DNAH11 基因突变与超微结构正常的原发性纤毛运动障碍。
Mutations of DNAH11 in patients with primary ciliary dyskinesia with normal ciliary ultrastructure.
机构信息
University of North Carolina, Cystic Fibrosis/Pulmonary Research and Treatment Center, School of Medicine, CB# 7248, 7123 Thurston-Bowles Bldg, Chapel Hill, NC 27599-7248, USA.
出版信息
Thorax. 2012 May;67(5):433-41. doi: 10.1136/thoraxjnl-2011-200301. Epub 2011 Dec 18.
RATIONALE
Primary ciliary dyskinesia (PCD) is an autosomal recessive, genetically heterogeneous disorder characterised by oto-sino-pulmonary disease and situs abnormalities (Kartagener syndrome) due to abnormal structure and/or function of cilia. Most patients currently recognised to have PCD have ultrastructural defects of cilia; however, some patients have clinical manifestations of PCD and low levels of nasal nitric oxide, but normal ultrastructure, including a few patients with biallelic mutations in dynein axonemal heavy chain 11 (DNAH11).
OBJECTIVES
To test further for mutant DNAH11 as a cause of PCD, DNAH11 was sequenced in patients with a PCD clinical phenotype, but no known genetic aetiology.
METHODS
82 exons and intron/exon junctions in DNAH11 were sequenced in 163 unrelated patients with a clinical phenotype of PCD, including those with normal ciliary ultrastructure (n=58), defects in outer and/or inner dynein arms (n=76), radial spoke/central pair defects (n=6), and 23 without definitive ultrastructural results, but who had situs inversus (n=17), or bronchiectasis and/or low nasal nitric oxide (n=6). Additionally, DNAH11 was sequenced in 13 subjects with isolated situs abnormalities to see if mutant DNAH11 could cause situs defects without respiratory disease.
RESULTS
Of the 58 unrelated patients with PCD with normal ultrastructure, 13 (22%) had two (biallelic) mutations in DNAH11; and two patients without ultrastructural analysis had biallelic mutations. All mutations were novel and private. None of the patients with dynein arm or radial spoke/central pair defects, or isolated situs abnormalities, had mutations in DNAH11. Of the 35 identified mutant alleles, 24 (69%) were nonsense, insertion/deletion or loss-of-function splice-site mutations.
CONCLUSIONS
Mutations in DNAH11 are a common cause of PCD in patients without ciliary ultrastructural defects; thus, genetic analysis can be used to ascertain the diagnosis of PCD in this challenging group of patients.
背景
原发性纤毛运动障碍(PCD)是一种常染色体隐性遗传、遗传异质性疾病,其特征为耳-鼻-喉-肺疾病和 situs 异常(Kartagener 综合征),这是由于纤毛结构和/或功能异常所致。大多数目前被认为患有 PCD 的患者都有纤毛的超微结构缺陷;然而,一些患者有 PCD 的临床表现和低水平的鼻一氧化氮,但超微结构正常,包括少数患者有 dynein axonemal heavy chain 11(DNAH11)的双等位基因突变。
目的
进一步检测 DNAH11 突变是否为 PCD 的病因,对具有 PCD 临床表型但无已知遗传病因的患者进行 DNAH11 测序。
方法
对 163 例无关联的具有 PCD 临床表型的患者(包括 58 例超微结构正常、76 例外和/或内动力蛋白臂缺陷、6 例放射辐/中心对缺陷、23 例无明确超微结构结果但 situs 倒置[17 例]或支气管扩张和/或低鼻一氧化氮[6 例])的 82 个外显子和内含子/外显子交界处进行了 DNAH11 测序。此外,对 13 例孤立 situs 异常的患者进行了 DNAH11 测序,以观察突变型 DNAH11 是否会导致无呼吸道疾病的 situs 缺陷。
结果
在 58 例无关联的具有正常超微结构的 PCD 患者中,有 13 例(22%)在 DNAH11 中存在两个(双等位)突变;而 2 例无超微结构分析的患者存在双等位基因突变。所有突变均为新的和个体特有的。在外动力蛋白臂或放射辐/中心对缺陷或孤立 situs 异常的患者中,均未发现 DNAH11 突变。在 35 个鉴定的突变等位基因中,有 24 个(69%)为无义、插入/缺失或失活剪接位点突变。
结论
DNAH11 突变是无纤毛超微结构缺陷 PCD 患者的常见病因;因此,在这些具有挑战性的患者群体中,基因分析可用于确定 PCD 的诊断。
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