Molecular cloning and mRNA expression analysis of myosin heavy chain(MyHC)from fast skeletal muscle of grass carp,Ctenopharyngodon idella

The myosin heavy chain(MyHC)is one of the major structural and contracting proteins of muscle.We have isolated the cDNA clone encoding MyHC of the grass carp,Ctenopharyngodon idella. The sequence comprises 5 934 bp,including a 5 814 bp open reading frame encoding an amino acid sequence of 1 937 residues.The deduced amino acid sequence showed 69%homology to rabbit fast skeletal MyHC and 73%–76%homology to the MyHCs from the mandarin fish,walleye pollack,white croaker,chum salmon,and carp.The putative sequences of subfragment-1 and the light meromyosin region showed 61.4%–80%homology to the corresponding regions of other fish MyHCs.The tissue-specific and developmental stage-specific expressions of the MyHC gene were analyzed by quantitative real-time PCR.The MyHC gene showed the highest expression in the muscles compared with the kidney,spleen and intestine.Developmentally,there was a gradual increase in MyHC mRNA expression from the neural formation stage to the tail bud stage.The highest expression was detected in hatching larva.Our work on the MyHC gene from the grass carp has provided useful information for fish molecular biology and fish genomics.

Induction of Cardiomyocyte Apoptosis by Anti-Cardiac Myosin Heavy Chain Antibodies in Patients with Acute Myocardial Infarction

Autoimmune is involved in the pathogenesis of ventricular remodeling in acute myocardial infarction (AMI).In the present study, we investigated the effect of anti-cardiac myosin heavy chain antibodies (AMHCA) from patients with AMI on rat cardiomyocyte apoptosis.Cardiomyocyte apoptosis was observed and measured by DNA end labeling and Annexin-Ⅴ/PI double-staining assay.The expression of apoptosis related p53 and Bcl-2 protein and the second messenger calcium were detected respectively by Western blotting, patch clamp and confocal calcium imaging.The results showed that AMHCA was able to induce cardiomyocyte apoptosis in a dose dependent manner.Apoptosis-accelerating nucleoprotein p53 was up-regulated, while apoptosis-inhibiting cytoplasmic protein Bcl-2 was down-regulated.In parallel, cytoplasmic calcium concentration was elevated.There was no effect on L-type calcium currents.It is concluded that AMHCA in patients with AMI as a novel triggering factor can induce cardiomyocyte apoptosis, which contributes to ventricular remodeling.

Effect of aerobic exercise on the contractile function of gastrocnemius myosin heavy chain

Objective To study the effect of 4-6 weeks’ treadmill training of male SD rats on the contractile function of their gastrocnemius myosin heavy chain (MHC). Methods Forty male SD rats were randomly divided into control group and training group. The treadmill training of the training group rats was incessantly performed for 4-6 weeks at an intensity of about 75% VO2max (18.5-24 m/min,gradient of 0°,each training session lasting 50 minutes,twice a day). The content of gastrocnemius MHC mRNA was tested by reverse transcription polymerase chain reaction (RT-PCR),and the changes of muscle fibre and its cross-section area (CSA) were measured using immunohistochemistry. Electric stimulation tests were used to determine the maximal tension of isometric contraction of the post-training gastrocnemius. Results ① After continuous treadmill training for 4-6 weeks,we found that the content of the total MHC,MHC Ⅰ,MHC Ⅱx,MHC Ⅱa mRNAs was 105%,105%,109% and 108% of that in the resting control group,respectively,and the MHC Ⅱb mRNA content did not change significantly. The percentage of MHC Ⅰ mRNA in the total MHC mRNA increased while that of MHC Ⅱ mRNA decreased after aerobic training. ② The slow type of fibre type Ⅰ was the main part of the MHC after training and the CSA of the muscle fibres increased simultaneously. ③ The maximal tension of isometric contraction by pulse stimulation of square wave in the training group increased significantly compared with that in the control group (P<0.01). Conclusion The findings indicate that aerobic exercise may promote an increase in the contractile function of MHC.

Agaro-Oligosaccharides Prevent Myostatin Hyperexpression and Myosin Heavy Chain Protein Degradation in C2C12 Myotubes Induced by Tumor Necrosis Factor-<i>α</i>

Myostatin is a major factor involved in the regulation of skeletal muscle protein mass. High myostatin levels have been associated with an increase in myotube shrinkage. Enhanced myostatin expression is caused by pro-catabolic reactions involving compounds such as tumor necrosis factor (TNF)-α. The present study investigated the effects of agaro-oligosaccharides (AOSs) on hypercatabolism of myotubes exposed to TNF-α. C2C12 myotubes exposed to TNF-α in the presence or absence of AOSs. Myotube exposure to TNF-α resulted in a reduction in the amount of myosin heavy chain (MyHC) protein and a decrease in myotube diameter, which was associated with increased myostatin mRNA expression. AOSs prevented TNF-α-induced MyHC protein loss and restored normal myostatin mRNA levels, with agarobiose and agarotetraose effectively suppressing the hyperexpression of the mRNA. In addition, expression levels of the known myostatin inhibitors, latent transforming growth factor beta binding protein 3 (Ltbp3) and growth and differentiation factor-associated serum protein 1 (Gasp1) mRNAs, decreased more in TNF-α-induced myotubes than in the TNF-α-free control, possibly resulting in myostatin upregulation. However, AOSs restored nearly normal expression levels of Ltbp3 and Gasp1 mRNA, potentially suppressing myostatin expression. These findings suggest that AOSs could prevent myotube shrinkage induced by TNF-α.

HMG CoA reductase inhibition by Simvastatin gets rat <i>β</i>-Myosin heavy chain disappeared: A statin paradox

3-hydroxy-3methylglutaryl Coenzyme A reductase, the rate limiting enzyme of mevalonate pathway, generates, in addition to cholesterol, a range of products involved in several biological functions: oligoprenyl groups, dolichol and ubiquinone. The latter, in particular, participates in electron transport chain and, in turn, in tissue energy supply. The enzyme is inhibited by statins that, besides lowering cholesterolemia, seem to impair human energy-dependent myocardial functions (e.g. stroke volume, cardiac output, and contractile index). The modulation of heart contractile properties could be explained by the decrease of ventricle ubiquinone content and/or by putative changes in proportion of the different myosin heavy chain isoforms. Since we previously demonstrated that chronic statin treatment modifies myosin heavy chain isoform pattern in skeletal muscle impairing its functional properties, this work was aimed at investigating the effects of statin chronic treatment on both ventricle ubiquinone content and myosin heavy chain isoforms. Our results showed that simvastatin treatment leads to a reduced amount of rat ventricle ubiquinone and to β myosin heavy chain disappearance. Thus, statins which are prescribed to prevent cardiovascular disease, might induce cardiac metabolic and structural modifications whose functional implications on contractility are still to be established and carefully considered.

CHARACTERIZATION OF THE β－MYOSIN HEAVY CHAIN GENE MISSENSE MUTATIONIN A CHINESE PATINENT WITH HYPERTROPHIC CARDIOMYOPHTHY

We have analyzed the exons 13, 16, 21 and 23 of cardiac myosin heavy chain gene in 32 Chinese patients with hypertrophic cardiomyopathy by using PCR-single strand conformation polymorphism (PCR-SSCP) procedure. The result showed an altered SSCP of the exon 13 in one patient. Sequencing analysis revealed that the patient had a G to T transversion in the codon 383, resulting in the substitution of Lys by Asn. Beacause the missense mutation was found at the residue highly conserved through species evolution, this mutation is likely, to be the cause of hypertrophic cardiomyopathy in this patient. This is the first report of a mutant cardiac β-MHC gene in the Chinese population. Also, it is a novel missense mutation of the cardiac β-MHC gene.

不同强度运动对骨骼肌纤维MHC亚型转化及CaN/NFATc1信号通路的影响

目的:研究不同强度运动对骨骼肌纤维MHC亚型转化及钙调神经磷酸酶(Ca N)/活化T细胞核因子1(NFATc1)信号通路的影响。方法:雄性SD大鼠(2月龄)24只,随机分为3组(n=8):正常对照组(NC)、中等强度组(ME)、大强度组(HE),进行8周跑台训练。采用ATP酶染色法测定I、II型肌纤维,凝胶电泳技术分离肌球蛋白重链(MHC)亚型,比色法测定骨骼肌中Ca N活性,免疫印迹技术测定骨骼肌NFATc1蛋白含量。结果:(1)肌纤维密度变化:股四头肌ME组I、II型纤维数密度均显著增加(P<0.05),HE组仅II型纤维面密度显著增加(P<0.05);比目鱼肌HE、ME组I型纤维数密度均显著增加(P<0.05);(2)肌纤维MHC亚型百分比变化:股四头肌ME组MHCI、IIa百分比升高(P<0.05),而MHCIIb百分比降低(P<0.05);比目鱼肌MHCI百分比升高,MHCIIa、IIb百分比降低;(3)ME组大鼠Ca N活性、NFAT1蛋白含量均显著升高(P<0.05)。结论:大、中等强度运动可诱导骨骼肌MHC快型向慢型转化,同时伴随肌纤维亚型变化骨骼肌中Ca N活性增加、NFATc1蛋白表达增加。

急性低氧及力竭运动对大鼠骨骼肌肌球蛋白重链(MHC)亚型基因表达的影响

研究急性低氧及力竭运动对大鼠骨骼肌肌球蛋白重链 (MHC)亚型基因表达的影响。取健康 SD雌性大鼠 80只 ,随机分成 4大组 :常氧对照组 (C) ,常氧力竭组 (NE) ,低氧对照组 (HC)和低氧力竭组 (HE)。采用半定量反转录聚合酶链式反应 (RT- PCR)法 ,测定各组骨骼肌 MHCI、IIa、IIx、IIb4种亚型的 m RNA基因表达。结果表明 ,MHC各亚型 m RNA所占百分比分析显示 ,单纯低氧能刺激 MHC亚型 m RNA表达出现“由慢到快”的趋势 ;力竭运动则能刺激 MHCm RNA表达出现“由快到慢”的趋势。关于 MHC亚型转变在功能上的意义还有待进一步研究。

Phalloidin对机械牵张复合模拟缺血缺氧心肌细胞MHC mRNA表达的影响

目的 探讨肌动蛋白细胞骨架稳定剂鬼笔槐酞 (Phalloidin)对机械牵张复合模拟缺血缺氧损伤心肌细胞肌球蛋白重链 (myosinheavychain ,MHC)mRNA表达的影响。方法 建立离体培养的心肌细胞机械牵张模型 ,并施加无糖缺氧刺激因素 ,模拟烧伤后缺血缺氧损害。采用RT PCR方法检测phalloidin对心肌细胞MHCmRNA表达的影响 ,并利用凝胶分析软件对PCR结果进行分析。结果 10 %牵张导致MHCmRNA由α型、β型表达均增加 ,且以 β型增加为主。模拟缺血缺氧时MHCmRNAα型减少 ,β型增多后下降。 10 %牵张 +模拟缺血缺氧时 ,α型、β型变化加剧 ,随刺激时间的延长转化加剧 ,12h后 ,α型、β型MHCmRNA表达均下调 (P <0 .0 1、P <0 .0 5 )。应用Phalloidin后 ,显著改善了 10 %牵张 +模拟缺血缺氧时α型向 β型的异常转化。 结论 机械牵张进一步加剧了模拟缺血缺氧对MHC基因表达由α型向 β型的异常转化及下调 。

延衰中药补肾益精方对大鼠左心室α、βMHCmRNA增龄变化的影响

目的 :研究延衰中药补肾益精方对大鼠衰老过程 (8～ 2 4月龄 )中左心室肌球蛋白重链 (α、βMHC)基因转录mRNA表达量的影响 ,进一步探讨补肾益方的延衰机理。方法 :大鼠喂饲到 18月龄时随机分成老年组和老年服药组 ,中药用量是成人用量的 30倍 ,服药 6个月。以 8月龄大鼠作为成年对照组。大鼠处死后 ,以常规放免法测定血清甲状腺素T3 和T4 水平。用RT PCR方法扩增三组动物左心室α、βMHC基因的有关转录产物 ,以GAPDH扩增片段做相对定量。结果 :老年服药组与老年组相比 ,T4 增加到 1 2 4倍 (P <0 0 0 1) ,αMHCmRNA增加到 1 39倍 (P <0 0 5) ,βMHCmRNA下调到 74 32 % (P <0 0 5)。结论 :延衰中药对大鼠衰老增龄中α、βMHC基因表达的衰老变化有逆转作用。

硝苯地平对去负荷比目鱼肌肌球蛋白重链(MHC)异构体转化的影响

目的观测L型钙离子通道抑制剂硝苯地平对尾部悬吊大鼠比目鱼肌重量,以及肌球蛋白重链(MHC)表达水平的影响。方法经饮水每天给予大鼠10mg/kg体重的硝苯地平1与2周。称量比目鱼肌(SOL)与趾长伸肌(EDL)的湿重,用低温SDS聚丙烯酰胺凝胶电泳观测MHC异构体蛋白表达,并用RT PCR方法观测MHCmRNA的表达。结果与正常对照组相比,给予硝苯地平处理1与2周的同步对照组大鼠SOL的相对重量未见明显改变;而尾部悬吊1周与2周大鼠SOL的相对重量则分别降低了39.5%和51.7%。经硝苯地平处理的1与2周悬吊大鼠的SOL相对重量较其对照组分别降低了36.6%与52.0%,但与同步悬吊组相比,无明显差异。各组EDL相对重量均未见明显改变。正常对照组与经硝苯地平处理的对照组可检测到MHCI、IIamRNA与蛋白的表达,悬吊组与经硝苯地平处理的悬吊组可检测到MHCI、IIa、IIb与IIxmRNA以及MHCI与IIa蛋白的表达。在对照组与悬吊组,硝苯地平对II型MHCmRNA表达均产生抑制作用,并降低MHCIIa蛋白表达。结论硝苯地平不能防止去负荷引起的SOL萎缩,但在转录水平抑制萎缩SOL的MHC异构体由慢型向快型转化。

敲低RACK1基因抑制C2C12细胞中MyoG和MHC基因表达

本实验旨在研究RNA干扰(RNAi)RACK1基因对C2C12成肌细胞中肌分化标志基因MHC和MyoG表达的影响。将人工合成的靶向RAKC1基因的3条si RNA(1,2,3)转染C2C12细胞,用RT-qPCR方法检测并筛选干扰效率最高的1条siRNA。将筛选出的si RNA转染C2C12成肌细胞并诱导细胞分化,通过RT-qPCR、Western blot和免疫荧光方法在mRNA及蛋白水平检测RACK1基因沉默后对MHC和MyoG表达的影响。此外,Western blot方法检测RACK1基因沉默后对PI3K/Akt和Erk/MAPK通路激活的影响。结果表明:RACK1-si RNA-2干扰效率最高,转染48 h后抑制率可达70%。随后,C2C12细胞转染si RNA-2,诱导分化48h后RTqPCR表明,MHC和MyoG的m RNA表达均显著性下调(P<0.05);诱导分化72 h后,Western blot和免疫荧光结果表明MHC和MyoG的蛋白表达明显低于对照组,但AKT和Erk磷酸化水平未见明显变化。上述结果表明,干扰RACK1能显著抑制MHC和MyoG的表达,提示RACK1正向调控C2C12成肌细胞的分化。

冬虫夏草对制动大鼠比目鱼肌MHC表达的影响

目的探讨冬虫夏草(CS)对制动大鼠肌肉萎缩的对抗作用。方法对大鼠实施后肢制动或同时加用CS干预,检测比目鱼肌(SOL)梭内、外肌纤维肌球蛋白重链(MHC)的表达,观察其形态与梭外肌纤维构成比的变化。结果①制动14d后,SOL与体重的比值及其Ⅰ型肌纤维所占比率呈下降趋势,Ⅱ型肌纤维所占比率明显增加,梭内肌纤维MHC的表达有所增强;②制动加CS组与制动组相比,SOL湿重体重比、肌纤维横截面积和Ⅰ型肌纤维的构成比明显上升,Ⅱ型肌纤维的构成比明显下降,梭内肌纤维MHC的表达无明显变化。结论 CS对大鼠废用性肌萎缩具有对抗作用。

Na_2ATP对尾部悬吊大鼠比目鱼肌梭内、外肌纤维MHC表达的影响

目的探讨三磷酸腺苷二钠盐(Na2ATP)对尾部悬吊大鼠比目鱼肌(SOL)梭内、外肌纤维肌球蛋白重链(MHC)表达的影响。方法采用大鼠尾部悬吊法建立废用模型,用免疫组织化学技术,观察Na2ATP注射液对大鼠比目鱼肌(SOL)梭内、外肌纤维MHC表达的影响。结果尾部悬吊14d后大鼠比目鱼肌梭内、外肌纤维中快缩型MHC的表达均有所增加,而在尾吊期间注射Na2ATP后比目鱼肌梭内、外肌快缩型MHC表达没有明显变化。结论Na2ATP注射液对尾部悬吊大鼠比目鱼肌梭内、外肌纤维MHC表型转化有明显的对抗作用。

负重训练和补肽对衰老大鼠骨骼肌α-actin mRNA和MHC异形体mRNA表达影响的研究

目的:探讨负重训练和补充大豆多肽对D-半乳糖衰老大鼠骨骼肌α-actin mRNA和MHC异形体mRNA表达的影响。方法:56只3月龄雄性SD大鼠随机分为7组、每组8只、成年组、模型组、小负重组、大负重组、补肽组、补肽小负重组、补肽大负重组。除成年组外,其余各组进行6周D-半乳糖造模同时施加相应大、小负重的跑台训练和补肽干预,6周后处死大鼠,测试各项指标。结果:与成年组相比,模型组大鼠骨骼肌α-actin、MHC-I、MHC-IIa、MHC-IIxmRNA表达量显著下降(P<0.01),MHC-IIbmRNA的表达量显著升高(P<0.01),负重训练或补肽干预均可以有效缓解这种骨骼肌衰老性的表现,两种方法具有显著的交互作用(P<0.01或P<0.05)。结论:负重训练或补充大豆多肽均可以有效缓解衰老大鼠骨骼肌α-actin和MHC异形体mRNA表达量的衰老性表现,并且两种方法联合应用效果好于单一干预因素。

间歇低氧训练对SD大鼠心肌肌球蛋白重链异构型α-MHC、β-MHC mRNA表达的影响

目的观察在间歇低氧训练及游泳训练的影响下,SD大鼠心肌细胞肌球蛋白重链α-MHC、β-MHC两种异构型基因表达的变化,探讨间歇低氧训练对心肌功能影响的可能分子机制。方法将128只SD大鼠随机分成对照组、间歇低氧训练组、游泳训练组及间歇低氧+游泳训练组,经过4周的训练,采用RT-PCR法观察SD大鼠心肌细胞α-MHC、β-MHC mRNA表达的变化。结果间歇低氧及游泳训练可引起α-MHC mRNA表达不同程度的上调,同时β-MHC mRNA表达不同程度的下调。结论在间歇低氧及运动性机械刺激的过程中,心肌细胞通过对肌球蛋白两种异构型表达的调控,来适应环境氧分压降低的变化,间歇低氧及运动引发的调控路径似乎有所不同。

温阳化饮益气活血法对慢性心功能不全大鼠心肌α-MHC、β-MHC基因表达的影响

目的:探讨温阳化饮益气活血法对慢性心功能不全大鼠心肌α-MHC、β-MHC基因表达的影响。方法:采用腹腔注射阿霉素法复制慢性心功能不全大鼠动物模型,利用RT-PCR技术检测心肌重构的相关调控因素α-MHC、β-MHC在慢性心功能不全发病中的作用,同时观察温阳化饮益气活血法对其干预作用。结果:慢性心功能不全大鼠模型组心肌组织α-MHC基因表达下调,β-MHC基因表达上调;温阳化饮益气活血法治疗组心肌组织α-MHC基因表达上调,β-MHC基因的表达下调。结论:温阳化饮益气活血法能上调慢性心功能不全大鼠α-MHC基因的表达,下调β-MHC基因的表达,为温阳化饮益气活血法的临床应用提供了实验依据,这可能是温阳化饮益气活血法防治慢性心功能不全的作用机制之一。

白来航鸡MHC-Ⅰ重链基因克隆与序列分析

参照GenBank发表的鸡MHC-Ⅰ重链（BF2）基因序列,设计并合成1对引物,无菌采取纯系来航SPF鸡抗凝静脉血,直接提取总RNA,采用RT-PCR技术,PCR扩增BF2基因,并进行克隆和序列测定。测序结果表明,获得了来航鸡BF2基因,其大小为1 035 bp,包含一个完整阅读框,共编码345个氨基酸。与GenBank上鸡BF2基因序列进行比较,其核苷酸同源性在93.0%~97.6%之间,氨基酸同源性在83.2%~97.1%之间。来航鸡与人和其他种动物的MHC-Ⅰ重链基因核苷酸同源性在12.9%~83.6%之间。

高频正弦波振动对制动大鼠比目鱼肌MHC表达的影响

目的探讨高频正弦波振动(HFV)对制动大鼠比目鱼肌(SOL)梭内、外肌纤维肌球蛋白重链(MHC)表达的影响。方法采用大鼠后肢制动作为废用性肌萎缩动物模型,对振动组大鼠施以HFV,用免疫组化染色法检测大鼠SOL梭内、外肌纤维MHC表达。结果①制动14 d后,大鼠SOL梭外肌Ⅰ型肌纤维的构成比明显减少,Ⅱ型肌纤维的构成比明显增加(P<0.05),SOL梭内肌纤维快缩型MHC的表达有所增强;②制动加HFV大鼠与制动组相比,SOL梭外肌Ⅰ型肌纤维的构成比明显上升,Ⅱ型肌纤维的构成比明显下降(P<0.05),SOL梭内肌纤维快缩型MHC的表达没有明显变化。结论 HFV对制动大鼠SOL梭外肌Ⅰ型肌纤维向Ⅱ型肌纤维的转化和梭内肌MHC表达增强的趋势有明显的对抗作用。

一种新的分化心肌细胞筛选策略:稳定表达αMHC-Bla^r-2A-EGFP-Rex-mCherry-2A-neo融合基因的人胚胎干细胞系的建立及其向心肌细胞定向分化的鉴定

心肌梗死是威胁人类健康的重要疾病之一,胚胎干细胞来源的心肌细胞移植是目前治疗心肌梗死的研究热点.但是由于受到分化的心肌细胞纯度的影响,限制了心肌分化的机理研究以及临床应用.本实验构建含有心肌特异性启动子α-MHC启动的灭瘟素(Blasticidin,简称Blar)抗性基因及增强绿色荧光蛋白(EGFP)的慢病毒表达载体αMHC-Blar-2A-EGFP-Rex-mCherry-2A-neo.应用慢病毒转染技术将慢病毒转染到人胚胎干细胞(hESCs),胚胎干细胞特异性启动子Rex启动mCherry和neo抗性蛋白的表达.经过G418药物筛选,建立G418和mCherry阳性的细胞系.通过PCR及流式细胞术,进一步鉴定稳定转染的hESCs细胞系;核型分析表明,该细胞系在建立过程中仍保持细胞核型的稳定.在诱导稳定转染的hESCs向心肌细胞分化的实验中,分化的心肌细胞表达心肌细胞特异的肌钙蛋白(cTnT),同时具有EGFP和Blasticidin药物筛选的双标记.本实验建立的这一细胞系可用于心肌细胞的纯化,为深入研究心肌发生发育的关键调控机制及临床应用奠定基础.