Molecular Metabolism (Oct 2023)

Targeting Clic1 for the treatment of obesity: A novel therapeutic strategy to reduce food intake and body weight

  • Rizaldy C. Zapata,
  • Dinghong Zhang,
  • Dongmin Yoon,
  • Chanond A. Nasamran,
  • Daisy R. Chilin-Fuentes,
  • Avraham Libster,
  • Besma S. Chaudry,
  • Mariela Lopez-Valencia,
  • Devasena Ponnalagu,
  • Harpreet Singh,
  • Michael Petrascheck,
  • Olivia Osborn

Journal volume & issue
Vol. 76
p. 101794

Abstract

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Objective: Despite great advances in obesity therapeutics in recent years, there is still a need to identify additional therapeutic targets for the treatment of this disease. We previously discovered a signature of genes, including Chloride intracellular channel 1 (Clic1), whose expression was associated with drug-induced weight gain, and in these studies, we assess the effect of Clic1 inhibition on food intake and body weight in mice. Methods: We studied the impact of Clic1 inhibition in mouse models of binge-eating, diet-induced obese mice and genetic models of obesity (Magel2 KO mice). Results: Clic1 knockout (KO) mice ate significantly less and had a lower body weight than WT littermates when either fed chow or high fat diet. Furthermore, pharmacological inhibition of Clic1 in diet-induced obese mice resulted in suppression of food intake and promoted highly efficacious weight loss. Clic1 inhibition also reduced food intake in binge-eating models and hyperphagic Magel2 KO mice. We observed that chronic obesity resulted in a significant change in subcellular localization of Clic1 with an increased ratio of Clic1 in the membrane in the obese state. These observations provide a novel therapeutic strategy to block Clic1 translocation as a potential mechanism to reduce food intake and lower body weight. Conclusions: These studies attribute a novel role of Clic1 as a driver of food intake and overconsumption. In summary, we have identified hypothalamic expression of Clic1 plays a key role in food intake, providing a novel therapeutic target to treat overconsumption that is the root cause of modern obesity.

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