Adrenocorticotropic Hormone (ACTH) Treatment of Nephrotic Range Proteinuria in Diabetic Nephropathy (NRDN)

Diabetic Nephropathy, Nephrotic Syndrome

Diabetic Nephropathy, Nephrotic syndrome

This is a prospective open labeled trial examining the efficacy of ACTHar Gel (porcine ACTH) on the level of proteinuria in patients with diabetic nephropathy and nephrotic range proteinuria.

Diabetes Mellitus is a significant and growing health problem in the United States and other developed countries. Despite improving public awareness, end-organ complications including diabetic nephropathy and coronary atherosclerotic heart disease continues to grow by 5-10% per year. While improvements in the control of blood pressure and the wide-spread use of antagonists of the renin-angiotensin-aldosterone system have significantly improved renal outcomes, therapies designed to disrupt the more central pathogenic mechanisms of diabetic nephropathy are still needed. Recent observations have shown that effacement of podocyte foot-plate processes and accelerated apoptosis, are central to the pathogenesis of diabetic nephropathy. The resulting increase in glomerular permeability leads to nephrotic range proteinuria and interstitial fibrosis from local synthesis of transforming growth factor b (TGF-b) and direct toxicity to the renal epithelium. Recent studies have shown that synthetic forms of adrenocorticotropic hormone (ACTH) are able to achieve sustained reductions in proteinuria in non-diabetic glomerulopathies. Moreover, while the numbers of patients are quite limited, preliminary studies also suggest that pharmacologic administration of ACTH can reduce proteinuria in patients with diabetic nephropathy. The observation that ACTH can reduce proteinuria in a variety of glomerulopathies suggests that ACTH may be important for podocyte function and viability independent of the primary disease. Interestingly, recent studies confirm that melanocortin receptors are expressed in non-adrenal tissues including the circulating T and B cells and most recently the glomerular podocyte. Previous studies investigating the effect of diabetes and insulin therapy on ACTH levels have given mixed results. It is therefore unclear how podocytes in patients with diabetic nephropathy could become functionally deficient in ACTH. However, studies in adrenal cortical cells finds that TGF-b is able to down regulate the expression of ACTH receptors. Moreover, TGF-b is able block an ACTH-induced stimulation of melanocortin receptors. This intriguing link between TGF-b and ACTH signaling raises the question of whether impaired signaling of ACTH in the glomerulus leads to podocyte dysfunction, accelerated detachment and ultimately podocyte apoptosis. Moreover, we postulate that a complex interaction between TGF-b and ACTH expression exists within the glomerulus such that restoration of ACTH function will lead to a reduction in renal TGF-b expression. We therefore propose to study the effect of increasing doses of exogenous ACTH on rates of albuminuria and urinary TGF-b expression in diabetics with nephrotic range proteinuria. In addition to TGF-b we will examine whether a similar effect occurs on the 3 major isoforms of vascular endothelial growth factor, VEGF120, 164, and 180. We will also determine the duration of the effect and whether it is additive with ACE/ARB therapy inhibition.

United States