High-fat diet feeding disrupts the coupling of thermoregulation to energy homeostasis

Mol Metab. 2023 Dec:78:101835. doi: 10.1016/j.molmet.2023.101835. Epub 2023 Nov 4.

Abstract

Objective: Preserving core body temperature across a wide range of ambient temperatures requires adaptive changes of thermogenesis that must be offset by corresponding changes of energy intake if body fat stores are also to be preserved. Among neurons implicated in the integration of thermoregulation with energy homeostasis are those that express both neuropeptide Y (NPY) and agouti-related protein (AgRP) (referred to herein as AgRP neurons). Specifically, cold-induced activation of AgRP neurons was recently shown to be required for cold exposure to increase food intake in mice. Here, we investigated how consuming a high-fat diet (HFD) impacts various adaptive responses to cold exposure as well as the responsiveness of AgRP neurons to cold.

Methods: To test this, we used immunohistochemistry, in vivo fiber photometry and indirect calorimetry for continuous measures of core temperature, energy expenditure, and energy intake in both chow- and HFD-fed mice housed at different ambient temperatures.

Results: We show that while both core temperature and the thermogenic response to cold are maintained normally in HFD-fed mice, the increase of energy intake needed to preserve body fat stores is blunted, resulting in weight loss. Using both immunohistochemistry and in vivo fiber photometry, we show that although cold-induced AgRP neuron activation is detected regardless of diet, the number of cold-responsive neurons appears to be blunted in HFD-fed mice.

Conclusions: We conclude that HFD-feeding disrupts the integration of systems governing thermoregulation and energy homeostasis that protect body fat mass during cold exposure.

Keywords: AgRP neurons; Core temperature; Energy expenditure; Energy intake; High-fat diet; Thermoregulation.

MeSH terms

  • Agouti-Related Protein / metabolism
  • Animals
  • Body Temperature Regulation
  • Diet, High-Fat* / adverse effects
  • Homeostasis
  • Mice
  • Obesity* / metabolism

Substances

  • Agouti-Related Protein