The tissue-specific nature of physiological zebrafish mitochondrial bioenergetics

IF 3.9 3区 生物学 Q2 CELL BIOLOGY
Rafael David Souto de Azevedo , Kivia Vanessa Gomes Falcão , Sinara Monica Vitalino de Almeida , Marlyete Chagas Araújo , Reginaldo Correia Silva-Filho , Maria Bernadete de Souza Maia , Ian Porto Gurgel do Amaral , Ana Catarina Rezende Leite , Ranilson de Souza Bezerra
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Abstract

Zebrafish are a powerful tool to study a myriad of experimental conditions, including mitochondrial bioenergetics. Considering that mitochondria are different in many aspects depending on the tissue evaluated, in the zebrafish model there is still a lack of this investigation. Especially for juvenile zebrafish. In the present study, we examined whether different tissues from zebrafish juveniles show mitochondrial density- and tissue-specificity comparing brain, liver, heart, and skeletal muscle (SM). The liver and brain complex IV showed the highest O2 consumption of all ETC in all tissues (10x when compared to other respiratory complexes). The liver showed a higher potential for ROS generation. In this way, the brain and liver showed more susceptibility to O2 generation when compared to other tissues. Regarding Ca2+ transport, the brain showed greater capacity for Ca2+ uptake and the liver presented low Ca2+ uptake capacity. The liver and brain were more susceptible to producing NO. The enzymes SOD and Catalase showed high activity in the brain, whereas GPx showed higher activity in the liver and CS in the SM. TEM reveals, as expected, a physiological diverse mitochondrial morphology. The essential differences between zebrafish tissues investigated probably reflect how the mitochondria play a diverse role in systemic homeostasis. This feature may not be limited to normal metabolic functions but also to stress conditions. In summary, mitochondrial bioenergetics in zebrafish juvenile permeabilized tissues showed a tissue-specificity and a useful tool to investigate conditions of redox system imbalance, mainly in the liver and brain.

Abstract Image

生理斑马鱼线粒体生物能的组织特异性。
斑马鱼是研究各种实验条件(包括线粒体生物能)的有力工具。考虑到线粒体因所评估的组织不同而在许多方面存在差异,在斑马鱼模型中仍然缺乏这方面的研究。尤其是幼年斑马鱼。在本研究中,我们对斑马鱼幼鱼的不同组织是否表现出线粒体密度和组织特异性进行了比较,包括大脑、肝脏、心脏和骨骼肌(SM)。在所有组织的所有 ETC 中,肝脏和大脑复合体 IV 的氧气消耗量最高(是其他呼吸复合体的 10 倍)。肝脏产生 ROS 的潜力更高。因此,与其他组织相比,大脑和肝脏更容易产生 O2-。在 Ca2+ 运输方面,大脑摄取 Ca2+ 的能力较强,而肝脏摄取 Ca2+ 的能力较弱。肝脏和大脑更容易产生 NO。脑中的 SOD 和过氧化氢酶活性较高,而肝中的 GPx 和 SM 中的 CS 活性较高。正如预期的那样,TEM 揭示了线粒体形态的生理多样性。所研究的斑马鱼组织之间的本质区别可能反映了线粒体在系统平衡中发挥的不同作用。这一特征可能不仅限于正常的代谢功能,还包括应激条件。总之,斑马鱼幼鱼通透组织线粒体生物能显示出组织特异性,是研究氧化还原系统失衡状况(主要是肝脏和大脑)的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Mitochondrion
Mitochondrion 生物-细胞生物学
CiteScore
9.40
自引率
4.50%
发文量
86
审稿时长
13.6 weeks
期刊介绍: Mitochondrion is a definitive, high profile, peer-reviewed international research journal. The scope of Mitochondrion is broad, reporting on basic science of mitochondria from all organisms and from basic research to pathology and clinical aspects of mitochondrial diseases. The journal welcomes original contributions from investigators working in diverse sub-disciplines such as evolution, biophysics, biochemistry, molecular and cell biology, genetics, pharmacology, toxicology, forensic science, programmed cell death, aging, cancer and clinical features of mitochondrial diseases.
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