Role of brown adipose tissue-specific sympathetic and sensory innervations in menthol-induced energy-expending phenotype

Abstract Menthol, a TRPM8 agonist and pharmacological cold mimic, activates brown adipose tissue (BAT) to increase adaptive thermogenesis and whole-body energy expenditure. BAT is highly innervated with sensory and sympathetic nerve fibers. There is existing literature that sympathetic nerves have a critical role in regulating menthol’s (or cold) effect on energy homeostasis, but there is minimal literature about the involvement of somatosensory innervations. Here, we ought to investigate whether short-term topical application (3 days) of menthol elicits sympathetic and sensory nerves. We used chemical denervation models of complete (100 mg/kg; 6-OHDA and 125 mg/kg; capsaicin, s.c.) and localized (in BAT, 20 µL of 6-OHDA (20 mg/ml) and 20µL of capsaicin (20µg/µL) in each BAT lobe) ablation of sympathetic (6-OHDA) and sensory (capsaicin) innervations to explore their roles in menthol induced BAT activation and energy expanding phenotype. In the present study we have shown that (i) short-term topical application of menthol (10 % menthol for 3 consecutive days) elicits sympathetic and sensory innervations, and induces thermogenesis, lipolysis and mitochondrial biogenesis in mice BAT; (ii) localized ablation of sympathetic innervation prevented menthol induced BAT activation and lipolysis (iii) localized ablation of sensory neurons augments sympathetic innervations induced BAT activation and modulated thermoregulation. Collectively, our results suggest that BAT activation following short-term topical application of menthol is dependent primarily but not exclusively on centrally mediated SNS activation. TRPV1-positive sensory neurons are partially necessary for thermoregulation and efficient BAT activation. Competing Interest Statement The authors have declared no competing interest.