中华血液学杂志
中華血液學雜誌
중화혈액학잡지
Chinese Journal of Hematology
2008年
9期
577-582
,共6页
沈卫章%金佩佩%丁秋兰%王学锋%李淑梅%姜玉珍%王鸿利
瀋衛章%金珮珮%丁鞦蘭%王學鋒%李淑梅%薑玉珍%王鴻利
침위장%금패패%정추란%왕학봉%리숙매%강옥진%왕홍리
血小板糖蛋白αⅡbB3复合物%突变%血小板无力症
血小闆糖蛋白αⅡbB3複閤物%突變%血小闆無力癥
혈소판당단백αⅡbB3복합물%돌변%혈소판무력증
Platelet glycoprotein αⅡbβ3 complex%Mutation%Thrombasthenia
目的 探讨血小板膜糖蛋白Ⅱ b L721R和Q860X复合杂合突变导致血小板无力症的分子机制.方法 应用PCR法对先证者αⅡ b和β3基因所有外显子及其侧翼序列进行扩增;PCR产物纯化后直接测序,检测其突变基因.突变位点经直接测序证实排除基因多态性.采用PCR定点突变法构建αⅡ b L721 R和Q860X突变真核表达载体,测序正确后用脂质体将其分别与表达β3亚基的真核表达载体共转染293T和CHO细胞.采用流式细胞术检测转染细胞膜上αⅡ bβ3的表达,用Westernblot法鉴定αⅡ b L721R和Q860X突变体在转染细胞内的总体表达,采用免疫荧光共聚焦显微镜确定αⅡb L721R和QS60X突变体的细胞内定位.结果 先证者在αⅡ b基因存在T2255G(L721R)和C2671T(Q860x)复合杂合突变.PCDM8 Ⅱ bL721R/PCDM8Ⅲa转染的293T细胞表面αⅡ b为野生型的2.1%,133为野生型的11.0%.PCDM8Ⅱ bQ860X/PCDⅢ8ma转染的293T细胞表面αⅡb为野生型的31.9%,B3为野生型的18.0%.Western blot法证实突变αⅡ b L721R与β3共表达后,可检测到前体αⅡ b(pro-αⅡb),但未检测出成熟αⅡb.αⅡ b Q860X与β3共表达后,检测到截短型αⅡ b蛋白.免疫荧光细胞内共定位研究显示L721R和Q860X突变αⅡ bβ3蛋白大部分分布于内质网,仅有少量在高尔基体中.结论 αⅡb L721R和Q860X突变不影响αⅡ b蛋白的合成和pro-αⅡbβ3复合物的形成,但阻碍了pro-αⅡbβ3复合物由内质网向高尔基体的转运,导致细胞内滞留,从而影响了αⅡbβ3在细胞表面的表达,是导致血小板表面缺乏αⅡbβ3复合物、产生血小板无力症的分子机制.
目的 探討血小闆膜糖蛋白Ⅱ b L721R和Q860X複閤雜閤突變導緻血小闆無力癥的分子機製.方法 應用PCR法對先證者αⅡ b和β3基因所有外顯子及其側翼序列進行擴增;PCR產物純化後直接測序,檢測其突變基因.突變位點經直接測序證實排除基因多態性.採用PCR定點突變法構建αⅡ b L721 R和Q860X突變真覈錶達載體,測序正確後用脂質體將其分彆與錶達β3亞基的真覈錶達載體共轉染293T和CHO細胞.採用流式細胞術檢測轉染細胞膜上αⅡ bβ3的錶達,用Westernblot法鑒定αⅡ b L721R和Q860X突變體在轉染細胞內的總體錶達,採用免疫熒光共聚焦顯微鏡確定αⅡb L721R和QS60X突變體的細胞內定位.結果 先證者在αⅡ b基因存在T2255G(L721R)和C2671T(Q860x)複閤雜閤突變.PCDM8 Ⅱ bL721R/PCDM8Ⅲa轉染的293T細胞錶麵αⅡ b為野生型的2.1%,133為野生型的11.0%.PCDM8Ⅱ bQ860X/PCDⅢ8ma轉染的293T細胞錶麵αⅡb為野生型的31.9%,B3為野生型的18.0%.Western blot法證實突變αⅡ b L721R與β3共錶達後,可檢測到前體αⅡ b(pro-αⅡb),但未檢測齣成熟αⅡb.αⅡ b Q860X與β3共錶達後,檢測到截短型αⅡ b蛋白.免疫熒光細胞內共定位研究顯示L721R和Q860X突變αⅡ bβ3蛋白大部分分佈于內質網,僅有少量在高爾基體中.結論 αⅡb L721R和Q860X突變不影響αⅡ b蛋白的閤成和pro-αⅡbβ3複閤物的形成,但阻礙瞭pro-αⅡbβ3複閤物由內質網嚮高爾基體的轉運,導緻細胞內滯留,從而影響瞭αⅡbβ3在細胞錶麵的錶達,是導緻血小闆錶麵缺乏αⅡbβ3複閤物、產生血小闆無力癥的分子機製.
목적 탐토혈소판막당단백Ⅱ b L721R화Q860X복합잡합돌변도치혈소판무력증적분자궤제.방법 응용PCR법대선증자αⅡ b화β3기인소유외현자급기측익서렬진행확증;PCR산물순화후직접측서,검측기돌변기인.돌변위점경직접측서증실배제기인다태성.채용PCR정점돌변법구건αⅡ b L721 R화Q860X돌변진핵표체재체,측서정학후용지질체장기분별여표체β3아기적진핵표체재체공전염293T화CHO세포.채용류식세포술검측전염세포막상αⅡ bβ3적표체,용Westernblot법감정αⅡ b L721R화Q860X돌변체재전염세포내적총체표체,채용면역형광공취초현미경학정αⅡb L721R화QS60X돌변체적세포내정위.결과 선증자재αⅡ b기인존재T2255G(L721R)화C2671T(Q860x)복합잡합돌변.PCDM8 Ⅱ bL721R/PCDM8Ⅲa전염적293T세포표면αⅡ b위야생형적2.1%,133위야생형적11.0%.PCDM8Ⅱ bQ860X/PCDⅢ8ma전염적293T세포표면αⅡb위야생형적31.9%,B3위야생형적18.0%.Western blot법증실돌변αⅡ b L721R여β3공표체후,가검측도전체αⅡ b(pro-αⅡb),단미검측출성숙αⅡb.αⅡ b Q860X여β3공표체후,검측도절단형αⅡ b단백.면역형광세포내공정위연구현시L721R화Q860X돌변αⅡ bβ3단백대부분분포우내질망,부유소량재고이기체중.결론 αⅡb L721R화Q860X돌변불영향αⅡ b단백적합성화pro-αⅡbβ3복합물적형성,단조애료pro-αⅡbβ3복합물유내질망향고이기체적전운,도치세포내체류,종이영향료αⅡbβ3재세포표면적표체,시도치혈소판표면결핍αⅡbβ3복합물、산생혈소판무력증적분자궤제.
Objective To explore the molecular mechanisms of Glanzmarm thrombasthenia caused by αⅡ b L721R and Q860X compound heterozygons mutation. Methods All exons and exon-intron boundaries of αⅡb and β3 gene were amplified by PCR and analyzed by direct DNA sequencing. Gene polymorphisma were excluded by direct DNA sequencing, αⅡ b L721R and Q860X mutants expressing vectors were construc-ted by in vitro site-directed mutagenesis. The expression of αⅡ b L721R and Q860X mutants on transfected cell membrane were analyzed by flow cytometry and the whole expression level was confirmed by Western blot.The subcellular localizations of αⅡ b L721R and Q860X mutants were determined by immunofluorescent con-focal scanning microscopy. Results The αⅡ b compound heterozygous mutations, T2255G (L721 R) and C2671T(Q860X), were identified in the proband, the former being inherited from the maternal side and the latter the paternal side. The 293T cells cotransfected with mutated αⅡ b L721R and wild-type β3 expression plasmids expressed 2.1% of normal amount of αⅡ b on the cell surface as shown by FACS, in contrast to 31.9% of normal amount of αⅡb on the cells cotransfected with cDNAs of mutated αⅡ b Q860X and wild-type β3 expression plasmids. Western blot of the cell lysates showed no detectable mature αⅡ b in cells lysat-es with L721R mutant. While, truncated αⅡb protein was detected in cell lystes with Q860X mutant. Immu-nofluorescence studies demonstrated that both L721R and Q860X mutant pro-αⅡ bβ3 complex colocalized in endoplasmic reticulum, but a little in Golgi. Conclusions The L721R and Q860X mutations of αⅡ b pre-vent transport of the pre-αⅡ bβ3 complex from the endoplasmic reticulum to the Golgi, hindering its maturation and surface expression. The impaired αⅡ bβ3 transport is responsible for the thrombasthenia.
