Marta Consegal, Elisabet Miró-Casas, Ignasi Barba, Marisol Ruiz-Meana, Javier Inserte, Begoña Benito, Cristina Rodríguez, Freddy G Ganse, Laura Rubio-Unguetti, Carmen Llorens-Cebrià, Ignacio Ferreira-González, Antonio Rodríguez-Sinovas
{"title":"连接蛋白43通过改变辅酶Q池调节诱导性基因敲除Cx43Cre-ER(T)/fl小鼠心脏线粒体中的反向电子传递。","authors":"Marta Consegal, Elisabet Miró-Casas, Ignasi Barba, Marisol Ruiz-Meana, Javier Inserte, Begoña Benito, Cristina Rodríguez, Freddy G Ganse, Laura Rubio-Unguetti, Carmen Llorens-Cebrià, Ignacio Ferreira-González, Antonio Rodríguez-Sinovas","doi":"10.1007/s00395-024-01052-2","DOIUrl":null,"url":null,"abstract":"<p><p>Succinate accumulates during myocardial ischemia and is rapidly oxidized during reperfusion, leading to reactive oxygen species (ROS) production through reverse electron transfer (RET) from mitochondrial complex II to complex I, and favoring cell death. Given that connexin 43 (Cx43) modulates mitochondrial ROS production, we investigated whether Cx43 influences RET using inducible knock-out Cx43<sup>Cre-ER(T)/fl</sup> mice. Oxygen consumption, ROS production, membrane potential and coenzyme Q (CoQ) pool were analyzed in subsarcolemmal (SSM, expressing Cx43) and interfibrillar (IFM) cardiac mitochondria isolated from wild-type Cx43<sup>fl/fl</sup> mice and Cx43<sup>Cre-ER(T)/fl</sup> knock-out animals treated with 4-hydroxytamoxifen (4OHT). In addition, infarct size was assessed in isolated hearts from these animals submitted to ischemia-reperfusion (IR), and treated or not with malonate, a complex II inhibitor attenuating RET. Succinate-dependent ROS production and RET were significantly lower in SSM, but not IFM, from Cx43-deficient animals. Mitochondrial membrane potential, a RET driver, was similar between groups, whereas CoQ pool (2.165 ± 0.338 vs. 4.18 ± 0.55 nmol/mg protein, p < 0.05) and its reduction state were significantly lower in Cx43-deficient animals. Isolated hearts from Cx43<sup>Cre-ER(T)/fl</sup> mice treated with 4OHT had a smaller infarct size after IR compared to Cx43<sup>fl/fl</sup>, despite similar concentration of succinate at the end of ischemia, and no additional protection by malonate. Cx43 deficiency attenuates ROS production by RET in SSM, but not IFM, and was associated with a decrease in CoQ levels and a change in its redox state. These results may partially explain the reduced infarct size observed in these animals and their lack of protection by malonate.</p>","PeriodicalId":8723,"journal":{"name":"Basic Research in Cardiology","volume":null,"pages":null},"PeriodicalIF":7.5000,"publicationDate":"2024-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Connexin 43 modulates reverse electron transfer in cardiac mitochondria from inducible knock-out Cx43<sup>Cre-ER(T)/fl</sup> mice by altering the coenzyme Q pool.\",\"authors\":\"Marta Consegal, Elisabet Miró-Casas, Ignasi Barba, Marisol Ruiz-Meana, Javier Inserte, Begoña Benito, Cristina Rodríguez, Freddy G Ganse, Laura Rubio-Unguetti, Carmen Llorens-Cebrià, Ignacio Ferreira-González, Antonio Rodríguez-Sinovas\",\"doi\":\"10.1007/s00395-024-01052-2\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Succinate accumulates during myocardial ischemia and is rapidly oxidized during reperfusion, leading to reactive oxygen species (ROS) production through reverse electron transfer (RET) from mitochondrial complex II to complex I, and favoring cell death. Given that connexin 43 (Cx43) modulates mitochondrial ROS production, we investigated whether Cx43 influences RET using inducible knock-out Cx43<sup>Cre-ER(T)/fl</sup> mice. Oxygen consumption, ROS production, membrane potential and coenzyme Q (CoQ) pool were analyzed in subsarcolemmal (SSM, expressing Cx43) and interfibrillar (IFM) cardiac mitochondria isolated from wild-type Cx43<sup>fl/fl</sup> mice and Cx43<sup>Cre-ER(T)/fl</sup> knock-out animals treated with 4-hydroxytamoxifen (4OHT). In addition, infarct size was assessed in isolated hearts from these animals submitted to ischemia-reperfusion (IR), and treated or not with malonate, a complex II inhibitor attenuating RET. Succinate-dependent ROS production and RET were significantly lower in SSM, but not IFM, from Cx43-deficient animals. Mitochondrial membrane potential, a RET driver, was similar between groups, whereas CoQ pool (2.165 ± 0.338 vs. 4.18 ± 0.55 nmol/mg protein, p < 0.05) and its reduction state were significantly lower in Cx43-deficient animals. Isolated hearts from Cx43<sup>Cre-ER(T)/fl</sup> mice treated with 4OHT had a smaller infarct size after IR compared to Cx43<sup>fl/fl</sup>, despite similar concentration of succinate at the end of ischemia, and no additional protection by malonate. Cx43 deficiency attenuates ROS production by RET in SSM, but not IFM, and was associated with a decrease in CoQ levels and a change in its redox state. 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引用次数: 0
摘要
心肌缺血时琥珀酸积累,并在再灌注过程中被迅速氧化,通过线粒体复合物 II 到复合物 I 的反向电子传递(RET)产生活性氧(ROS),导致细胞死亡。鉴于连接蛋白43(Cx43)能调节线粒体ROS的产生,我们利用诱导性敲除Cx43Cre-ER(T)/fl小鼠研究了Cx43是否影响RET。我们分析了从野生型 Cx43fl/fl 小鼠和用 4-hydroxytamoxifen (4OHT) 处理过的 Cx43Cre-ER(T)/fl 基因敲除小鼠体内分离出的小球下(SSM,表达 Cx43)和纤维间(IFM)心脏线粒体的耗氧量、ROS 产量、膜电位和辅酶 Q(CoQ)池。此外,还对这些动物的离体心脏进行了缺血再灌注(IR),并评估了其梗死面积。琥珀酸依赖性 ROS 生成和 RET 在 Cx43 缺失动物的 SSM(而非 IFM)中明显降低。线粒体膜电位(RET的驱动因素)在不同组间相似,而CoQ池(2.165 ± 0.338 vs. 4.18 ± 0.55 nmol/mg protein, p Cre-ER(T)/fl小鼠经4OHT处理后,与Cx43fl/fl相比,IR后梗死面积较小,尽管缺血结束时琥珀酸浓度相似,丙二酸盐也没有额外的保护作用。Cx43 缺乏可减少 SSM 中 RET 产生的 ROS,但不能减少 IFM,而且与 CoQ 水平的降低及其氧化还原状态的改变有关。这些结果可能部分解释了在这些动物身上观察到的梗死面积缩小以及丙二酸盐对它们缺乏保护作用的原因。
Connexin 43 modulates reverse electron transfer in cardiac mitochondria from inducible knock-out Cx43Cre-ER(T)/fl mice by altering the coenzyme Q pool.
Succinate accumulates during myocardial ischemia and is rapidly oxidized during reperfusion, leading to reactive oxygen species (ROS) production through reverse electron transfer (RET) from mitochondrial complex II to complex I, and favoring cell death. Given that connexin 43 (Cx43) modulates mitochondrial ROS production, we investigated whether Cx43 influences RET using inducible knock-out Cx43Cre-ER(T)/fl mice. Oxygen consumption, ROS production, membrane potential and coenzyme Q (CoQ) pool were analyzed in subsarcolemmal (SSM, expressing Cx43) and interfibrillar (IFM) cardiac mitochondria isolated from wild-type Cx43fl/fl mice and Cx43Cre-ER(T)/fl knock-out animals treated with 4-hydroxytamoxifen (4OHT). In addition, infarct size was assessed in isolated hearts from these animals submitted to ischemia-reperfusion (IR), and treated or not with malonate, a complex II inhibitor attenuating RET. Succinate-dependent ROS production and RET were significantly lower in SSM, but not IFM, from Cx43-deficient animals. Mitochondrial membrane potential, a RET driver, was similar between groups, whereas CoQ pool (2.165 ± 0.338 vs. 4.18 ± 0.55 nmol/mg protein, p < 0.05) and its reduction state were significantly lower in Cx43-deficient animals. Isolated hearts from Cx43Cre-ER(T)/fl mice treated with 4OHT had a smaller infarct size after IR compared to Cx43fl/fl, despite similar concentration of succinate at the end of ischemia, and no additional protection by malonate. Cx43 deficiency attenuates ROS production by RET in SSM, but not IFM, and was associated with a decrease in CoQ levels and a change in its redox state. These results may partially explain the reduced infarct size observed in these animals and their lack of protection by malonate.
期刊介绍:
Basic Research in Cardiology is an international journal for cardiovascular research. It provides a forum for original and review articles related to experimental cardiology that meet its stringent scientific standards.
Basic Research in Cardiology regularly receives articles from the fields of
- Molecular and Cellular Biology
- Biochemistry
- Biophysics
- Pharmacology
- Physiology and Pathology
- Clinical Cardiology