Attenuated pain responses in mice lacking Ca(V)3.2 T-type channels

Authors
Choi, S.Na, H. S.Kim, J.Lee, J.Lee, S.Kim, D.Park, J.Chen, C.-C.Campbell, K. P.Shin, H.-S.
Issue Date
2007-07
Publisher
BLACKWELL PUBLISHING
Citation
GENES BRAIN AND BEHAVIOR, v.6, no.5, pp.425 - 431
Abstract
Although T-type Ca2+ channels are implicated in nociception, the function of specific subtypes has not been well defined. Here, we compared pain susceptibility in mice lacking Ca(V)3.2 subtype of T-type Ca2+ channels (Ca(V)3.2(-/-)) with wild-type littermates in various behavioral models of pain to explore the roles of Ca(V)3.2 in the processing of noxious stimuli in vivo. In acute mechanical, thermal and chemical pain tests, Ca(V)3.2(-/-) mice showed decreased pain responses compared to wild-type mice. Ca(V)3.2(-/-) mice also displayed attenuated pain responses to tonic noxious stimuli such as intraperitoneal injections of irritant agents and intradermal injections of formalin. In spinal nerve ligation-induced neuropathic pain, however, behavioral responses of Ca(V)3.2(-/-) mice were not different from those of wild-type mice. The present study reveals that the Ca(V)3.2 subtype of T-type Ca2+ channels are important in the peripheral processing of noxious signals, regardless of modality, duration or affected tissue type.
Keywords
ROOT GANGLION NEURONS; CALCIUM-CHANNEL; CA2+ CHANNELS; NEUROPATHIC PAIN; SENSORY NEURONS; AFFERENT NEURONS; REDOX MODULATION; FORMALIN TEST; GENE FAMILY; EXPRESSION; ROOT GANGLION NEURONS; CALCIUM-CHANNEL; CA2+ CHANNELS; NEUROPATHIC PAIN; SENSORY NEURONS; AFFERENT NEURONS; REDOX MODULATION; FORMALIN TEST; GENE FAMILY; EXPRESSION; chemical pain; mechanical pain; neuropathic pain; spinal nerve ligation ( SNL); thermal pain; tonic inflammatory pain
ISSN
1601-1848
URI
https://pubs.kist.re.kr/handle/201004/134299
DOI
10.1111/j.1601-183X.2006.00268.x
Appears in Collections:
KIST Article > 2007
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