N-substituted phenylbenzamides of the niclosamide chemotype attenuate obesity related changes in high fat diet fed mice.

Hiral A Bhagat,Christopher P Laudeman,Kimberly M P Jackson,Sarah A Compton,Jay E Brenman,Jonathan Z Sexton,Lidia S Nierobisz,Na Young Yi,Lawrence Forsberg,David L Musso,Salvatore Papa

doi:10.1371/journal.pone.0204605

Hiral A Bhagat, Christopher P Laudeman + Show 9 more

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https://doi.org/10.1371/journal.pone.0204605

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Abstract

Obesity and insulin resistance are primary risk factors for Non-Alcoholic Fatty Liver Disease (NAFLD). NAFLD is generally exhibited by non-progressive simple steatosis. However, a significant subset of patient’s progress to nonalcoholic steatohepatitis (NASH) that is defined by the presence of steatosis, inflammation and hepatocyte injury with fibrosis. Unfortunately, there are no approved therapies for NAFLD or NASH and therefore therapeutic approaches are urgently needed. Niclosamide is an U.S. Food and Drug Administration (FDA)-approved anthelmintic drug that mediates its effect by uncoupling oxidative phosphorylation. Niclosamide and its salt forms, Niclosamide Ethanolamine (NEN), and Niclosamide Piperazine (NPP) have shown efficacy in murine models of diet induced obesity characterized by attenuation of the prominent fatty liver disease phenotype and improved glucose metabolism. While the exact mechanism(s) underlying these changes remains unclear, the ability to uncouple oxidative phosphorylation leading to increased energy expenditure and lipid metabolism or attenuation of PKA mediated glucagon signaling in the liver have been proposed. Unfortunately, niclosamide has very poor water solubility, leading to low oral bioavailability. This, in addition to mitochondrial uncoupling activity and potential genotoxicity have reduced enthusiasm for its clinical use. More recently, salt forms of niclosamide, NEN and NPP, have demonstrated improved oral bioavailability while retaining activity. This suggests that development of safer more effective niclosamide derivatives for the treatment of NAFLD and Type 2 Diabetes may be possible. Herein we explored the ability of a series of N-substituted phenylbenzamide derivatives of the niclosamide salicylanilide chemotype to attenuate hepatic steatosis using a novel phenotypic in vitro model of fatty liver and the high fat diet-fed mouse model of diet induced obesity. These studies identified novel compounds with improved pre-clinical properties that attenuate hepatic steatosis in vitro and in vivo. These compounds with improved drug properties may be useful in alleviating symptoms and protection against disease progression in patients with metabolic syndrome and NAFLD.

Highlights

Niclosamide was originally developed and marketed as a molluscicide by Bayer in the late 1950s; it was later found to be an effective anti-helmintic and has been used in the clinic for decades to treat intestinal tapeworm infections in humans [1, 2]
de novo lipogenesis (DNL) is governed by a variety of lipogenic transcription factors including liver X receptors (LXR), sterol regulatory element-binding protein-1c (SREBP-1c) and carbohydrate response element binding protein (ChREBP)[41, 42]
Based on previous studies showing the effects of niclosamide and its salt forms Niclosamide Ethanolamine (NEN) and Niclosamide Piperazine (NPP) on hepatic steatosis, we sought to establish a cell-based disease model of Non-Alcoholic Fatty Liver Disease (NAFLD) using insulin and the LXR agonist T0901317 to stimulate de novo hepatic lipid accumulation to study the effects of related N-substituted Phenylbenzamides on steatosis in a non-neoplastic human hepatocyte cell line, PH5CH8 [27]

Summary

Introduction

Niclosamide was originally developed and marketed as a molluscicide by Bayer in the late 1950s; it was later found to be an effective anti-helmintic and has been used in the clinic for decades to treat intestinal tapeworm infections in humans [1, 2]. The best known mitochondrial uncoupler, 2,4-dinitrophenol (DNP) increases metabolic rate and stimulates loss of body fat but has been associated with severe toxicity including fatal increases in body temperature [5,6,7] This side effect may be overcome by liver specific targeting of DNP which has been shown to improve its therapeutic index up to 50-fold [8]. In contrast to DNP, niclosamide has been shown to be relatively safe when delivered as a single 2-gram oral dose to treat intestinal cestode infections. This is largely due to its poor absorption from the gastrointestinal tract and high plasma protein binding that significantly limit its tissue distribution [1]. While niclosamide has been shown to be relatively safe after a single dose, it is unclear if chronic treatment with niclosamide would lead to adverse effects

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