Abstract
Aim: The aim of this study is to gain a better understanding of how certain ion channels play a role in the molecular mechanisms of salicylate- and noise-induced tinnitus. Method: The present study was conducted on thirty-two, 4-month-old, male Wistar Albino rats. Rats were equally divided into four groups; two experimental groups and two control groups. The assessment of tinnitus was based on a behavioral test which was modified from the conditional suppression method. Tinnitus was induced by sodium salicylate administration and noise exposure in rats in which the suppression ratios were zero (0). All animals in both experimental and control groups were decapitated in deep anaesthesia for 2 h after salicylate or saline administration and noise exposure, consecutively. Tissues from the left and right cochlear nucleus were dissected immediately in ice-cold RNA later (Invitrogen). Before reverse transcription, the RNA pools were arranged. Quantitative changes in HCN1, HCN2, HCN4, SCN1A, SCN2A1, SCN3A, TRPM2, TRPM7 and GAPDH mRNA expressions in the cochlear nucleus in both experimental and control groups were examined by quantitative real-time PCR method. Statistical data were analysed using the SPSS 21 program (Version 21.0, SPSS Inc., Chicago, IL, USA) with the Kruskal-Wallis and Mann-Whitney U tests. Results: Fold changes in the expression levels of SCNA1, SCN2A1, SCN3A, TRPM2, TRPM7, CACNA1B, HCN1, HCN2 and HCN4 genes in both salicylate-induces tinnitus (SAT) and noise-induced tinnitus (NT) groups compared with the control group. According to these data, it is seen that the mRNA levels of all genes are lower in the cochlear nucleus area of the rats in both SAT and NT groups than in the control group. Considering each of these genes in NT group: SCNA1, SCN3A, TRPM7 genes slightly decreased; SCN2A1, TRPM2, HCN1 and HCN4 genes slightly increased compared with the SAT group. For HCN2 gene fold changes were nearly the same in the NT and SAT groups. Conclusion: The findings of this study suggest that tinnitus generation may be closely related to alterations in several key ion channel families activity including voltage-gated calcium channels, hyperpolarization-activated cyclic nucleotide–gated (HCN) channels, transient receptor potential (TRP) channels, voltage-gated sodium channels within the CN, specifically in response to salicylate-induced and noise-induced tinnitus models.
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