肺气肿患者人原代肺泡 II 型细胞中线粒体功能障碍。

Mitochondrial dysfunction in human primary alveolar type II cells in emphysema.

机构信息

Department of Thoracic Medicine and Surgery, Temple University, Philadelphia, PA 19140, United States of America; Center for Inflammation, Translational and Clinical Lung Research, Temple University, Philadelphia, PA 19140, United States of America; Department of Physiology, Temple University, Philadelphia, PA 19140, United States of America.

出版信息

EBioMedicine. 2019 Aug;46:305-316. doi: 10.1016/j.ebiom.2019.07.063. Epub 2019 Aug 2.

DOI:10.1016/j.ebiom.2019.07.063

PMID:31383554

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6711885/

Abstract

BACKGROUND

Cigarette smoke is the main risk factor of pulmonary emphysema development, which is characterized by alveolar wall destruction. Mitochondria are important for alveolar type II (ATII) cell metabolism due to ATP generation.

METHODS

We isolated ATII cells from control non-smoker and smoker organ donors, and after lung transplant of patients with emphysema to determine mitochondrial function, dynamics and mitochondrial (mt) DNA damage.

FINDINGS

We found high mitochondrial superoxide generation and mtDNA damage in ATII cells in emphysema. This correlated with decreased mtDNA amount. We also detected high TOP1-cc and low TDP1 levels in mitochondria in ATII cells in emphysema. This contributed to the decreased resolution of TOP1-cc leading to accumulation of mtDNA damage and mitochondrial dysfunction. Moreover, we used lung tissue obtained from areas with mild and severe emphysema from the same patients. We found a correlation between the impaired fusion and fission as indicated by low MFN1, OPA1, FIS1, and p-DRP1 levels and this disease severity. We detected lower TDP1 expression in severe compared to mild emphysema.

INTERPRETATION

We found high DNA damage and impairment of DNA damage repair in mitochondria in ATII cells isolated from emphysema patients, which contribute to abnormal mitochondrial dynamics. Our findings provide molecular mechanisms of mitochondrial dysfunction in this disease. FUND: This work was supported by National Institutes of Health (NIH) grant R01 HL118171 (B.K.) and the Catalyst Award from the American Lung Association (K.B.).

摘要

背景

香烟烟雾是肺气肿发展的主要风险因素，其特征在于肺泡壁破坏。由于 ATP 的产生，线粒体对于肺泡 II 型 (ATII) 细胞代谢很重要。

方法

我们从非吸烟者和吸烟者的器官捐献者中分离出 ATII 细胞，并在肺气肿患者进行肺移植后，确定线粒体功能、动力学和线粒体 (mt) DNA 损伤。

发现

我们发现肺气肿 ATII 细胞中线粒体中超氧化物的产生和 mtDNA 损伤很高。这与 mtDNA 数量减少有关。我们还在肺气肿 ATII 细胞中检测到线粒体中高 TOP1-cc 和低 TDP1 水平。这导致 TOP1-cc 的分辨率降低，导致 mtDNA 损伤和线粒体功能障碍的积累。此外，我们使用来自同一患者的轻度和重度肺气肿区域获得的肺组织。我们发现融合和分裂受损之间存在相关性，这表现为 MFN1、OPA1、FIS1 和 p-DRP1 水平降低，与疾病严重程度相关。我们在重度肺气肿中检测到比轻度肺气肿更低的 TDP1 表达。

解释

我们发现从肺气肿患者中分离出的 ATII 细胞中线粒体中的 DNA 损伤和 DNA 损伤修复受损，这导致异常的线粒体动力学。我们的发现为该疾病中线粒体功能障碍的分子机制提供了依据。

资金

这项工作得到了美国国立卫生研究院 (NIH) R01 HL118171 资助 (B.K.) 和美国肺脏协会 (K.B.) 催化剂奖的支持。

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肺气肿患者人原代肺泡 II 型细胞中线粒体功能障碍。

Mitochondrial dysfunction in human primary alveolar type II cells in emphysema.

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

背景

方法

发现

解释

资金

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