Modulation of TRPA1 thermal sensitivity enables sensory discrimination in Drosophila

Abstract: Discriminating among sensory stimuli is critical for animal survival. This discrimination is particularly essential when evaluating whether a stimulus is noxious or innocuous. From insects to humans, TRP channels are key transducers of thermal, chemical and other sensory cues1, 2. Many TRPs are multi-modal receptors that respond to diverse stimuli1–3, but how animals distinguish sensory inputs activating the same TRP is largely unknown. Here we determine how stimuli activating Drosophila TRPA1 are discriminate… Show more

“…We found that ectopic expression of these H 2 O 2 -sensitive dTRPA1 isoforms conferred UV sensitivity to light-insensitive cultured HEK293 cells and a few types of light-insensitive Drosophila neurons. The light and H 2 O 2 sensitivities are specific to certain dTRPA1 isoforms, consistent with previous findings that different dTRPA1 isoforms exhibit distinct thermal sensitivities (20,21). Strikingly, the H 2 O 2 -sensitive dTRPA1 was as effective as channelrhodopsin-2 (ChR2) in triggering light-produced motor responses when expressed in a specific group of motor neurons that control proboscis extension…”

“…Animals were raised in standard molasses/cornmeal/yeast/agar food and maintained in a Darwin Chamber with temperature set at 25°C and humidity level at 60-65%. The stocks used were as follows: w 1118 , UAS-GCaMP3 (BL-32236), UAS-GCaMP6 (BL-42746), UAS-ChR2-YFP, E49-GAL4 (31), AKH-GAL4 (BL-25684), dTRPA1 KO (27), Gr28b PBac01884 (BL-10743), Gr28b Df(2L)7031 /CyO (BL-7804), norpA 36 (BL-9048), santa-maria (BL-24520), UAS-dTRPA1-RNAi (27), UAS-DUOX-RNAi 1 (BL-32903), UAS-cat (BL-24621), ILP7-GAL4 (44), UAS-dTRPA1(A)10b (21), UAS-dTRPA1(B)10a (20), ppk1-GAL4 (45), UAS-dTRPA1(A)10a (this work), UAS-mTRPA1 (a gift from J. Grandl, Department of Neurobiology, Duke University, Durham, NC).…”

“…Our results suggest specific H 2 O 2 -sensitive TRPA1 isoforms can be activated by UV via a photochemical transduction cascade and that these isoforms may be exploited as a UV-dependent optogenetic tool for controlling neuronal activities. (20,21) (Fig. 1A).…”

“…Indeed, a recent finding has suggested that two specific GPCRs-GUR-3 and LITE-1-both of which play important roles in light sensing in C. elegans, may also be H 2 O 2 sensitive (16). Moreover, TRPA1, an evolutionarily conserved TRP channel known for its role in sensing many chemical irritants, has been shown to sense H 2 O 2 (17)(18)(19)(20)(21)(22)(23)(24), thus TRPA1 may be activated by light via sensing light-induced H 2 O 2 production. Some recent evidence has demonstrated a role for TRPA1 in light sensing.…”

Drosophila TRPA1 isoforms detect UV light via photochemical production of H ₂ O ₂

“…We found that ectopic expression of these H 2 O 2 -sensitive dTRPA1 isoforms conferred UV sensitivity to light-insensitive cultured HEK293 cells and a few types of light-insensitive Drosophila neurons. The light and H 2 O 2 sensitivities are specific to certain dTRPA1 isoforms, consistent with previous findings that different dTRPA1 isoforms exhibit distinct thermal sensitivities (20,21). Strikingly, the H 2 O 2 -sensitive dTRPA1 was as effective as channelrhodopsin-2 (ChR2) in triggering light-produced motor responses when expressed in a specific group of motor neurons that control proboscis extension…”

“…Animals were raised in standard molasses/cornmeal/yeast/agar food and maintained in a Darwin Chamber with temperature set at 25°C and humidity level at 60-65%. The stocks used were as follows: w 1118 , UAS-GCaMP3 (BL-32236), UAS-GCaMP6 (BL-42746), UAS-ChR2-YFP, E49-GAL4 (31), AKH-GAL4 (BL-25684), dTRPA1 KO (27), Gr28b PBac01884 (BL-10743), Gr28b Df(2L)7031 /CyO (BL-7804), norpA 36 (BL-9048), santa-maria (BL-24520), UAS-dTRPA1-RNAi (27), UAS-DUOX-RNAi 1 (BL-32903), UAS-cat (BL-24621), ILP7-GAL4 (44), UAS-dTRPA1(A)10b (21), UAS-dTRPA1(B)10a (20), ppk1-GAL4 (45), UAS-dTRPA1(A)10a (this work), UAS-mTRPA1 (a gift from J. Grandl, Department of Neurobiology, Duke University, Durham, NC).…”

“…Our results suggest specific H 2 O 2 -sensitive TRPA1 isoforms can be activated by UV via a photochemical transduction cascade and that these isoforms may be exploited as a UV-dependent optogenetic tool for controlling neuronal activities. (20,21) (Fig. 1A).…”

“…Indeed, a recent finding has suggested that two specific GPCRs-GUR-3 and LITE-1-both of which play important roles in light sensing in C. elegans, may also be H 2 O 2 sensitive (16). Moreover, TRPA1, an evolutionarily conserved TRP channel known for its role in sensing many chemical irritants, has been shown to sense H 2 O 2 (17)(18)(19)(20)(21)(22)(23)(24), thus TRPA1 may be activated by light via sensing light-induced H 2 O 2 production. Some recent evidence has demonstrated a role for TRPA1 in light sensing.…”

Drosophila TRPA1 isoforms detect UV light via photochemical production of H ₂ O ₂

“…How does the same channel distinguish different types of stimuli? At least in Drosophila, this is achieved through alternative exon usage (Kang et al 2012). Chemosensory and thermosensitive TRPA1 channels arise from distinct isoforms that contain different N-terminal sequences.…”

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