Shruti Vemaraju scite author profile

The molecular circadian clocks in the mammalian retina are locally synchronized by environmental light cycles independent of the suprachiasmatic nuclei (SCN) in the brain. Unexpectedly, this entrainment does not require rods, cones, or melanopsin (OPN4), possibly suggesting the involvement of another retinal photopigment. Here, we show that the ex vivo mouse retinal rhythm is most sensitive to short-wavelength light but that this photoentrainment requires neither the short-wavelength-sensitive cone pigment [S-pigment or cone opsin (OPN1SW)] nor encephalopsin (OPN3). However, retinas lacking neuropsin (OPN5) fail to photoentrain, even though other visual functions appear largely normal. Initial evidence suggests that OPN5 is expressed in select retinal ganglion cells. Remarkably, the mouse corneal circadian rhythm is also photoentrainable ex vivo, and this photoentrainment likewise requires OPN5. Our findings reveal a light-sensing function for mammalian OPN5, until now an orphan opsin.

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Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons

Zhang

D'Souza

Upton

et al. 2020

Nature

100

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The opsin family of G-protein coupled receptors are employed as light detectors in animals. Opsin 5 (neuropsin, OPN5) is a highly conserved, violet light (380 nm λ max ) sensitive opsin 1 , 2 . In mice, OPN5 is a known photoreceptor in retina 3 and skin 4 but is also expressed in the hypothalamic preoptic area (POA) 5 . Here we describe a light-sensing pathway in which Opn5 expressing POA neurons regulate brown adipose tissue (BAT) thermogenesis. We show Opn5 expression in glutamatergic warm-sensing POA neurons that receive synaptic input from multiple 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, elevated body temperature, and exaggerated thermogenesis when cold challenged. Moreover, violet photostimulation during cold exposure acutely suppresses BAT temperature in wild-type, but not in Opn5 null mice. Direct measurements of intracellular cAMP ex vivo reveal 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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Neuropsin (OPN5) Mediates Local Light-Dependent Induction of Circadian Clock Genes and Circadian Photoentrainment in Exposed Murine Skin

et al. 2019

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Shruti Vemaraju

Neuropsin (OPN5)-mediated photoentrainment of local circadian oscillators in mammalian retina and cornea

Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons

Neuropsin (OPN5) Mediates Local Light-Dependent Induction of Circadian Clock Genes and Circadian Photoentrainment in Exposed Murine Skin

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