstract
In some patients with genetic forms of extreme insulin resistance, the cause of insulin resistance is a marked (greater than or equal to 90%) reduction in the number of insulin receptors on the cell surface. In the present work, we describe studies of insulin receptor biosynthesis in Epstein-Barr virus (EBV)-transformed lymphocytes from three patients (A-1, A-5, and A-8) with type A extreme insulin resistance. Insulin receptors are composed of two major glycoprotein subunits (apparent molecular weight [Mr] of 135 and 95 kD), which are both derived from a common precursor molecule with Mr of 190 kD. In one patient (A-1), there was a marked reduction in the biosynthesis of both the 190-kD precursor and the mature receptor. Thus, in this patient, the defect appears to occur early in the biosynthetic pathway (i.e., before the synthesis of the 190-kD precursor). In contrast, in two sisters (A-5 and A-8) with type A extreme insulin resistance, biosynthesis of the 190-kD precursor proceeds at a normal rate. However, there appears to be a defect subsequent to the biosynthesis of the 190-kD precursor, but before the insertion of the mature receptor in the plasma membrane. Our observations suggest the existence of at least two distinct types of biosynthetic defects which may give rise to a marked reduction in the number of insulin receptors on the cell surface. In addition, for comparison, we have studied receptor biosynthesis in cultured EBV lymphocytes from a fourth patient (A-7) with type A extreme insulin resistance. Although the cells of patient A-7 have a normal number of insulin receptors, we have detected subtle abnormalities in the posttranslational processing of the insulin receptor precursor, which may be a biochemical marker for a postbinding defect that causes insulin resistance in this patient.
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