Graduated Program in Pharmacology, Federal University of Santa Maria (UFSM), 97105-900 Santa Maria, RS, Brazil.
Graduated Program in Health Sciences, University of the Extreme South of Santa Catarina (Unesc), 88006-000 Criciúma, SC, Brazil.
Eur J Pharm Sci. 2018 Dec 1;125:28-38. doi: 10.1016/j.ejps.2018.09.012. Epub 2018 Sep 17.
Thermal injury promotes tissue inflammation and pain, which is difficult to control. Different peripheral mechanisms seem to be involved in burn pain, such as free radical-induced damage, but further study is still needed to understand how oxidant substances induced nociceptor sensitization. The transient receptor potential ankyrin 1 (TRPA1) is an ion channel activated by oxidants substances, and it could be sensitized after tissue inflammation. This study evaluated the TRPA1 involvement in nociception and inflammation produced by a thermal injury model. Male Wistar rats were used. The concentration of the TRPA1 antagonist (HC-030031, 0.05%) on base cream was chosen using allyl isothiocyanate intraplantar test. Then, the base cream containing HC-030031 was tested on the thermal injury model (induced by warm water immersion of hind paw, under anesthesia), and silver sulfadiazine (1%) was used as a positive control. Cream treatments on the hind paw were done daily (200 mg/paw) for 6 days after thermal injury. Also, nociception (static and dynamic mechanical allodynia, heat allodynia, and spontaneous pain) or edema were evaluated. On day 6, inflammatory and oxidative parameters were assessed. The base cream containing HC-030031 produced antinociceptive and anti-inflammatory effects (reduced the edema and inflammatory cells infiltration) and decreased the levels of hydrogen peroxide, or superoxide dismutase and NADPH oxidase activities after thermal injury. Thus, this study showed the involvement of the TRPA1 receptor in the nociception and inflammation caused by thermal injury and suggested that TRPA1 antagonists might be useful as novel treatments for pain and inflammation by topical application.
热损伤可促进组织炎症和疼痛,且疼痛较难控制。不同的外周机制似乎参与了烧伤疼痛,例如自由基诱导的损伤,但仍需要进一步研究以了解氧化剂如何引起伤害感受器致敏。瞬时受体电位锚蛋白 1(TRPA1)是一种被氧化剂激活的离子通道,其在组织炎症后可被致敏。本研究评估了 TRPA1 在热损伤模型引起的伤害感受和炎症中的作用。雄性 Wistar 大鼠被用于本研究。采用异硫氰酸烯丙酯足底皮下注射实验选择 TRPA1 拮抗剂(HC-030031,0.05%)在基础乳膏中的浓度。然后,在热损伤模型(麻醉下通过热水浸泡后爪引起)上测试含有 HC-030031 的基础乳膏,并将磺胺嘧啶银(1%)用作阳性对照。在热损伤后,每日对后爪进行乳膏处理(每爪 200mg),共 6 天。还评估了伤害感受(静态和动态机械性痛觉过敏、热痛觉过敏和自发性疼痛)或水肿。在第 6 天,评估炎症和氧化参数。含有 HC-030031 的基础乳膏具有镇痛和抗炎作用(减少水肿和炎症细胞浸润),并降低了热损伤后过氧化氢、超氧化物歧化酶和 NADPH 氧化酶活性的水平。因此,本研究表明 TRPA1 受体参与了热损伤引起的伤害感受和炎症,并表明 TRPA1 拮抗剂可能通过局部应用成为治疗疼痛和炎症的新方法。
