MCC950通过抑制NLRP3-Caspase-1-GSDMD通路保护小鼠视网膜感光细胞的冲击波损伤OA
MCC950 protects retinal photoreceptor cells against blast-induced injury by inhibiting the NLRP3/Caspase-1/GSDMD pathway in mice
目的 冲击波介导的创伤性脑损伤(blast-induced traumatic brain injury,bTBI)常常在工业事故或军事环境中流行,当合并视功能损伤时,由于其独特的致伤机制与复杂的病理演变区别于传统的眼外伤.通过探究冲击波暴露后,NLRP3抑制剂MCC950对视网膜结构和功能的影响.方法 采用生物激波管建立bTBI小鼠模型,8周龄雄性C57BL/6J小鼠[体质量(23.5±1.5)g]按体质量分层后随机分为(n=8):假手术组、bTBI 28 d组、bTBI 28 d+DMSO组及bTBI 28 d+MCC950组(腹腔注射MCC950,10 mg/kg).冲击波暴露后,通过视网膜电图(electroretinography,ERG)评估视网膜功能(n=8);采用Western blotting检测视网膜NLRP3、Caspase-1、Cleaved-GSDMD、IL-1β及IL-18的蛋白水平(n=3);利用免疫荧光染色和Western blotting定位定量分析Müller细胞和小胶质细胞活化情况(n=3);通过透射电镜分析感光细胞超微结构的变化(n=3).结果 与假手术组相比,bTBI 28 d组小鼠表现为进行性视功能障碍,表现为暗适应ERG的a波(P<0.001)、b波(P<0.01)、OPs波(P<0.001)振幅显著降低;视网膜出现Müller细胞(P<0.05)和小胶质细胞(P<0.001)的显著活化;视网膜中NLRP3(P<0.05)、Caspase-1(P<0.01)、Cleaved-GSDMD(P<0.05)及下游炎症因子IL-1β(P<0.01)、IL-18(P<0.001)的蛋白水平均显著升高.透射电镜显示:bTBI 28 d组小鼠感光细胞外节膜盘结构紊乱、内节空泡化.MCC950干预显著逆转了上述改变,表现为:与bTBI 28 d组相比,bTBI 28 d+MCC950组a波、b波、OPs波振幅显著回升(P<0.05),Müller细胞(P<0.01)和小胶质细胞(P<0.05)活化被显著抑制;焦亡通路中NLRP3、Caspase-1、Cleaved-GSDMD、IL-1β、IL-18蛋白显著下调(P<0.01),感光细胞超微结构损伤明显减轻.结论 冲击波暴露后视网膜损伤与NLRP3-Caspase-1-GSDMD信号轴介导的感光细胞焦亡密切相关,而早期应用MCC950抑制该焦亡通路可有效减轻神经炎症与胶质化反应,从而对视网膜光感受器细胞的结构与功能发挥保护作用.
Objective Blast-induced traumatic brain injury(bTBI)is frequently observed in industrial accidents and military operations,and presents unique mechanisms of injury and complex pathological evolution distinct from conventional ocular trauma when complicated by visual dysfunction.By investigating the effects of NLRP3 inhibitor MCC950 on retinal structure and function following blast wave exposure.Methods A bTBI mouse model was established using a biological shock tube.Male C57BL/6J mice(8 weeks old,weighing 23.5±1.5 g)were stratified by body mass and randomly divided into a sham group,a bTBI 28 d group,a bTBI 28 d+DMSO group,and a bTBI 28 d+MCC950 group(MCC950,10 mg/kg,i.p.),with 8 animals in each group.After blast exposure,retinal function was evaluated by electroretinography(ERG,n=8);the protein levels of NLRP3,Caspase-1,Cleaved-GSDMD,IL-1β and IL-18 in the retina were detected by Western blotting(n=3);the activation of Müller cells and microglia was analyzed by immunofluorescence staining(IF)and Western blotting(n=3);and photoreceptor ultrastructural changes were observed with transmission electron microscopy(TEM,n=3).Results Compared with the sham group,the bTBI 28 d group exhibited progressive visual dysfunction,manifested by significantly reduced amplitudes of the a-wave(P<0.001),b-wave(P<0.01),and oscillatory potentials(OPs)wave(P<0.001)in dark-adapted ERG;significant activation of Müller cells(P<0.05)and microglia(P<0.001)in the retina;and significant elevated retinal protein levels of NLRP3(P<0.05),Caspase-1(P<0.01),Cleaved-GSDMD(P<0.05),and downstream inflammatory factors IL-1β(P<0.01)and IL-18(P<0.001).TEM revealed disorganized outer segment disc structures and inner segment vacuolization in photoreceptors of the bTBI 28 d group.MCC950 intervention significantly reversed these changes,as evidenced by significantly increased amplitudes of the a-wave,b-wave,and OPs wave in ERG in the bTBI 28 d+MCC950 group compared with the bTBI 28 d group(P<0.05),significantly inhibited activation of Müller cells(P<0.01)and microglia(P<0.05),significant downregulation of pyroptosis pathway proteins including NLRP3,Caspase-1,Cleaved-GSDMD,IL-1β,and IL-18(P<0.01),and markedly attenuated photoreceptor ultrastructural damage.Conclusion Retinal injury following blast exposure is closely associated with NLRP3-Caspase-1-GSDMD signaling axis-mediated photoreceptor pyroptosis.Early administration of MCC950 to inhibit this pyroptosis pathway can effectively alleviate neuroinflammation and gliosis,thereby exerting protective effects on the structure and function of retinal photoreceptor cells.
王越;杨楠;宁亚蕾;袁容娣
陆军军医大学(第三军医大学)第二附属医院眼科,重庆陆军军医大学(第三军医大学)大坪医院野战外科研究部,重庆陆军军医大学(第三军医大学)大坪医院野战外科研究部,重庆陆军军医大学(第三军医大学)第二附属医院眼科,重庆
医药卫生
创伤性脑损伤冲击伤NLR家族含pyrin结构域蛋白3光感受器细胞MCC950
brain injury,traumaticblast injuriesNLR family,pyrin domain containing 3photoreceptor cellsMCC950
《陆军军医大学学报》 2026 (9)
1142-1151,10
陆军军医大学科技创新能力提升专项(2023XJS49) Supported by the Special Project of Science and Technology Innovation Capacity Promotion of Army Medical University(2023XJS49).
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