Department of Pediatric Pneumology, Dr. von Hauner Children's Hospital, Ludwig-Maximilians University, German Centre for Lung Research (DZL), 80337 Munich, Germany.
Division of Metabolic and Nutritional Medicine, Dr. von Hauner Children's Hospital, Ludwig-Maximilians-Universität München, 80337 Munich, Germany.
Biochim Biophys Acta Mol Cell Biol Lipids. 2019 Dec;1864(12):158516. doi: 10.1016/j.bbalip.2019.158516. Epub 2019 Aug 29.
In the metabolism of pulmonary surfactant, the ATP-binding cassette sub-family A member 3 (ABCA3) is a crucial protein in the formation of the storage compartment for surfactant, the lamellar body (LB), and the transport of phospholipids in it. Mutations in ABCA3 not only disturb surfactant metabolism but also cause chronic interstitial lung diseases. Assays for ABCA3 transport function are needed to investigate pathophysiology of the mutations and treatment options for the patients. We metabolically labeled choline (Cho) head phospholipids with the Cho analogue, propargyl-Cho. The universal incorporation of propargyl-Cho was confirmed by mass spectrometry and labeled lipids were visualized in confocal microscopy by click reaction with an azide fluorophore. After pulse-labeling propargyl-Cho labeled lipids accumulated in ABCA3+ vesicles in a time and concentration dependent manner. When treated with the choline kinase inhibitor MN58b during the first 12 h, the lipids intensity inside ABCA3+ vesicles decreased, whereas intensity was unchanged when treated after 12 h. Miltefosine, a substrate of ABCA3, decreased the incorporation of labeled lipids in ABCA3+ vesicles at all time points. The lipids intensity inside the mutated (p.N568D or p.L1580P) ABCA3+ vesicles was decreased compared to wild type, while the intensity outside of vesicles showed no difference. Propargyl-Cho can metabolically pulse-label Cho phospholipids. Visualization and quantification of fluorescence intensity of the labeled lipids inside ABCA3+ vesicles at equilibrium can specifically assess the transport function of ABCA3.
在肺表面活性剂的代谢中,ATP 结合盒亚家族 A 成员 3(ABCA3)是形成表面活性剂储存隔室——板层小体(LB)和其中磷脂转运的关键蛋白。ABCA3 突变不仅扰乱了表面活性剂代谢,还导致了慢性间质性肺疾病。需要进行 ABCA3 转运功能检测,以研究突变的病理生理学和患者的治疗选择。我们用炔丙基胆碱(Cho)类似物对胆碱(Cho)头部磷脂进行代谢标记。通过质谱证实了炔丙基-Cho 的普遍掺入,并通过与叠氮荧光团的点击反应在共聚焦显微镜下可视化标记的脂质。脉冲标记炔丙基-Cho 标记的脂质在 ABCA3+囊泡中以时间和浓度依赖的方式积累。在用胆碱激酶抑制剂 MN58b 处理的前 12 小时内,ABCA3+囊泡内的脂质强度降低,而在 12 小时后处理时强度不变。Miltefosine,ABCA3 的底物,降低了 ABCA3+囊泡中标记脂质的掺入率,在所有时间点均如此。与野生型相比,突变(p.N568D 或 p.L1580P)ABCA3+囊泡内的脂质强度降低,而囊泡外的强度没有差异。炔丙基-Cho 可以代谢性地脉冲标记 Cho 磷脂。在平衡时可视化和量化标记的脂质在 ABCA3+囊泡内的荧光强度可以特异性评估 ABCA3 的转运功能。
