PLoS ONE (Jan 2019)

Petite Integration Factor 1 (PIF1) helicase deficiency increases weight gain in Western diet-fed female mice without increased inflammatory markers or decreased glucose clearance.

  • Frances R Belmonte,
  • Nikolaos Dedousis,
  • Ian Sipula,
  • Nikita A Desai,
  • Aatur D Singhi,
  • Yanxia Chu,
  • Yingze Zhang,
  • Sylvie Bannwarth,
  • Véronique Paquis-Flucklinger,
  • Lea Harrington,
  • Sruti Shiva,
  • Michael J Jurczak,
  • Robert M O'Doherty,
  • Brett A Kaufman

DOI
https://doi.org/10.1371/journal.pone.0203101
Journal volume & issue
Vol. 14, no. 5
p. e0203101

Abstract

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Petite Integration Factor 1 (PIF1) is a multifunctional helicase present in nuclei and mitochondria. PIF1 knock out (KO) mice exhibit accelerated weight gain and decreased wheel running on a normal chow diet. In the current study, we investigated whether Pif1 ablation alters whole body metabolism in response to weight gain. PIF1 KO and wild type (WT) C57BL/6J mice were fed a Western diet (WD) rich in fat and carbohydrates before evaluation of their metabolic phenotype. Compared with weight gain-resistant WT female mice, WD-fed PIF1 KO females, but not males, showed accelerated adipose deposition, decreased locomotor activity, and reduced whole-body energy expenditure without increased dietary intake. Surprisingly, PIF1 KO females did not show obesity-induced alterations in fasting blood glucose and glucose clearance. WD-fed PIF1 KO females developed mild hepatic steatosis and associated changes in liver gene expression that were absent in weight-matched, WD-fed female controls, linking hepatic steatosis to Pif1 ablation rather than increased body weight. WD-fed PIF1 KO females also showed decreased expression of inflammation-associated genes in adipose tissue. Collectively, these data separated weight gain from inflammation and impaired glucose homeostasis. They also support a role for Pif1 in weight gain resistance and liver metabolic dysregulation during nutrient stress.