Article ID Journal Published Year Pages File Type
3055963 Experimental Neurology 2010 14 Pages PDF
Abstract

The integrated mechanisms of dynamic signaling of sodium channels involved in clinical pain are still not yet clear. In this study, a new rat inflammatory pain model was developed by using the unilateral intraplantar injection of BmK I, a receptor site 3-specific modulator of sodium channels from the venom of scorpion Buthus martensi Karsch (BmK). It was found that BmK I could induce several kinds of inflammatory pain-related behaviors including spontaneous pain companied with unique episodic paroxysms, primary thermal hypersensitivity, and mirror-image mechanical hypersensitivity with different time course of development, which could be suppressed by morphine, indomethacin, or bupivacaine to a different extent. The dramatic attenuation by pretreatment with resiniferatoxin (RTX), an ultrapotent analog of capsaicin, on BmK I-induced pain-related behaviors, paw edema, and spinal L4–L5 c-Fos expression demonstrated that capsaicin-sensitive primary afferent neurons played important roles in pain induced by BmK I. Furthermore, the electrophysiological recordings showed that BmK I persistently increased whole-cell and tetrodotoxin-resistant (TTX-R) peak sodium currents and significantly delayed the inactivation phase of whole-cell sodium currents but could not enhance capsaicin-evoked inward currents, in acute isolated small dorsal root ganglion neurons of rat. The results strongly suggested that the dynamic modulation of BmK I on sodium channels located in peripheral primary afferent neurons, especially in capsaicin-sensitive neurons, mediated pain sensation. Thus, BmK I may be a valuable pharmacological tool to understand the sodium channel-involved pain mechanisms.

Research Highlights►A novel pain model has been set up by using BmK I, a polypeptide VGSCs modulator. ►Distinct mechanical mirror-image pain can be induced by BmK I on rat hind paws. ►Unique paroxysmal pain-like behaviors can be induced by BmK I on rat. ►BmK I-induced pain is generated from the modulation on peripheral VGSCs. ►BmK I-induced pain is mainly mediated by capsaicin-sensitive primary afferents.

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