[2] Thus, NAFLD is associated with an increased liver-related morbidity

and mortality and is emerging as a leading cause of liver transplantation.[3] In addition, patients with NAFLD exhibit an increased risk of developing both type 2 diabetes mellitus (T2DM) and cardiovascular disease.[4] For these reasons, timely and effective treatment of patients with NAFLD, and particularly those with NASH, is indicated to prevent metabolic consequences and eventually hamper the development of liver cirrhosis. However, current treatment options are limited to lifestyle changes, which are effective but difficult to achieve because of adherence issues.

Erismodegib nmr Although many pharmacological agents have been proposed to treat patients with NAFLD/NASH, the only drugs tested to date in large, randomized, controlled trials are pioglitazone and vitamin E, which have shown efficacy for treatment of NASH.[1] However, their therapeutic value is limited and several safety concerns have been raised recently. Therefore, the development of novel, pathophysiologically targeted, safe, and effective therapies is urgently needed. In this issue of HEPATOLOGY, Staels et al.[5] report promising preclinical data on the effects of a dual peroxisome proliferator-activated receptor (PPAR)-α/δ agonist Gefitinib supplier (GFT505) in rodent models of NAFLD/NASH and hepatic fibrosis, along with some clinical data on the effects of the

compound on liver function Dynein tests (LFTs) in humans. Before getting into details of their work, a few words on the role of PPARs in NAFLD/NASH are in order. PPARs are lipid-activated nuclear receptors highly conserved in mammals that, upon activation by the appropriate ligand, control complex networks of target genes involved in a myriad of processes, including energy homeostasis, inflammatory response, and lipid and carbohydrate metabolism.[6] Receptors of this family form heterodimers with the nuclear retinoid X receptor and are divided in three subtypes, each encoded by a different gene: PPAR-α (NRC11 1); PPAR-δ (NRC2, also named β/δ); and PPAR-γ (NRC3). Though PPAR-α and PPAR-γ have a relatively restricted tissue expression, being predominantly expressed in hepatocytes and adipocytes, respectively, PPAR-δ exhibits a more ubiquitous expression with particularly high abundance in muscle tissue and macrophages. Activation of different PPARs represents an important pharmacological target because of the multifaceted metabolic effects on lipid and carbohydrate metabolism and their effects on innate immunity and inflammatory responses.