Establishment and identification of the gill cell line from the blunt snout bream (Megalobrama amblycephala) and its application in studying gill remodeling under hypoxia.

IF 2.5 3区 农林科学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Fish Physiology and Biochemistry Pub Date : 2024-12-01 Epub Date: 2024-09-02 DOI:10.1007/s10695-024-01393-8
Wenya Xu, Yahui Feng, Songlin Chen, Huihu Wang, Jian Wen, Guodong Zheng, Ganxiang Wang, Shuming Zou
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Abstract

To probe the mechanisms of gill remodeling in blunt snout bream under hypoxic conditions, we selected gill tissue for primary cell culture to establish and characterize the first blunt snout bream gill cell line, named MAG. The gill cells were efficiently passaged in M199 medium supplemented with 8% antibiotics and 15% fetal bovine serum at 28 °C, exhibiting primarily an epithelial-fibroblast mixed type. Additionally, the MAG cells (17th generation) were subjected to four experimental conditions-normoxia, hypoxia 12 h, hypoxia 24 h, and reoxygenation 24 h (R24h)-to evaluate the effects of hypoxia and reoxygenation on MAG cells during gill remodeling. We found that the MAG cell morphology underwent shrinkage and mitochondrial potential gradually lost, even leading to gradual apoptosis with increasing hypoxia duration and increased reactive oxygen species (ROS) activity. Upon reoxygenation, MAG cells gradually regain cellular homeostasis, accompanied by a decrease in ROS activity. Analysis of superoxide dismutase (SOD), glutathione (GSH), lactate dehydrogenase (LDH), catalase (CAT), anti-superoxide anion, and other enzyme activities revealed enhanced antioxidant enzyme activity in MAG cells during hypoxia, aiding in adapting to hypoxic stress and preserving cell morphology. After reoxygenation, the cells gradually returned to normoxic levels. Our findings underscore the MAG cells can be used to study hypoxic cell apoptosis during gill remodeling. Therefore, the MAG cell line will serve as a vital in vitro model for exploring gill remodeling in blunt snout bream under hypoxia.

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建立和鉴定钝口鳊(Megalobrama amblycephala)的鳃细胞系,并将其用于研究缺氧条件下的鳃重塑。
为了探究缺氧条件下钝吻鳊鳃重塑的机制,我们选择了鳃组织进行原代细胞培养,建立并鉴定了第一个钝吻鳊鳃细胞系,命名为MAG。鳃细胞在添加了8%抗生素和15%胎牛血清的M199培养基中于28 °C条件下进行高效传代,主要表现为上皮-成纤维细胞混合型。此外,MAG细胞(第17代)还接受了四种实验条件--缺氧、缺氧12小时、缺氧24小时和复氧24小时(R24h)--以评估缺氧和复氧对鳃重塑过程中MAG细胞的影响。我们发现,随着缺氧时间的延长和活性氧(ROS)活性的增加,MAG细胞形态发生萎缩,线粒体电位逐渐丧失,甚至逐渐凋亡。复氧后,MAG 细胞逐渐恢复细胞平衡,同时 ROS 活性降低。对超氧化物歧化酶(SOD)、谷胱甘肽(GSH)、乳酸脱氢酶(LDH)、过氧化氢酶(CAT)、抗超氧阴离子和其他酶活性的分析表明,缺氧期间 MAG 细胞的抗氧化酶活性增强,有助于适应缺氧应激和保护细胞形态。复氧后,细胞逐渐恢复到常氧水平。我们的研究结果表明,MAG细胞可用于研究鳃重塑过程中的缺氧细胞凋亡。因此,MAG细胞系将成为探索缺氧条件下钝吻鳊鳃重塑的重要体外模型。
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来源期刊
Fish Physiology and Biochemistry
Fish Physiology and Biochemistry 农林科学-生化与分子生物学
CiteScore
5.60
自引率
6.90%
发文量
106
审稿时长
4 months
期刊介绍: Fish Physiology and Biochemistry is an international journal publishing original research papers in all aspects of the physiology and biochemistry of fishes. Coverage includes experimental work in such topics as biochemistry of organisms, organs, tissues and cells; structure of organs, tissues, cells and organelles related to their function; nutritional, osmotic, ionic, respiratory and excretory homeostasis; nerve and muscle physiology; endocrinology; reproductive physiology; energetics; biochemical and physiological effects of toxicants; molecular biology and biotechnology and more.
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