Literature DB >> 24876415

Selective allosteric antibodies to the insulin receptor for the treatment of hyperglycemic and hypoglycemic disorders.

Hassan Issafras1, Daniel H Bedinger2, John A Corbin2, Ira D Goldfine3, Vinay Bhaskar2, Mark L White2, Paul Rubin2, Patrick J Scannon2.   

Abstract

Many therapeutic monoclonal antibodies act as antagonists to receptors by targeting and blocking the natural ligand binding site (orthosteric site). In contrast, the use of antibodies to target receptors at allosteric sites (distinct from the orthosteric site) has not been extensively studied. This approach is especially important in metabolic diseases in which endogenous ligand levels are dysregulated. Herein, we review our investigations of 3 categories of human monoclonal antibodies that bind allosterically to the insulin receptor (INSR) and affect its activity: XMetA, XMetS and XMetD. XMetA directly activates the INSR either alone or in combination with insulin. XMetS, in contrast, does not directly activate the INSR but markedly enhances the receptor's ability to bind insulin and potentiate insulin signaling. Both XMetA and XMetS are effective in controlling hyperglycemia in mouse models of diabetes. A third allosteric antibody, XMetD, is an inhibitor of INSR signaling. This antibody reverses insulin-induced hypoglycemia in a mouse model of hyperinsulinemia. These studies indicate, therefore, that allosteric antibodies to INSR can modulate its signaling and correct conditions of glucose dysregulation. These studies also raise the possibility that the use of allosteric antibodies can be expanded to other receptors for the treatment of metabolic disorders.
© 2014 Diabetes Technology Society.

Entities:  

Keywords:  allosteric; blood glucose; diabetes; glycemic disorders; hyperinsulinemia; monoclonal antibody

Mesh:

Substances:

Year:  2014        PMID: 24876415      PMCID: PMC4764207          DOI: 10.1177/1932296814529886

Source DB:  PubMed          Journal:  J Diabetes Sci Technol        ISSN: 1932-2968


  42 in total

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