Vagal nerve stimulation can elicit both activation and inhibition of brown adipose tissue sympathetic nerve activity (1131.6)

The dependence of BAT thermogenesis on the availability of metabolic substrates suggests that metabolic signals from the viscera could influence the sympathetic outflow driving BAT thermogenesis. Viscerosensory afferents in the proximal end of the sectioned left cervical vagus nerve were activated with electrical stimulation in anesthetized, ventilated rats while recording the SNA to the contralateral interscapular BAT pad. Paired‐pulse VNS delivered once every 5 sec evoked excitatory evoked potentials in BAT SNA with a peak latency of ~ 180 ms, followed by a ~2 s period of quiescent BAT SNA. Within a few seconds of stimulus onset, continuous, single‐pulse VNS at 2 Hz produced a complete inhibition of cold‐evoked BAT SNA that was sustained for at least 2 hrs of maintained VNS. Similarly, activation of neurons in the intermediate nucleus of the solitary tract (iNTS), at the level of the area postrema, with nanoinjections (60 pmol) of bicuculline also inhibits the VNS‐evoked excitation of BAT SNA. Inhibition of neurons in the rostral ventromedial medullary raphe pallidus region also eliminates the VNS‐evoked excitation of BAT SNA. These data support the existence of populations of vagal afferents whose stimulation can (1) increase BAT SNA via activation of BAT sympathetic premotor neurons or (2) inhibit BAT SNA via activation of BAT sympathoinhibitory neurons in the iNTS (see Am. J. Physiol. Regul. Integr. Comp. Physiol., 299:R277‐R290, 2010. PMC2904145). Grant Funding Source : Supported by NIH NS40987