在转基因动物模型中促进 OPA1 蛋白对心脏的影响。

IF 2.9 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES PLoS ONE Pub Date : 2024-11-21 eCollection Date: 2024-01-01 DOI:10.1371/journal.pone.0310394
Kitti Bruszt, Orsolya Horvath, Katalin Ordog, Szilard Toth, Kata Juhasz, Eszter Vamos, Katalin Fekete, Ferenc Gallyas, Kalman Toth, Robert Halmosi, Laszlo Deres
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引用次数: 0

摘要

线粒体在细胞中形成一个动态网络,受线粒体融合与裂变之间平衡的调节。在急性缺血/再灌注损伤模型中,抑制线粒体裂变可防止与裂变过程相关的线粒体膜电位下降,从而起到积极作用。然而,在慢性模型中抑制裂变是不利的,因为它会阻碍受损线粒体片段的清除。鉴于之前的研究结果,OPA1 作为一种融合促进蛋白和结构稳定蛋白,是一个可能的治疗靶点。我们利用转基因小鼠,删除了 OPA1 的 OMA1 裂解位点。这使得 L-OPA1 的代表性高于 S-OPA1。在进行基因分型和模型验证后,所有动物分别在第 11 周和第 36 周两次接受超声心动图检查。心脏组织学样本用于检查线粒体形态和结构重塑。评估了与线粒体动态过程相关的信号通路。从新生小鼠体内分离出心肌细胞,使用 SeaHorse 检测法确定线粒体呼吸的效率。在衰老过程中,OPA1 蛋白的促进对收缩功能有负面影响。我们证实,容量超载和心室重塑并没有表现出来。泵功能丧失的原因可能至少有一部分是线粒体呼吸衰竭和线粒体质量控制途径损伤导致的能量不足。
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Cardiac effects of OPA1 protein promotion in a transgenic animal model.

Mitochondria form a dynamic network in cells, regulated by the balance between mitochondrial fusion and fission. The inhibition of mitochondrial fission can have positive effects in acute ischemic/reperfusion injury models by preventing the fall in mitochondrial membrane potential associated with fission processes. However, inhibition of fission in chronic models is disadvantageous because it obstructs the elimination of damaged mitochondrial fragments. OPA1, in view of previous results, is a possible therapeutic target as a fusion promoter and structure stabilizer protein. We used transgenic mice in which the OMA1 cleavage sites of OPA1 were deleted. This resulted in a higher representation of L-OPA1 compared to S-OPA1. After genotyping and model validation, all animals were examined by echocardiograph on two occasions, at weeks 11 and 36. Histological samples were taken from hearts to examine mitochondrial morphology and structure remodeling. The signaling pathways related to mitochondrial dynamic processes were evaluated. Cardiomyocytes were isolated from neonatal mice to determine the efficiency of mitochondrial respiration using the SeaHorse assay method. OPA1 protein promotion has a negative effect on systolic function during aging. We confirmed that volume overload and ventricular remodeling did not manifest. The reason behind the loss of pump function might be, at least partly, due to the energy deficit caused by mitochondrial respiratory failure and damage in mitochondrial quality control pathways.

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来源期刊
PLoS ONE
PLoS ONE 生物-生物学
CiteScore
6.20
自引率
5.40%
发文量
14242
审稿时长
3.7 months
期刊介绍: PLOS ONE is an international, peer-reviewed, open-access, online publication. PLOS ONE welcomes reports on primary research from any scientific discipline. It provides: * Open-access—freely accessible online, authors retain copyright * Fast publication times * Peer review by expert, practicing researchers * Post-publication tools to indicate quality and impact * Community-based dialogue on articles * Worldwide media coverage
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