A newly developed immunoprecipitation assay, with 125I-labeled highly purified human placental insulin-like growth factor I (IGF-I) receptor, was used to search for IGF-I-receptor antibodies in human sera. Eleven of 141 patient sera tested (7.8%) immunoprecipitated labeled IGF-I receptor. Immunoprecipitation was comparable with sera and IgG prepared from these sera. Seven of the 11 sera (3 of 31 with rheumatic disorders, 3 of 48 with non-insulin-dependent diabetes, and 1 of 52 with insulin-dependent diabetes) failed to inhibit IGF-I binding to human placental membranes and thus contained non-binding-inhibitory IGF-I-receptor antibodies. Their pathophysiological function remained uncertain. The remaining 4 sera (2 of 3 with type B severe insulin resistance, 1 of 7 with polycystic ovary syndrome (PCO), and 1 of 31 with rheumatic disorders) inhibited IGF-I binding. Plasma IGF-I concentrations were elevated (663 and 802 ng/ml, respectively) in 2 patients (1 with PCO and another with systemic lupus erythematosus) with binding-inhibitory IGF-I-receptor antibodies, suggesting IGF-I resistance that was probably mediated by the IGF-I-receptor antibodies. In conclusion, we identified two species of human IGF-I-receptor antibodies. Sera from 7 of 141 patients tested contained IgG autoantibodies that bound to the IGF-I receptor at a locus different from the IGF-I binding site and did not inhibit IGF-I binding. Sera from 4 of 141 patients contained antibodies that bound to the IGF-I receptor at or near the IGF-I binding site, inhibited IGF-I binding, and probably caused IGF-I resistance.
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Original Articles|
December 01 1988
Antibodies to Insulin-Like Growth Factor I Receptors in Diabetes and Other Disorders
Luc Tappy;
Luc Tappy
Department of Medicine, Division of Metabolism/Endocrinology, General Clinical Research Center, Temple University School of Medicine
Philadelphia, Pennsylvania
the Department of Molecular Genetics, Beckman Research Institute of the City of Hope
Duarte, California
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Yoko Fujita-Yamaguchi;
Yoko Fujita-Yamaguchi
Department of Medicine, Division of Metabolism/Endocrinology, General Clinical Research Center, Temple University School of Medicine
Philadelphia, Pennsylvania
the Department of Molecular Genetics, Beckman Research Institute of the City of Hope
Duarte, California
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Thomas R LeBon;
Thomas R LeBon
Department of Medicine, Division of Metabolism/Endocrinology, General Clinical Research Center, Temple University School of Medicine
Philadelphia, Pennsylvania
the Department of Molecular Genetics, Beckman Research Institute of the City of Hope
Duarte, California
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Guenther Boden
Guenther Boden
Department of Medicine, Division of Metabolism/Endocrinology, General Clinical Research Center, Temple University School of Medicine
Philadelphia, Pennsylvania
the Department of Molecular Genetics, Beckman Research Institute of the City of Hope
Duarte, California
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Address correspondence to Guenther Boden, MD, Temple University Health Sciences Center, 3401 North Broad Street, Philadelphia, PA 19140.
Diabetes 1988;37(12):1708–1714
Article history
Received:
October 20 1987
Revision Received:
June 30 1988
Accepted:
June 30 1988
PubMed:
2973422
Citation
Luc Tappy, Yoko Fujita-Yamaguchi, Thomas R LeBon, Guenther Boden; Antibodies to Insulin-Like Growth Factor I Receptors in Diabetes and Other Disorders. Diabetes 1 December 1988; 37 (12): 1708–1714. https://doi.org/10.2337/diab.37.12.1708
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