泥鳅二倍体与四倍体trim63a基因的克隆及表达分析

试验以泥鳅( Misgurnus anguillicaudatus,Ma )为研究对象,采用PCR技术克隆获得 trim63a 基因(tripartite motif containing 63,又名肌肉环状指基因1)的cDNA部分序列,生物信息学分析结果显示, Ma-trim63a 基因cDNA的编码序列(coding sequence,CDs)为1 035 bp,编码344个氨基酸,与硬骨鱼类相似度较高。采用荧光定量PCR技术检测人工繁殖获得的二倍体(D×D)和四倍体(T×T)胚胎不同发育时期 Ma-trim63a 的表达量以及泥鳅二倍体(D)和四倍体(T)成鱼不同组织中 Ma-trim63a 的表达量,基因表达分析结果显示, Ma-trim63a 在泥鳅二倍体和四倍体成鱼肌肉中的相对表达量最高,其次是心脏;Ma-trim63a 在泥鳅二倍体和四倍体胚胎的13个发育时期均有表达,但是不同倍性的胚胎表达差异较大。

靶向TRIM63调节氧化应激通路改善急性脑卒中后血脑屏障损伤和神经功能恢复

目的 观察靶向TRIM63调节氧化应激通路改善急性脑卒中后血脑屏障损伤和神经功能恢复的研究。方法 取成年雄性C57小鼠,随机分为:Sham组,Vehicle组,Myomed-205组,构造短暂性大脑中动脉闭塞(tMCAO)小鼠模型,Myomed-205组、Vehicle组和Sham组分别于拔出线栓后腹腔注射TRIM63抑制剂Myomed-205和等体积溶剂。再灌注3 d观察各组小鼠TTC染色分析脑梗死体积,神经功能评分观察神经功能恢复情况,干湿重法分析脑含水量。ROS、超氧化物歧化酶、谷胱甘肽和丙二醛试剂盒分析各组小鼠脑氧化应激指标含量。Evans Blue法检测血脑屏障损伤情况,Western blotting法观察ZO-1、Occludin蛋白表达情况。结果 发现Myomed-205处理组小鼠与Vehicle组相比脑梗死体积明显降低(P<0.05),100 mg/ml的Myomed-205处理组小鼠比对照组神经功能评分显著降低(P<0.05),而脑含水量比对照组显著降低(P<0.05)。Myomed-205组小鼠在卒中后3 d、7 d、14 d ROS阳性细胞数比Vehicle组显著降低(P<0.05),促氧化应激指标MDA表达量比对照组显著降低(P<0.05),而抗氧化指标GSH、SOD表达量比对照组显著升高(P<0.05)。Myomed-205组小鼠比Vehicle组在卒中后7 d、14 d EB漏出显著降低(P<0.05),ZO-1和Occludin蛋白表达显著升高(P<0.05)。结论 抑制TRIM63信号通路促进小鼠脑缺血性卒中神经功能恢复,此过程可能通过减轻氧化应激反应和血脑屏障损伤完成。

补充海洋肽对大鼠血清CK-MM及骨骼肌泛素连接酶Trim63的影响

目的:观察补充大豆蛋白和海洋肽对离心运动后大鼠血清CK-MM含量和骨骼肌中泛素连接酶Trim63mRNA基因表达的变化。方法:雄性SD大鼠72只,分为安静组、单纯运动组、运动+大豆蛋白组和运动+海洋肽组,进行六周跑台适应性离心运动(坡度-5°,前三周跑速分别为20、30、32.5 m/min,后三周速度35 m/min,2.5 min×6次,间歇1 min),最后一次运动后即刻、24 h、48 h取大鼠血清及股中肌备测。结果:补充大豆蛋白和海洋肽使延迟性肌肉损伤大鼠血清CK-MM含量减少(49.79±25.18 vs.52.40±12.86);运动后48 h单纯运动组Trim63基因表达较同组即刻明显增加(2.75±1.90vs.0.55±0.54,P<0.01);运动后48 h运动+补充大豆蛋白组Trim63基因表达较同时刻单纯运动组明显减少(0.43±0.09 vs.2.75±1.90,P<0.01),而且明显高于运动+海洋肽组(1.16±0.21 vs.0.43±0.09,P<0.05)。结论:相比海洋肽而言,同剂量大豆蛋白对胞膜的修复作用更好一些;对运动后Trim63基因表达的抑制作用,同剂量大豆蛋白的作用优于海洋肽。

Muscle RING-finger protein-1 (MuRFl) functions and cellular localization are regulated by SUMOl post-translational modification

The muscle RING-finger protein-1 (MuRFl) is an E3 ubiquitin ligase expressed in skeletal and cardiac muscle tissues and it plays important roles in muscle remodeling. Upregulation of MuRFl gene transcription participates in skeletal muscle atrophy, on contrary downregulation of protein expression leads to cardiac hypertrophy. MuRFl gene point mutations have been found to generate protein aggregate myopathies defined as muscle disorder characterized by protein accumulation in muscle fibers. We have discovered that MuRFl turned out to be also a target for a new post-translational modification arbitrated by conjugation of SUM01 and it is mediated by the SUMO ligases E2 UBC9 and the E3 PIASy/4. SUMOylation takes place at lysine 238 localized at the second coiled-coil protein domain that is required for efficient substrate interaction for polyubiquitination. We provided evidence that SUMOylation is essential for MuRFl nuclear translocation and its mitochondria accumulation is enhanced in hyper? glycemic conditions delivering a stabilization of the overall SUMOylated proteins in cultured myocytes. Thus, our findings add this SUM01 post-translational modification as a new concept to understand muscle disorders related to the defect in MuRFl activity.