中华麻醉学杂志
中華痳醉學雜誌
중화마취학잡지
Chinese Journal of Anesthesiology
2015年
8期
969-971
,共3页
王存金%孔双明%高巨%葛亚丽%方向志
王存金%孔雙明%高巨%葛亞麗%方嚮誌
왕존금%공쌍명%고거%갈아려%방향지
rho相关激酶类%疼痛%脊髓%炎症
rho相關激酶類%疼痛%脊髓%炎癥
rho상관격매류%동통%척수%염증
rho-associated kinases%Pain%Spinal cord%Inflammation
目的 评价脊髓RhoA/ROCK信号通路在脂多糖致大鼠炎性痛形成中的作用.方法 清洁级成年雄性SD大鼠52只,体重180 ~ 220 g,采用随机数字表法分为4组(n=13):生理盐水组(NS组)、炎性痛组(IP组)、RhoA抑制剂C3 exoenzyme组(LC组)和ROCK抑制剂Y27632组(LY组).采用足底注射脂多糖25 μl(300 ng)的方法制备大鼠炎性痛模型.NS组注射等容量生理盐水;LC组和LY组分别在足底注射脂多糖前30 min鞘内注射C3 exoenzyme 10 pg和Y27632 10 nmol.于足底注射脂多糖前(T0)、注射后1、3、5、12和24 h(T1-5)时测定大鼠机械痛阈和热痛阈,于T3时痛阈测定后取大鼠L45脊髓背角,采用RT-PCR法测定TNF-α和IL-1β的mRNA表达.结果 与NS组比较,IP组、LC组和LY组T2-5时机械痛阈和热痛阈降低,IP组T3时脊髓背角TNF-α和IL-1β的mR-NA表达上调(P<0.05);与IP组比较,LC组和LY组T2-5时机械痛阈和热痛阈升高,T3时脊髓背角TNF-α和IL-1β的mRNA表达下调(P<0.05).结论 脊髓RhoA/ROCK信号通路参与了脂多糖致大鼠炎性痛形成的过程.
目的 評價脊髓RhoA/ROCK信號通路在脂多糖緻大鼠炎性痛形成中的作用.方法 清潔級成年雄性SD大鼠52隻,體重180 ~ 220 g,採用隨機數字錶法分為4組(n=13):生理鹽水組(NS組)、炎性痛組(IP組)、RhoA抑製劑C3 exoenzyme組(LC組)和ROCK抑製劑Y27632組(LY組).採用足底註射脂多糖25 μl(300 ng)的方法製備大鼠炎性痛模型.NS組註射等容量生理鹽水;LC組和LY組分彆在足底註射脂多糖前30 min鞘內註射C3 exoenzyme 10 pg和Y27632 10 nmol.于足底註射脂多糖前(T0)、註射後1、3、5、12和24 h(T1-5)時測定大鼠機械痛閾和熱痛閾,于T3時痛閾測定後取大鼠L45脊髓揹角,採用RT-PCR法測定TNF-α和IL-1β的mRNA錶達.結果 與NS組比較,IP組、LC組和LY組T2-5時機械痛閾和熱痛閾降低,IP組T3時脊髓揹角TNF-α和IL-1β的mR-NA錶達上調(P<0.05);與IP組比較,LC組和LY組T2-5時機械痛閾和熱痛閾升高,T3時脊髓揹角TNF-α和IL-1β的mRNA錶達下調(P<0.05).結論 脊髓RhoA/ROCK信號通路參與瞭脂多糖緻大鼠炎性痛形成的過程.
목적 평개척수RhoA/ROCK신호통로재지다당치대서염성통형성중적작용.방법 청길급성년웅성SD대서52지,체중180 ~ 220 g,채용수궤수자표법분위4조(n=13):생리염수조(NS조)、염성통조(IP조)、RhoA억제제C3 exoenzyme조(LC조)화ROCK억제제Y27632조(LY조).채용족저주사지다당25 μl(300 ng)적방법제비대서염성통모형.NS조주사등용량생리염수;LC조화LY조분별재족저주사지다당전30 min초내주사C3 exoenzyme 10 pg화Y27632 10 nmol.우족저주사지다당전(T0)、주사후1、3、5、12화24 h(T1-5)시측정대서궤계통역화열통역,우T3시통역측정후취대서L45척수배각,채용RT-PCR법측정TNF-α화IL-1β적mRNA표체.결과 여NS조비교,IP조、LC조화LY조T2-5시궤계통역화열통역강저,IP조T3시척수배각TNF-α화IL-1β적mR-NA표체상조(P<0.05);여IP조비교,LC조화LY조T2-5시궤계통역화열통역승고,T3시척수배각TNF-α화IL-1β적mRNA표체하조(P<0.05).결론 척수RhoA/ROCK신호통로삼여료지다당치대서염성통형성적과정.
Objective To evaluate the role of spinal RhoA/ROCK signaling pathway in the development of lipopolysaccharide (IP)-induced inflammatory pain(IP) in rats.Methods Fifty-two male Sprague-Dawley rats, weighing 180-220 g, were equally randomized into 4 groups using a random number table: normal saline group (group NS) , LPS group, RhoA inhibitor C3 exoenzyme group (group LC) , and ROCK inhibitor Y27632 group (group LY).Inflammatory pain was induced by injecting LPS 25 μl (300 ng) into the plantar surface of hindpaws in IP, LC and LY groups, while the equal volume of normal saline was injected instead in NS group.C3 exoenzyme 10 pg and Y27632 10 nmol were injected intrathecally at 30 min prior to LPS administration in LC and LY groups, respectively.Before LPS injection (T0) , and at 1, 3, 5, 12 and 24 h after LPS injection (T1-5) , the mechanical and thermal pain thresholds were measured.Five rats in each group were sacrificed after pain thresholds were measured at T3, and L4.5 segments of the spinal cord were removed for determination of tumor necrosis factor-alpha (TNF-α) and interleukin-1 beta (IL-1β) mRNA expression in spinal dorsal horns by real-time reverse transcriptase-polymerase chain reaction.Results Compared with group NS, the mechanical and thermal pain thresholds were significantly decreased at T2-5in IP, LC and LY groups, and TNF-α and IL-1β mRNA expression was up-regulated at T3 in IP group.Compared with group IP, the mechanical and thermal pain thresholds were significantly increased at T2-5, and TNF-α and IL-1β mRNA expression was down-regulated at T3 in LC and LY groups.Conclusion Spinal RhoA/ROCK signaling pathway is involved in the development of LPS-induced IP in rats.