Insulin-Like Actions of Vanadium: Potential as a Therapeutic Agent
نویسندگان
چکیده
Vanadium compounds are glucose-lowering agents that are shown to mimic/enhance most of the metabolic actions of insulin both in vitro and in vivo. Several studies have demonstrated that vanadium treatment lowers plasma glucose levels in experimental models of type 1 diabetes and enhances insulin sensitivity in models of type 2 diabetes. Therefore, these compounds have gained attention as candidates for oral therapy in both types of diabetes. Despite numerous studies, the mechanism(s) by which vanadium mediates its metabolic effects in vivo are still not completely understood. The finding that most of the insulin-like effects of vanadium in vitro are observed in the presence of high concentrations of vanadium that are not usually achieved in vivo suggests that these effects of vanadium may not have therapeutic relevance. Also, a growing body of evidence from in vivo studies indicates that enhancing glucose disposal in the peripheral tissues is not an adequate explanation for the glucose lowering effects of vanadium in vivo. Accordingly, recent studies suggest that suppression of hepatic glucose production through inhibition of key gluconeogenic enzymes might have an important role in mediating the glucoregulatory effects of vanadium. Several potential sites in the insulin-signaling pathways, including both receptor and postreceptor mechanisms, have been proposed for the insulin-like effects of vanadium compounds. In this review, we have attempted to discuss the possible molecular mechanism(s) underlying the metabolic effects of vanadium in vivo. J. Trace Elem. Exp. Med. 16:253 267, 2003. 2003 Wiley-Liss, Inc.
منابع مشابه
Does the Relief of Glucose Toxicity Act As a Mediator in Proliferative Actions of Vanadium on Pancreatic Islet Beta Cells in Streptozocin Diabetic Rats?
Background: Data shows vanadium protects pancreatic beta cells (BC) from diabetic animals. Whether this effect is direct or through the relief of glucose toxicity is not clear. This study evaluated the potential effect of oral vanadyl sulfate (vanadium) on glycemic status and pancreatic BC of normal and diabetic rats. Methods: Rats were divided into five groups of normal and diabetic. Diabetes ...
متن کاملVanadium compounds biological actions and potential as pharmacological agents.
Vanadium is an element found in low concentrations in mammals, for which a function remains to be discovered. Over the past century, vanadium compounds have been suggested anecdotally as therapeutic agents for a variety of diseases. The discovery that vanadate inhibits various enzymes, in particular protein tyrosine phosphatases, and mimics many of the biological actions of insulin suggested a ...
متن کاملEffect of vanadium on insulin sensitivity and appetite.
Vanadium, a potent nonselective inhibitor of protein tyrosine phosphatases, has been shown to mimic many of the metabolic actions of insulin both in vivo and in vitro. The mechanism(s) of the effect of vanadium on the decrease in appetite and body weight in Zucker fa/fa rats, an insulin-resistant model, is still unclear. Because insulin may inhibit hypothalamic neuropeptide Y (NPY), which is kn...
متن کاملSoy Isoflavone Genistein Is a Potential Agent for Metabolic Syndrome Treatment: A Narrative Review
Metabolic syndrome has a high prevalence (about 22.4% in adult individuals) in developed countries. Inflammation due to obesity and fat accumulation is the most important factor in the progression of metabolic syndrome. In cells which have a receptor for insulin hormone, inflammatory mediators target the insulin signaling pathway and cause insulin resistance. Peroxisome proliferator-activated r...
متن کاملDalteparin as a Novel Therapeutic Agent to Prevent Diabetic Encephalopathy by Targeting Oxidative Stress and Inflammation
Introduction: Hepcidin is the principal modulator of systemic iron metabolism, and its role in the brain has been clarified recently. Studies have shown hepcidin plays an important role for in neuronal iron load and inflammation. This is of significance because neuronal iron load and inflammation are pathophysiological processes that have been highly linked to neurodegeneration. Moreover, the a...
متن کامل