中华儿科杂志
中華兒科雜誌
중화인과잡지
Chinese Journal of Pediatrics
2012年
2期
111-116
,共6页
周熙惠%惠智艳%李媛%宋红霞%张葳%肖谧%王芳会%刘俐
週熙惠%惠智豔%李媛%宋紅霞%張葳%肖謐%王芳會%劉俐
주희혜%혜지염%리원%송홍하%장위%초밀%왕방회%류리
基因%呼吸窘迫综合征,新生儿%婴儿,新生%ABCA3基因
基因%呼吸窘迫綜閤徵,新生兒%嬰兒,新生%ABCA3基因
기인%호흡군박종합정,신생인%영인,신생%ABCA3기인
Genes%Respiratory distress syndrome,newborn%Infant,Newborn%ATP binding cassette transporter A3
目的 分析ATP结合盒式蛋白转运子亚单位基因ABCA3遗传缺陷与新生儿呼吸窘迫综合征(NRDS)的关系,从中探讨汉族人群NRDS发病的遗传机制.方法 收集在新生儿重症监护病房住院的11例重症NRDS患儿的临床资料,采集患儿和97例无关正常对照的血样,采用PCR扩增、DNA直接测序技术对11例患儿进行ABCA3基因序列分析,对于新发现的ABCA3错义突变在97例健康对照中进行单链构象多态性检测.对1例生后13 h死亡的NRDS患儿进行肺组织光镜和电镜检测.结果 在11例患儿中发现了3个ABCA3基因外显子遗传变异、1个剪切位点碱基变异和几个国外报道及尚未报道的ABCA3单核苷酸多态性(SNP).3个ABCA3基因外显子遗传变异分别为c.2169 G>A (p.M723I)、c.1010 T>G (p.V337G)、c.4972 A>G(p.S1658G),1个剪切位点变异为Exon 30+2 T/G,发现的SNP位点包括未报道过的213 C >T(p.F71F)、Exon 21+ 34C/T和已报道的c.1059C>T(p.F353F)等.1例生后12 h死亡的患儿携带c.2169G>A纯合变异,该变异位于第17号外显子,碱基的变异导致第723位氨基酸由异亮氨酸代替蛋氨酸,97例健康对照者中未发现此变异.肺组织电镜检测显示该例肺泡Ⅱ型上皮细胞的板层小体变小、浓缩,电子致密物边集.结论 ABCA3基因突变可能是部分临床不能解释的重症NRDS患儿的遗传学病因或遗传背景,识别NRDS患儿ABCA3基因变异情况,有助于治疗措施的选择及评价,并为开展NRDS遗传咨询和早期预防性干预提供依据.
目的 分析ATP結閤盒式蛋白轉運子亞單位基因ABCA3遺傳缺陷與新生兒呼吸窘迫綜閤徵(NRDS)的關繫,從中探討漢族人群NRDS髮病的遺傳機製.方法 收集在新生兒重癥鑑護病房住院的11例重癥NRDS患兒的臨床資料,採集患兒和97例無關正常對照的血樣,採用PCR擴增、DNA直接測序技術對11例患兒進行ABCA3基因序列分析,對于新髮現的ABCA3錯義突變在97例健康對照中進行單鏈構象多態性檢測.對1例生後13 h死亡的NRDS患兒進行肺組織光鏡和電鏡檢測.結果 在11例患兒中髮現瞭3箇ABCA3基因外顯子遺傳變異、1箇剪切位點堿基變異和幾箇國外報道及尚未報道的ABCA3單覈苷痠多態性(SNP).3箇ABCA3基因外顯子遺傳變異分彆為c.2169 G>A (p.M723I)、c.1010 T>G (p.V337G)、c.4972 A>G(p.S1658G),1箇剪切位點變異為Exon 30+2 T/G,髮現的SNP位點包括未報道過的213 C >T(p.F71F)、Exon 21+ 34C/T和已報道的c.1059C>T(p.F353F)等.1例生後12 h死亡的患兒攜帶c.2169G>A純閤變異,該變異位于第17號外顯子,堿基的變異導緻第723位氨基痠由異亮氨痠代替蛋氨痠,97例健康對照者中未髮現此變異.肺組織電鏡檢測顯示該例肺泡Ⅱ型上皮細胞的闆層小體變小、濃縮,電子緻密物邊集.結論 ABCA3基因突變可能是部分臨床不能解釋的重癥NRDS患兒的遺傳學病因或遺傳揹景,識彆NRDS患兒ABCA3基因變異情況,有助于治療措施的選擇及評價,併為開展NRDS遺傳咨詢和早期預防性榦預提供依據.
목적 분석ATP결합합식단백전운자아단위기인ABCA3유전결함여신생인호흡군박종합정(NRDS)적관계,종중탐토한족인군NRDS발병적유전궤제.방법 수집재신생인중증감호병방주원적11례중증NRDS환인적림상자료,채집환인화97례무관정상대조적혈양,채용PCR확증、DNA직접측서기술대11례환인진행ABCA3기인서렬분석,대우신발현적ABCA3착의돌변재97례건강대조중진행단련구상다태성검측.대1례생후13 h사망적NRDS환인진행폐조직광경화전경검측.결과 재11례환인중발현료3개ABCA3기인외현자유전변이、1개전절위점감기변이화궤개국외보도급상미보도적ABCA3단핵감산다태성(SNP).3개ABCA3기인외현자유전변이분별위c.2169 G>A (p.M723I)、c.1010 T>G (p.V337G)、c.4972 A>G(p.S1658G),1개전절위점변이위Exon 30+2 T/G,발현적SNP위점포괄미보도과적213 C >T(p.F71F)、Exon 21+ 34C/T화이보도적c.1059C>T(p.F353F)등.1례생후12 h사망적환인휴대c.2169G>A순합변이,해변이위우제17호외현자,감기적변이도치제723위안기산유이량안산대체단안산,97례건강대조자중미발현차변이.폐조직전경검측현시해례폐포Ⅱ형상피세포적판층소체변소、농축,전자치밀물변집.결론 ABCA3기인돌변가능시부분림상불능해석적중증NRDS환인적유전학병인혹유전배경,식별NRDS환인ABCA3기인변이정황,유조우치료조시적선택급평개,병위개전NRDS유전자순화조기예방성간예제공의거.
Objective To detect possible relationship between genetic defect within the gene encoding member A3 of the ATP Binding Cassette family (ABCA3) and neonatal respiratory distress syndrome (NRDS),thus to understand the genetic mechanisms of NRDS in Han ethnic group.Method The clinical data of 11 cases with NRDS hospitalized in neonatal intensive care unit was investigated.Blood samples were collected from 11 cases with NRDS and 97 unassociated normal individuals.Polymerase chain reaction (PCR) and DNA direct sequencing were performed to screen all exons and their flanking introns of ABCA3 gene for mutation analysis in 11 cases with NRDS.If a new missense variation was identified,single strand conformation polymorphism analysis was performed in 97 healthy controls.Lung tissue sample from a case who died 12 hours after birth was examined with light microscopy and electron microscopy. Result Three missense genetic variants in exons,which include c.2169 G > A ( p.M723I),c. 1010 T > G (p.V337G),c.4972 A > G (p.S1658G),one splice junction site variation (Exon 30 +2 T/G),several unreported polymorphism sites [213 C > T(p.F71F),exon 21 + 34C/T] and reported polymorphism site (p.F353F) were identified on ABCA3 gene coding region in 11 caes.The homozygous variation (c.2169G >A),which was in exon 17 and causes an M723I amino acid change,was found in the case who died 13hours after birth,but not detected in 97 controls,indicating that this variation is indeed a mutation and not a polymorphism.In the case carrying c.2169G > A,ultrastructural examination of the alveolar type Ⅱ cells with electron microscopy demonstrated abnormally small and dense lamellar body with eccentrically distributed electron dense substance.Conclusion Genetic variants within ABCA3 may be the genetic cause of or a contributor to some unexplained refractory NRDS.Identification of ABCA3 genetic variant in NRDS infants is important to establish appropriate management and evaluation of treatment options,as well as to offer genetic counseling and prenatal diagnosis.