L Type Ca2+ Channel Blockers Prevent Oxaliplatin-Induced Cold Hyperalgesia and TRPM8 Overexpression in Rats

Background: Oxaliplatin is an important drug used in the treatment of colorectal cancer. However, it frequently causes severe acute and chronic peripheral neuropathies. We recently reported that repeated administration of oxaliplatin induced cold hyperalgesia in the early phase and mechanical allody...

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Published in:Molecular pain 2012-01, Vol.8 (1), p.7-7
Main Authors: Kawashiri, Takehiro, Egashira, Nobuaki, Kurobe, Kentaro, Tsutsumi, Kuniaki, Yamashita, Yuji, Ushio, Soichiro, Yano, Takahisa, Oishi, Ryozo
Format: Article
Language:English
Subjects:
Animals
Calcium - metabolism
Calcium Channel Blockers - pharmacology
Calcium Channels, L-Type - metabolism
Cell Nucleus - drug effects
Cell Nucleus - metabolism
Cells, Cultured
Cold
Cold Temperature
Ganglia, Spinal - drug effects
Ganglia, Spinal - metabolism
Ganglia, Spinal - pathology
Gene Expression Regulation - drug effects
Hyperalgesia - chemically induced
Hyperalgesia - genetics
Hyperalgesia - pathology
Intracellular Space - drug effects
Intracellular Space - metabolism
Male
NFATC Transcription Factors - metabolism
Organoplatinum Compounds
Oxalates - pharmacology
Protein Transport - drug effects
Proteins
Rats
Rats, Sprague-Dawley
RNA, Messenger - genetics
RNA, Messenger - metabolism
Rodents
Sodium Channel Blockers - pharmacology
TRPM Cation Channels - genetics
TRPM Cation Channels - metabolism
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Summary:Background: Oxaliplatin is an important drug used in the treatment of colorectal cancer. However, it frequently causes severe acute and chronic peripheral neuropathies. We recently reported that repeated administration of oxaliplatin induced cold hyperalgesia in the early phase and mechanical allodynia in the late phase in rats, and that oxalate derived from oxaliplatin is involved in the cold hyperalgesia. In the present study, we examined the effects of Ca2+ channel blockers on oxaliplatin-induced cold hyperalgesia in rats. Methods: Cold hyperalgesia was assessed by the acetone test. Oxaliplatin (4 mg/kg), sodium oxalate (1.3 mg/kg) or vehicle was injected i.p. on days 1 and 2. Ca2+ (diltiazem, nifedipine and ethosuximide) and Na+ (mexiletine) channel blockers were administered p.o. simultaneously with oxaliplatin or oxalate on days 1 and 2. Results: Oxaliplatin (4 mg/kg) induced cold hyperalgesia and increased in the transient receptor potential melastatin 8 (TRPM8) mRNA levels in the dorsal root ganglia (DRG). Furthermore, oxalate (1.3 mg/kg) significantly induced the increase in TRPM8 protein in the DRG. Treatment with oxaliplatin and oxalate (500 μM for each) also increased the TRPM8 mRNA levels and induced Ca2+ influx and nuclear factor of activated T-cell (NFAT) nuclear translocation in cultured DRG cells. These changes induced by oxalate were inhibited by nifedipine, diltiazem and mexiletine. Interestingly, co-administration with nifedipine, diltiazem or mexiletine prevented the oxaliplatin-induced cold hyperalgesia and increase in the TRPM8 mRNA levels in the DRG. Conclusions: These data suggest that the L type Ca2+ channels/NFAT/TRPM8 pathway is a downstream mediator for oxaliplatin-induced cold hyperalgesia, and that Ca2+ channel blockers have prophylactic potential for acute neuropathy.
ISSN:1744-8069
1744-8069
DOI:10.1186/1744-8069-8-7