The Role of Arsenite in the Induction of C-Reactive Protein and Aberrant Insulin Signaling

• Main Author: Druwe, Ingrid Leal
• Other Authors: Vaillancourt, Richard R.
• Language: en
• Published: The University of Arizona. 2012
• Subjects: insulin resistance; metabolic syndrome; Pharmacology & Toxicology; Arsenite; C-reactive protein
• Online Access: http://hdl.handle.net/10150/247276

Metabolic syndrome affects approximately 25% of the US population and increases risk for the development of cardiovascular disease, as well as, and Type 2 diabetes. Inorganic arsenite exposure has been associated with cardiovascular disease, insulin resistance and Type 2 diabetes. The mechanisms by which arsenic increases these health risks has not been fully elucidated. In this report we show two pathways by which arsenite may contribute to metabolic syndrome. First through induction of C-Reactive Protein (CRP) and secondly through inhibition of insulin stimulated glucose uptake. CRP is a clinical marker for metabolic syndrome and a predictive clinical marker for cardiovascular disease and type 2 diabetes. Treatment of HepG2 cells with arsenite resulted in elevated CRP production and secretion. In addition, treatment of FvB mice with 100 ppb sodium arsenite via drinking water for six months starting at weaning age resulted in dramatically higher levels of CRP in both the liver and inner medullary region of the kidney. Further, mouse Inner Medullary Collecting Duct cells (mIMCD-3), a mouse kidney cell line, were stimulated with CRP, which resulted in activation of NFkappaB. Pretreatment with Y27632, a Rho kinase inhibitor, prior to CRP stimulation attenuated NFkappaB activation. Additionally, L6 myocytes, an insulin responsive cell line, exposed to arsenite for 4 or 7 days showed decreased insulin-stimulated glucose uptake but no decrease in AKT activation. In addition, we found that ERK activity decreased, while p38 MAPK activity increased, in response to prolonged arsenite treatment. These data support the epidemiological evidence that chronic exposure to low physiologically relevant levels of arsenite can contribute to insulin resistance and type 2 diabetes. These data provide a novel pathway by which arsenic can contribute to metabolic syndrome, cardiovascular disease, insulin resistance and type 2 diabetes.