Spots Global Cancer Trial Database for Novel Mediators of the Lipodystrophy and Metabolic Consequences of Cushing's Disease

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Trial Identification

Brief Title: Novel Mediators of the Lipodystrophy and Metabolic Consequences of Cushing's Disease

Official Title: Novel Mediators of the Lipodystrophy and Metabolic Consequences of Cushing's Disease

Study ID: NCT03817840

Conditions

Cushing's Syndrome

Interventions

Treatment of Cushing's

Study Description

Brief Summary: This proposal will evaluate the glucocorticoid mediated changes in body fat distribution and metabolism that occur in patients with Cushing's disease. The objective is to identify the mechanisms that influence both the accumulation of lipodystrophic fat and also the changes in energy expenditure and metabolism that accompany them. The study is designed to determine if the high cortisol and AgRP levels in the blood of people living with Cushing's syndrome, either from taking steroid medications or from tumors, impact body fat and metabolism by turning off brown fat, which is a type of fat that increases one's metabolism.

Detailed Description: Cushing's disease (CD) is a disorder of chronic glucocorticoid (GC) excess that gives rise to a constellation of metabolic comorbidities and to a distinct lipodystrophic body habitus characterized by central adiposity, extremity wasting, and the accumulation of supraclavicular (SC) and dorsocervical (DC) fat in the region where human brown and beige adipose tissue is known to be concentrated. In spite of the recognized thermogenic capacity of select cervical adipocytes, the potential impact of lipomatous alterations in this depot on energy balance and metabolism in CD is unknown. To our knowledge, the "buffalo hump" and the supraclavicular fat pads - which are a sensitive physical finding for CD, have never been phenotypically characterized and the mechanisms underlying the GC mediated development of fat in these depots and the associated metabolic complications have not been explored in humans. The proposed research will advance our understanding of Cushing's lipodystrophy and its metabolic complications. Furthermore, it may lead to the identification of novel mediators and targetable pathways to attenuate the adverse effects of hypercortisolism on body composition and metabolism in CD, as well as in the significant population of patients treated with chronic GCs for an array of other clinical conditions. These findings may have important implications not only for those with Cushing's disease, but for the millions of Americans who are treated with chronic glucocorticoids for an array of clinical conditions.