BACKGROUND AND PURPOSE: Hydrogen sulfide, a gasotransmitter, facilitates somatic pain signals via activation of Ca(v)3.2 T-type calcium channels in rats. Given evidence for the activation of transient receptor potential ankyrin-1 (TRPA1) channels by H(2)S, we asked whether TRPA1 channels, in addition to Ca(v)3.2 channels, contribute to the H(2)S-induced mechanical hyperalgesia and allodynia in mice. EXPERIMENTAL APPROACH: Mechanical hyperalgesia and allodynia were evaluated by the von Frey test in mice. Ca(v)3.2 or TRPA1 channels in the sensory neurons were silenced by repeated intrathecal administration of antisense oligodeoxynucleotides in mice. KEY RESULTS: Intraplantar administration of NaHS evoked hyperalgesia and allodynia in mice, an effect attenuated or abolished by NNC 55-0396 or mibefradil, T-type calcium channel blockers, and by ascorbic acid or zinc chloride, known to selectively inhibit Ca(v)3.2 channels, out of the three isoforms of T-type calcium channels. Silencing of Ca(v)3.2 channels in the sensory neurons also prevented the NaHS-induced hyperalgesia and allodynia in mice. The NaHS-induced hyperalgesia and allodynia in mice were significantly suppressed by AP18, a TRPA1 channel blocker, and by silencing of TRPA1 channels in the sensory neurons. CONCLUSIONS AND IMPLICATIONS: Mechanical hyperalgesia and allodynia induced by NaHS/H(2)S required activation of both Ca(v)3.2 and TRPA1 channels in mice.
BACKGROUND AND PURPOSE:Hydrogen sulfide, a gasotransmitter, facilitates somatic pain signals via activation of Ca(v)3.2 T-type calcium channels in rats. Given evidence for the activation of transient receptor potential ankyrin-1 (TRPA1) channels by H(2)S, we asked whether TRPA1 channels, in addition to Ca(v)3.2 channels, contribute to the H(2)S-induced mechanical hyperalgesia and allodynia in mice. EXPERIMENTAL APPROACH: Mechanical hyperalgesia and allodynia were evaluated by the von Frey test in mice. Ca(v)3.2 or TRPA1 channels in the sensory neurons were silenced by repeated intrathecal administration of antisense oligodeoxynucleotides in mice. KEY RESULTS: Intraplantar administration of NaHS evoked hyperalgesia and allodynia in mice, an effect attenuated or abolished by NNC 55-0396 or mibefradil, T-type calcium channel blockers, and by ascorbic acid or zinc chloride, known to selectively inhibit Ca(v)3.2 channels, out of the three isoforms of T-type calcium channels. Silencing of Ca(v)3.2 channels in the sensory neurons also prevented the NaHS-induced hyperalgesia and allodynia in mice. The NaHS-induced hyperalgesia and allodynia in mice were significantly suppressed by AP18, a TRPA1 channel blocker, and by silencing of TRPA1 channels in the sensory neurons. CONCLUSIONS AND IMPLICATIONS: Mechanical hyperalgesia and allodynia induced by NaHS/H(2)S required activation of both Ca(v)3.2 and TRPA1 channels in mice.
Authors: Lindsey J Macpherson; Adrienne E Dubin; Michael J Evans; Felix Marr; Peter G Schultz; Benjamin F Cravatt; Ardem Patapoutian Journal: Nature Date: 2007-01-21 Impact factor: 49.962
Authors: Michael T Nelson; Pavle M Joksovic; Peihan Su; Ho-Won Kang; Amy Van Deusen; Joel P Baumgart; Laurence S David; Terrance P Snutch; Paula Q Barrett; Jung-Ha Lee; Charles F Zorumski; Edward Perez-Reyes; Slobodan M Todorovic Journal: J Neurosci Date: 2007-11-14 Impact factor: 6.167
Authors: Tomi Streng; Helena E Axelsson; Petter Hedlund; David A Andersson; Sven-Eric Jordt; Stuart Bevan; Karl-Erik Andersson; Edward D Högestätt; Peter M Zygmunt Journal: Eur Urol Date: 2007-10-22 Impact factor: 20.096
Authors: Austin W Merrill; Jason M Cuellar; Justin H Judd; Mirela Iodi Carstens; E Carstens Journal: J Neurophysiol Date: 2007-10-17 Impact factor: 2.714
Authors: Matt Petrus; Andrea M Peier; Michael Bandell; Sun Wook Hwang; Truc Huynh; Nicholas Olney; Tim Jegla; Ardem Patapoutian Journal: Mol Pain Date: 2007-12-17 Impact factor: 3.395