A 3-BASEPAIR IN-FRAME DELETION (DELTA-LEU(999)) IN EXON-17 OF THE INSULIN-RECEPTOR GENE IN A FAMILY WITH INSULIN-RESISTANCE

We studied a woman with acanthosis nigricans and insulin resistance. The patient's Epstein-Barr virus-transformed lymphocytes revealed slightly decreased insulin binding and markedly decreased insulin-stimulated autophosphorylation of the insulin receptor. The nucleotide sequence analysis of the patient's genomic DNA revealed a 3-basepair in-frame deletion in one allele, resulting in the loss of leucine at position 999 of the insulin receptor (Delta Leu(999)). The messenger ribonucleic acid transcripts from the mutant allele in the patient's lymphocytes were not decreased. Insulin-stimulated autophosphorylation of the insulin receptor from cells expressing Delta Leu(999) mutant insulin receptor complementary DNA was markedly decreased. The proband, her mother, elder brother, and younger brother, who were heterozygous for this mutation, showed moderate or marked hyperinsulinemia during oral glucose tolerance tests. Although fasting glucose levels were normal and fasting insulin values were preserved in all subjects with the mutation for the 8-yr period of observation, a tendency of progressive increase in postload glucose levels was observed. These results suggest that the Delta Leu(999) mutation, which reduces tyrosine kinase activity, was responsible for insulin resistance and contributed to postload hyperglycemia.