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Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons.

Kevin X ZhangShane P D'SouzaBrian A UptonStace KernodleShruti VemarajuGowri NayakKevin D GaitondeAmanda L HoltCourtney D LinneApril N SmithNathan T PettsMatthew BatieRajib MukherjeeDurgesh TiwariEthan D BuhrRussell N Van GelderChristina GrossAlison SweeneyJoan Sanchez-GurmachesRandy J SeeleyRichard A Lang
Published in: Nature (2020)
The opsin family of G-protein-coupled receptors are used as light detectors in animals. Opsin 5 (also known as neuropsin or OPN5) is a highly conserved opsin that is sensitive to visible violet light1,2. In mice, OPN5 is a known photoreceptor in the retina3 and skin4 but is also expressed in the hypothalamic preoptic area (POA)5. Here we describe a light-sensing pathway in which POA neurons that express Opn5 regulate thermogenesis in brown adipose tissue (BAT). We show that Opn5 is expressed in glutamatergic warm-sensing POA neurons that receive synaptic input from several thermoregulatory nuclei. We further show that Opn5 POA neurons project to BAT and decrease its activity under chemogenetic stimulation. Opn5-null mice show overactive BAT, increased body temperature, and exaggerated thermogenesis when cold-challenged. Moreover, violet photostimulation during cold exposure acutely suppresses BAT temperature in wild-type mice but not in Opn5-null mice. Direct measurements of intracellular cAMP ex vivo show that Opn5 POA neurons increase cAMP when stimulated with violet light. This analysis thus identifies a violet light-sensitive deep brain photoreceptor that normally suppresses BAT thermogenesis.
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