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四种三磷酸腺苷结合盒转运体 A3 基因(ABCA3)变异体的功能特征。

Functional characterization of four ATP-binding cassette transporter A3 gene (ABCA3) variants.

机构信息

Edward Mallinckrodt Department of Pediatrics, Washington University School of Medicine, St. Louis, Missouri.

Institute for Informatics, Washington University School of Medicine, St. Louis, Missouri.

出版信息

Hum Mutat. 2020 Jul;41(7):1298-1307. doi: 10.1002/humu.24014. Epub 2020 Apr 1.

Abstract

ABCA3 transports phospholipids across lamellar body membranes in pulmonary alveolar type II cells and is required for surfactant assembly. Rare, biallelic, pathogenic ABCA3 variants result in lethal neonatal respiratory distress syndrome and childhood interstitial lung disease. Qualitative functional characterization of ABCA3 missense variants suggests two pathogenic classes: disrupted intracellular trafficking (type I mutant) or impaired ATPase-mediated phospholipid transport into the lamellar bodies (type II mutant). We qualitatively compared wild-type (WT-ABCA3) with four uncharacterized ABCA3 variants (c.418A>C;p.Asn140His, c.3609_3611delCTT;p.Phe1203del, c.3784A>G;p.Ser1262Gly, and c.4195G>A;p.Val1399Met) in A549 cells using protein processing, colocalization with intracellular organelles, lamellar body ultrastructure, and ATPase activity. We quantitatively measured lamellar body-like vesicle diameter and intracellular ABCA3 trafficking using fluorescence-based colocalization. Three ABCA3 variants (p.Asn140His, p.Ser1262Gly, and p.Val1399Met) were processed and trafficked normally and demonstrated well-organized lamellar body-like vesicles, but had reduced ATPase activity consistent with type II mutants. P.Phe1203del was processed normally, had reduced ATPase activity, and well-organized lamellar body-like vesicles, but quantitatively colocalized with both endoplasmic reticulum and lysosomal markers, an intermediate phenotype suggesting disruption of both intracellular trafficking and phospholipid transport. All ABCA3 mutants demonstrated mean vesicle diameters smaller than WT-ABCA3. Qualitative and quantitative functional characterization of ABCA3 variants informs mechanisms of pathogenicity.

摘要

ABCA3 在肺Ⅱ型肺泡细胞中跨板层小体膜转运磷脂,并参与表面活性剂的组装。罕见的双等位致病性 ABCA3 变体导致致命性新生儿呼吸窘迫综合征和儿童间质性肺病。ABCA3 错义变体的定性功能特征分析提示两种致病性类别:细胞内转运受损(Ⅰ型突变体)或 ATP 酶介导的磷脂向板层小体转运受损(Ⅱ型突变体)。我们使用蛋白加工、与细胞内细胞器的共定位、板层小体超微结构和 ATP 酶活性,对野生型(WT-ABCA3)和四个未鉴定的 ABCA3 变体(c.418A>C;p.Asn140His、c.3609_3611delCTT;p.Phe1203del、c.3784A>G;p.Ser1262Gly 和 c.4195G>A;p.Val1399Met)在 A549 细胞中的功能进行了定性比较。我们使用基于荧光的共定位技术定量测量了板层小体样囊泡的直径和细胞内 ABCA3 转运。三种 ABCA3 变体(p.Asn140His、p.Ser1262Gly 和 p.Val1399Met)加工和转运正常,并显示出排列整齐的板层小体样囊泡,但 ATP 酶活性降低,与Ⅱ型突变体一致。p.Phe1203del 加工正常,ATP 酶活性降低,排列整齐的板层小体样囊泡,但与内质网和溶酶体标记物定量共定位,表现出中间表型,提示细胞内转运和磷脂转运均受到破坏。所有 ABCA3 突变体的平均囊泡直径均小于 WT-ABCA3。ABCA3 变体的定性和定量功能特征分析为致病性机制提供了信息。

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