Vinay Bhaskar scite author profile

Many patients with diabetes mellitus (both type 1 and type 2) require therapy to maintain normal fasting glucose levels. To develop a novel treatment for these individuals, we used phage display technology to target the insulin receptor (INSR) complexed with insulin and identified a high affinity, allosteric, human monoclonal antibody, XMetA, which mimicked the glucoregulatory, but not the mitogenic, actions of insulin. Biophysical studies with cultured cells expressing human INSR demonstrated that XMetA acted allosterically and did not compete with insulin for binding to its receptor. XMetA was found to function as a specific partial agonist of INSR, eliciting tyrosine phosphorylation of INSR but not the IGF-IR. Although this antibody activated metabolic signaling, leading to enhanced glucose uptake, it neither activated Erk nor induced proliferation of cancer cells. In an insulin resistant, insulinopenic model of diabetes, XMetA markedly reduced elevated fasting blood glucose and normalized glucose tolerance. After 6 weeks, significant improvements in HbA1c, dyslipidemia, and other manifestations of diabetes were observed. It is noteworthy that hypoglycemia and weight gain were not observed during these studies. These studies indicate, therefore, that allosteric monoclonal antibodies have the potential to be novel, ultra-long acting, agents for the regulation of hyperglycemia in diabetes.

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XMetA, an allosteric monoclonal antibody to the insulin receptor, improves glycaemic control in mice with diet‐induced obesity

Bhaskar

Lau

Goldfine

et al. 2012

Diabetes Obesity Metabolism

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XMetA, a high-affinity, fully human monoclonal antibody, allosterically binds to and activates the insulin receptor (INSR). Previously, we found that XMetA normalized fasting glucose and glucose tolerance in insulinopenic mice. To determine whether XMetA is also beneficial for reducing hyperglycaemia due to the insulin resistance of obesity, we have now evaluated XMetA in hyperinsulinemic mice with diet-induced obesity. XMetA treatment of these mice normalized fasting glucose for 4 weeks without contributing to weight gain. XMetA also corrected glucose tolerance and improved non-high density lipoprotein cholesterol. These studies indicate, therefore, that monoclonal antibodies that allosterically activate the INSR, such as XMetA, have the potential to be novel agents for the treatment of hyperglycaemia in conditions associated with the insulin resistance of obesity.

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Selective Allosteric Antibodies to the Insulin Receptor for the Treatment of Hyperglycemic and Hypoglycemic Disorders

Issafras

Bedinger

Corbin

et al. 2014

J Diabetes Sci Technol

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Recombinant monoclonal antibodies, by blocking cellular pathways that are dysregulated, are powerful targeted therapeutics for certain severe diseases. 1-2 However, these cellular pathways, when functioning normally, also have important roles in normal physiology. Therefore successful treatment of these diseases may require modulation, rather than complete inhibition, of signaling pathways to restore a normal physiological state with a potentially low side-effect profile. Monoclonal antibodies also have the potential to treat disease states by either stimulating or enhancing biological signaling pathways. This class of antibodies has the potential to maintain the spatial and temporal aspects of endogenous ligands such as hormones, cytokines, and neurotransmitters. The site on receptors at which the endogenous ligand binds is defined as the orthosteric site (Figure 1A). Sites on the receptor at which nonligand molecules bind are termed allosteric sites. 1 Regulation of receptor activity by molecules binding to allosteric sites has been recognized as common mechanism for the control of enzyme activity and protein function. 3 We previously described a new approach to target disease using an allosteric antibody approach based on the modulation of ligand-receptor binding kinetics. 2 Both allosteric and orthosteric antibodies can induce conformational changes in receptors that may markedly activate or modulate receptor function. This approach has been previously employed to regulate receptors using small molecules. 3 Allosteric antibodies have the potential to bind and regulate receptors more selectively than orthosteric antibodies (Figure 1). This selectivity is due to lower sequence and structural homology at allosteric sites relative to orthosteric sites. 4,5 This selectivity of allosteric molecules is particularly useful for targeting closely related receptors that bind to similar natural ligands. Moreover, because of their noncompetitive nature 529886D STXXX10.

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Improved Glucose Metabolism In Vitro and In Vivo by an Allosteric Monoclonal Antibody That Increases Insulin Receptor Binding Affinity

et al. 2014

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Previously we reported studies of XMetA, an agonist antibody to the insulin receptor (INSR). We have now utilized phage display to identify XMetS, a novel monoclonal antibody to the INSR. Biophysical studies demonstrated that XMetS bound to the human and mouse INSR with picomolar affinity. Unlike monoclonal antibody XMetA, XMetS alone had little or no agonist effect on the INSR. However, XMetS was a strong positive allosteric modulator of the INSR that increased the binding affinity for insulin nearly 20-fold. XMetS potentiated insulin-stimulated INSR signaling ∼15-fold or greater including; autophosphorylation of the INSR, phosphorylation of Akt, a major enzyme in the metabolic pathway, and phosphorylation of Erk, a major enzyme in the growth pathway. The enhanced signaling effects of XMetS were more pronounced with Akt than with Erk. In cultured cells, XMetS also enhanced insulin-stimulated glucose transport. In contrast to its effects on the INSR, XMetS did not potentiate IGF-1 activation of the IGF-1 receptor. We studied the effect of XMetS treatment in two mouse models of insulin resistance and diabetes. The first was the diet induced obesity mouse, a hyperinsulinemic, insulin resistant animal, and the second was the multi-low dose streptozotocin/high-fat diet mouse, an insulinopenic, insulin resistant animal. In both models, XMetS normalized fasting blood glucose levels and glucose tolerance. In concert with its ability to potentiate insulin action at the INSR, XMetS reduced insulin and C-peptide levels in both mouse models. XMetS improved the response to exogenous insulin without causing hypoglycemia. These data indicate that an allosteric monoclonal antibody can be generated that markedly enhances the binding affinity of insulin to the INSR. These data also suggest that an INSR monoclonal antibody with these characteristics may have the potential to both improve glucose metabolism in insulinopenic type 2 diabetes mellitus and correct compensatory hyperinsulinism in insulin resistant conditions.

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Vinay Bhaskar

Monoclonal antibodies targeting IL-1 beta reduce biomarkers of atherosclerosis in vitro and inhibit atherosclerotic plaque formation in Apolipoprotein E-deficient mice

A Fully Human, Allosteric Monoclonal Antibody That Activates the Insulin Receptor and Improves Glycemic Control

XMetA, an allosteric monoclonal antibody to the insulin receptor, improves glycaemic control in mice with diet‐induced obesity

Selective Allosteric Antibodies to the Insulin Receptor for the Treatment of Hyperglycemic and Hypoglycemic Disorders

Improved Glucose Metabolism In Vitro and In Vivo by an Allosteric Monoclonal Antibody That Increases Insulin Receptor Binding Affinity

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