Abstract
The functional difference of thermosensitive transient receptor potential (TRP) channels in the evolutionary context has attracted attention, but thus far little information is available on the TRP vanilloid 1 (TRPV1) function of amphibians, which diverged earliest from terrestrial vertebrate lineages. In this study we cloned Xenopus tropicalis frog TRPV1 (xtTRPV1), and functional characterization was performed using HeLa cells heterologously expressing xtTRPV1 (xtTRPV1-HeLa) and dorsal root ganglion neurons isolated from X. tropicalis (xtDRG neurons) by measuring changes in the intracellular calcium concentration ([Ca(2+)](i)). The channel activity was also observed in xtTRPV1-expressing Xenopus oocytes. Furthermore, we tested capsaicin- and heat-induced nocifensive behaviors of the frog X. tropicalis in vivo. At the amino acid level, xtTRPV1 displays ∼60% sequence identity to other terrestrial vertebrate TRPV1 orthologues. Capsaicin induced [Ca(2+)](i) increases in xtTRPV1-HeLa and xtDRG neurons and evoked nocifensive behavior in X. tropicalis. However, its sensitivity was extremely low compared with mammalian orthologues. Low extracellular pH and heat activated xtTRPV1-HeLa and xtDRG neurons. Heat also evoked nocifensive behavior. In oocytes expressing xtTRPV1, inward currents were elicited by heat and low extracellular pH. Mutagenesis analysis revealed that two amino acids (tyrosine 523 and alanine 561) were responsible for the low sensitivity to capsaicin. Taken together, our results indicate that xtTRPV1 functions as a polymodal receptor similar to its mammalian orthologues. The present study demonstrates that TRPV1 functions as a heat- and acid-sensitive channel in the ancestor of terrestrial vertebrates. Because it is possible to examine vanilloid and heat sensitivities in vitro and in vivo, X. tropicalis could be the ideal experimental lower vertebrate animal for the study of TRPV1 function.
Highlights
transient receptor potential (TRP) vanilloid 1 (TRPV1) is a thermosensitive channel in mammalian, but little information is available on amphibian TRPV1 function
At higher concentrations of capsaicin (Ͼ1 mM), nonspecific action was evoked in Xenopus tropicalis frog TRPV1 (xtTRPV1)-untransfected HeLa cells, which prevented us from observing maximal responses
In the behavioral test in vivo, capsaicin and high temperatures evoked nocifensive responses. These results indicated that xtTRPV1 plays a role as a polymodal receptor similar to those of mammalian orthologues
Summary
TRPV1 is a thermosensitive channel in mammalian, but little information is available on amphibian TRPV1 function. Results: Capsaicin, heat, and acid stimulated cloned and endogenous frog TRPV1 channels, and the former two stimuli evoked nocifensive behaviors. Conclusion: Frog TRPV1 functions as a capsaicin-, heat-, and acid-sensitive channel. Because it is possible to examine vanilloid and heat sensitivities in vitro and in vivo, X. tropicalis could be the ideal experimental lower vertebrate animal for the study of TRPV1 function. In this study we cloned TRPV1 from the western clawed frog Xenopus tropicalis (xtTRPV1) and expressed it in HeLa cells and Xenopus laevis oocytes to characterize its ion channel properties. These data showed that xtTRPV1 possessed a functional vanilloid binding site. Our data demonstrate that xtTRPV1 plays a role as a polymodal receptor like mammalian TRPV1
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