Abstract
Compounds related to capsaicin and its ultrapotent analog, resiniferatoxin (RTX), collectively referred to as vanilloids, interact at a specific membrane recognition site (vanilloid receptor), expressed almost exclusively by primary sensory neurons involved in nociception and neurogenic inflammation. Desensitization to vanilloids is a promising therapeutic approach to mitigate neuropathic pain and pathological conditions (e.g. vasomotor rhinitis) in which neuropeptides released from primary sensory neurons play a major role. Capsaicin-containing preparations are already commercially available for these purposes. The use of capsaicin, however, is severely limited by its irritancy, and the synthesis of novel vanilloids with an improved pungency/desensitization ratio is an on-going objective. This review highlights the emerging evidence that the vanilloid receptor is not a single receptor but a family of receptors, and that these receptors recognize not simply RTX and capsaicin structural analogs but are broader in their ligand-binding selectivity. We further focus on ligand-induced messenger plasticity, a recently discovered mechanism underlying the analgesic actions of vanilloids. Lastly, we give a brief overview of the current clinical uses of vanilloids and their future therapeutic potential. The possibility is raised that vanilloid receptor subtype-specific drugs may be synthesized, devoid of the undesirable side-effects of capsaicin.
Keywords
ResiniferatoxinCapsaicinReceptorTRPV1ChemistryDesensitization (medicine)PharmacologyNeuroscienceTransient receptor potential channelMedicineBiochemistryPsychology
MeSH Terms
AnimalsCapsaicinDiterpenesDown-RegulationHumansRatsReceptorsCell SurfaceReceptorsDrugStructure-Activity RelationshipUp-Regulation
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Publication Info
- Year
- 1996
- Type
- review
- Volume
- 68
- Issue
- 2
- Pages
- 195-208
- Citations
- 206
- Access
- Closed
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Cite This
A Szállaśi,
Peter M. Blumberg
(1996).
Vanilloid receptors: new insights enhance potential as a therapeutic target.
Pain
, 68
(2)
, 195-208.
https://doi.org/10.1016/s0304-3959(96)03202-2
Identifiers
- DOI
- 10.1016/s0304-3959(96)03202-2
- PMID
- 9121806