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David Jelinek, Veronica Millward, Amandip Birdi, Theodore P. Trouard, Randall A. Heidenreich, William S. Garver, Npc1 haploinsufficiency promotes weight gain and metabolic features associated with insulin resistance, Human Molecular Genetics, Volume 20, Issue 2, 15 January 2011, Pages 312–321, https://doi.org/10.1093/hmg/ddq466
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Abstract
A recent population-based genome-wide association study has revealed that the Niemann–Pick C1 (NPC1) gene is associated with early-onset and morbid adult obesity. Concurrently, our candidate gene-based mouse growth study performed using the BALB/cJ NPC1 mouse model (Npc1) with decreased Npc1 gene dosage independently supported these results by suggesting an Npc1 gene–diet interaction in relation to early-onset weight gain. To further investigate the Npc1 gene in relation to weight gain and metabolic features associated with insulin resistance, we interbred BALB/cJ Npc1+/− mice with wild-type C57BL/6J mice, the latter mouse strain commonly used to study aspects of diet-induced obesity and insulin resistance. This breeding produced a hybrid (BALB/cJ–C57BL/6J) Npc1+/− mouse model with increased susceptibility to weight gain and insulin resistance. The results from our study indicated that these Npc1+/− mice were susceptible to increased weight gain characterized by increased whole body and abdominal adiposity, adipocyte hypertrophy and hepatic steatosis in the absence of hyperphagia. Moreover, these Npc1+/− mice developed abnormal metabolic features characterized by impaired fasting glucose, glucose intolerance, hyperinsulinemia, hyperleptinemia and dyslipidemia marked by an increased concentration of cholesterol and triacylglycerol associated with low-density lipoprotein and high-density lipoprotein. The overall results are consistent with a unique Npc1 gene–diet interaction that promotes both weight gain and metabolic features associated with insulin resistance. Therefore, the NPC1 gene now represents a previously unrecognized gene involved in maintaining energy and metabolic homeostasis that will contribute to our understanding concerning the current global epidemic of obesity and type 2 diabetes mellitus.
