Abstract
Beyond providing evolutionary advantages, venoms offer unique research tools, as they were developed to target functionally important proteins and pathways. As a key pain receptor in the nociceptive pathway, transient receptor potential vanilloid 1 (TRPV1) of the TRP superfamily has been shown to be a target for several toxins, as a way of producing pain to deter predators. Importantly, TRPV1 is involved in thermoregulation, inflammation, and acute nociception. As such, toxins provide tools to understand TRPV1 activation and modulation, a critical step in advancing pain research and the development of novel analgesics. Indeed, the phytotoxin capsaicin, which is the spicy chemical in chili peppers, was invaluable in the original cloning and characterization of TRPV1. The unique properties of each subsequently characterized toxin have continued to advance our understanding of functional, structural, and biophysical characteristics of TRPV1. By building on previous reviews, this work aims to provide a comprehensive summary of the advancements made in TRPV1 research in recent years by employing animal toxins, in particular DkTx, RhTx, BmP01, Echis coloratus toxins, APHCs and HCRG21. We examine each toxin’s functional aspects, behavioral effects, and structural features, all of which have contributed to our current knowledge of TRPV1. We additionally discuss the key features of TRPV1’s outer pore domain, which proves to be the target of the currently discussed toxins.
Highlights
VanillotoxinsVanillotoxins are areICKICKmotif-containing motif-containingspider spiderproteins proteinstargeting targetingTRPV1 transient receptor potential vanilloid 1 (TRPV1)[6,32]. [6,32]
By building on previous reviews, this work aims to provide a comprehensive summary of the advancements made in TRPV1 research in recent years by employing animal toxins, in particular Double knot Toxin (DkTx), RhTx, BmP01, Echis coloratus toxins, Analgesic Polypeptide Heteractis crispa (APHC) and Heteractis crispa RG 21 (HCRG21)
TRPV1 inhibition by HCRG21 is dose-dependent with an IC50 = 6.9 ± 0.4 μM when co-applied with 1 μM capsaicin [34]
Summary
Noxious stimuli are detected by a wide array of peripherally located ion channel receptors, where their activation is transferred to the central nervous system mainly via small diameter, unmyelinated c fibers [1]. Even prior to the cloning of TRPV1, the potent and specific antagonist capsazepine was synthesized by modifying the structure of the naturally-occurring plant toxins, capsaicin and resiniferatoxin, in order to block nociceptive firing and potentially be used as an analgesic [23]. This molecule, along with many other molecules synthesized since has been found unsuitable for therapeutic use. Venomous animals take advantage of this system and have developed highly specific, potent, and complex toxins to target sensitive proteins in the pain system, such as TRPV1 [6] As such, these molecules provide unique probes for understanding functionally important proteins in the peripheral pain pathway.
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