中华心血管病杂志
中華心血管病雜誌
중화심혈관병잡지
Chinese Journal of Cardiology
2013年
4期
304-309
,共6页
杨世伟%陈彦%李军%殷杰%秦玉明%Gregor Andelfinger%汪道武%曹克将
楊世偉%陳彥%李軍%慇傑%秦玉明%Gregor Andelfinger%汪道武%曹剋將
양세위%진언%리군%은걸%진옥명%Gregor Andelfinger%왕도무%조극장
心肌病,限制性%突变
心肌病,限製性%突變
심기병,한제성%돌변
Cardiomyopathy,restrictive%Mutation
目的 研究3例儿童原发性限制型心肌病(restrictive cardiomyopathy,RCM)的临床特征及心肌病理改变,并进行心肌肌节蛋白基因突变分析,以期发现遗传致病基础.方法 采集和分析3例RCM患儿及其父母的临床资料.同时选择100名健康儿童作为正常对照.病例1和病例2接受心肌活检,标本行常规组织学和电镜检查.聚合酶链式反应(PCR)扩增RCM患儿肌钙蛋白Ⅰ、肌钙蛋白T、β肌球蛋白重链、肌动蛋白基因编码外显子及附近上下游序列,直接双向测序并进行分析.如发现突变,则进一步检测该突变在患儿父母及正常对照儿童中的分布情况.结果 3例患儿病情呈进行性加重.病例1合并小型膜周部室间隔缺损,病例2合并室间隔中下段轻度肥厚.组织学检查提示病例1存在广泛的心肌细胞排列紊乱和轻度纤维化,电镜显示肌节数量减少,线粒体显著增大变形;病例2心肌细胞轻度肥厚和间质纤维化,电镜检查显示Z线排列紊乱,间距不规则.遗传分析分别在病例1和病例3中发现了肌钙蛋白T基因R204H、R192H杂合突变,在病例2中发现了肌钙蛋白T基因100_101delNE杂合突变,所有突变所在蛋白序列均高度保守.所有突变只出现在患儿,而父母及100名正常对照儿童中均未检测到相同突变.结论 3例RCM患儿确诊后病情均进展迅速.3例患儿进行遗传分析均发现了致病突变,其中2个为肌钙蛋白Ⅰ基因突变,1个为肌钙蛋白T基因突变.研究结果有助于加深对儿童原发性RCM发病机制的认识.
目的 研究3例兒童原髮性限製型心肌病(restrictive cardiomyopathy,RCM)的臨床特徵及心肌病理改變,併進行心肌肌節蛋白基因突變分析,以期髮現遺傳緻病基礎.方法 採集和分析3例RCM患兒及其父母的臨床資料.同時選擇100名健康兒童作為正常對照.病例1和病例2接受心肌活檢,標本行常規組織學和電鏡檢查.聚閤酶鏈式反應(PCR)擴增RCM患兒肌鈣蛋白Ⅰ、肌鈣蛋白T、β肌毬蛋白重鏈、肌動蛋白基因編碼外顯子及附近上下遊序列,直接雙嚮測序併進行分析.如髮現突變,則進一步檢測該突變在患兒父母及正常對照兒童中的分佈情況.結果 3例患兒病情呈進行性加重.病例1閤併小型膜週部室間隔缺損,病例2閤併室間隔中下段輕度肥厚.組織學檢查提示病例1存在廣汎的心肌細胞排列紊亂和輕度纖維化,電鏡顯示肌節數量減少,線粒體顯著增大變形;病例2心肌細胞輕度肥厚和間質纖維化,電鏡檢查顯示Z線排列紊亂,間距不規則.遺傳分析分彆在病例1和病例3中髮現瞭肌鈣蛋白T基因R204H、R192H雜閤突變,在病例2中髮現瞭肌鈣蛋白T基因100_101delNE雜閤突變,所有突變所在蛋白序列均高度保守.所有突變隻齣現在患兒,而父母及100名正常對照兒童中均未檢測到相同突變.結論 3例RCM患兒確診後病情均進展迅速.3例患兒進行遺傳分析均髮現瞭緻病突變,其中2箇為肌鈣蛋白Ⅰ基因突變,1箇為肌鈣蛋白T基因突變.研究結果有助于加深對兒童原髮性RCM髮病機製的認識.
목적 연구3례인동원발성한제형심기병(restrictive cardiomyopathy,RCM)적림상특정급심기병리개변,병진행심기기절단백기인돌변분석,이기발현유전치병기출.방법 채집화분석3례RCM환인급기부모적림상자료.동시선택100명건강인동작위정상대조.병례1화병례2접수심기활검,표본행상규조직학화전경검사.취합매련식반응(PCR)확증RCM환인기개단백Ⅰ、기개단백T、β기구단백중련、기동단백기인편마외현자급부근상하유서렬,직접쌍향측서병진행분석.여발현돌변,칙진일보검측해돌변재환인부모급정상대조인동중적분포정황.결과 3례환인병정정진행성가중.병례1합병소형막주부실간격결손,병례2합병실간격중하단경도비후.조직학검사제시병례1존재엄범적심기세포배렬문란화경도섬유화,전경현시기절수량감소,선립체현저증대변형;병례2심기세포경도비후화간질섬유화,전경검사현시Z선배렬문란,간거불규칙.유전분석분별재병례1화병례3중발현료기개단백T기인R204H、R192H잡합돌변,재병례2중발현료기개단백T기인100_101delNE잡합돌변,소유돌변소재단백서렬균고도보수.소유돌변지출현재환인,이부모급100명정상대조인동중균미검측도상동돌변.결론 3례RCM환인학진후병정균진전신속.3례환인진행유전분석균발현료치병돌변,기중2개위기개단백Ⅰ기인돌변,1개위기개단백T기인돌변.연구결과유조우가심대인동원발성RCM발병궤제적인식.
Objective Restrictive cardiomyopathy (RCM) is rare in children,and little is known about the molecular basis of RCM.The aim of this study was to investigate the clinical and myopathological characteristics and to detect mutations on cardiac sarcomere protein genes in three idiopathic pediatric RCMs.Methods Detailed clinical characteristics and familiar history were obtained in three idiopathic pediatric RCMs.One hundred healthy pediatric individuals were recruited as controls.Histological evaluation was performed with heart tissue retrieved at catheterization in case-1 and case-2.The entire coding sequences of four cardiac sarcomere protein genes,including cardiac troponin T (TNNT2),cardiac troponin Ⅰ(TNNI3),β-myosin heavy chain(MYH7),and α-actin (ACTC)were screened for mutations.Sequence variants were then tested in the family as well as in 100 healthy control DNAs.Results All three index cases were diagnosed as primary RCMs without family history,and their clinical conditions deteriorated rapidly.Case-1 was in combination with ventricular septal defect.Case-2 was in combination with mid-and inferoseptal hypertrophy.In case-1,myocardial biopsies displayed extensive anisomorphism and disarray of cardiomyocytes ; electron microscopy showed large stacks of severely dysmorphic megamitochondria and focal Z-disc streaming.In case-2,endomyocardial biopsy revealed moderate myoctyte hypertrophy with mild interstitial fibrosis ; transmission electron microscopy showed misalignment of Z-bands and unequal Z-Z band distances.Genetic analysis identified two heterozygous missense mutations in TNNI3,with R204H in case-1 and R192H in case-3 respectively.A de novo heterozygous deletion in TNNT2 (p.Asn100_Glu101del) was identified in case-2.Sequence analysis shows that all three mutations are located in a position highly conserved across many species.The three mutations were negative for their parents and controls.Conclusion The clinical conditions in all three index cases are deteriorated rapidly after diagnosed as primary RCM.Three heterozygous mutations including two in TNNI3 and one in TNNT2 gene are identified in the three RCMs respectively,which are considered as causative mutations.These findings provide new insights into the molecular etiology responsible for pediatric RCM.
