Person:

Hu, Bo

The sympathetic nervous system innervates peripheral organs to regulate their function and maintain homeostasis, whereas target cells also produce neurotrophic factors to promote sympathetic innervation1,2. The molecular basis of this bi-directional communication remains to be fully elucidated. Here we use thermogenic adipose tissue as a model system to show that T cells, specifically gdT cells, play a critical role in promoting sympathetic innervation, at least in part through driving TGFβ1 expression in parenchymal cells via IL-17 Receptor C. Adipose-specific ablation of IL-17 Receptor C reduces TGFβ1 expression in adipocytes, impairs local sympathetic innervation and causes obesity and other metabolic phenotypes consistent with defective thermogenesis; innervation can be fully rescued by restoring TGFβ1 expression. Ablating gd T cells and the IL-17 Receptor C signaling pathway also impairs sympathetic innervation in salivary glands and the lung. These findings demonstrate T cell/parenchymal cell coordination to regulate sympathetic innervation.

The sympathetic nervous system drives brown and beige adipocyte thermogenesis via release of norepinephrine from local axons. However, the molecular basis underlying the higher levels of sympathetic innervation of thermogenic fat, compared to white fat, has remained elusive. Here we show that thermogenic adipocytes express a previously unknown, mammal-specific endoplasmic reticulum membrane protein, termed Calsyntenin-3β. Genetic loss or gain of Calsyntenin-3β in adipocytes reduces or enhances functional sympathetic innervation in adipose tissue respectively; Calsyntenin-3β ablation predisposes mice to obesity on a high fat diet. Mechanistically, Calsyntenin-3β promotes endoplasmic reticulum localization and secretion from brown adipocytes of S100b, a protein lacking a signal peptide. S100b stimulates neurite outgrowth from sympathetic neurons in vitro. S100b deficiency phenocopies Calsyntenin-3β deficiency, whereas forced expression of S100b in brown adipocytes rescues defective sympathetic innervation caused by Calsyntenin-3β ablation. Taken together, our data elucidate a mammal-specific mechanism of communication between thermogenic adipocytes and sympathetic neurons.