STRUCTURAL AND FUNCTIONAL DIFFERENCES IN CARDIAC AND BRAIN MITOCHONDRIA IN ANIMALS WITH DIFFERENT TOLERANCE TO OXYGEN DEFICIENCY

N. Khmil, V.V. Mironov, V.P. Medvedeva, L. Pavlik, E. Germanova, L. Lukyanova, G.D. Mironova
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引用次数: 0

Abstract

Depending on the individual resistance to hypoxia, many cell-adaptive reactions are formed, but the mechanisms of their occurrence are still not clear. Hypoxia is associated with many biological processes, including pathogenic microbial infection, cancer, acute and chronic diseases, and more other. Hypoxia-inducible factors (HIFs) regulate the expression of a number of genes involved in cellular metabolism, cell growth/death, cell proliferation, glycolysis, immune response, tumorigenesis, and metastasis. The brain and the heart are the organs most sensitive to oxygen deficiency, and their mitochondria, as the primary consumers of cellular oxygen, help tune cellular and organismal responses to hypoxia through structural or functional modifications. To date, there have been no comparative studies of the ultrastructural features of brain and cardiac mitochondria in animals demonstrating different tolerance types to oxygen deficiency: low-resistance (LR) and high resistance (HR) to hypoxia, which influence the general resistance of the body to oxygen deficiency.
对缺氧耐受性不同的动物的心和脑线粒体在结构和功能上的差异
根据个体对缺氧的抵抗力,会形成许多细胞适应性反应,但其发生机制仍不清楚。缺氧与许多生物过程有关,包括病原微生物感染、癌症、急性和慢性疾病等。缺氧诱导因子(HIFs)调控许多基因的表达,这些基因参与细胞代谢、细胞生长/死亡、细胞增殖、糖酵解、免疫反应、肿瘤发生和转移。大脑和心脏是对缺氧最敏感的器官,它们的线粒体作为细胞氧的主要消耗者,通过结构或功能的改变帮助调整细胞和机体对缺氧的反应。迄今为止,还没有对大脑和心脏线粒体的超微结构特征进行过比较研究,这些动物对缺氧表现出不同的耐受类型:对缺氧的低耐受性(LR)和高耐受性(HR),它们影响机体对缺氧的总体耐受性。
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来源期刊
Cardiometry
Cardiometry MEDICAL LABORATORY TECHNOLOGY-
自引率
0.00%
发文量
0
审稿时长
6 weeks
期刊介绍: Cardiometry is an open access biannual electronic journal founded in 2012. It refers to medicine, particularly to cardiology, as well as oncocardiology and allied science of biophysics and medical equipment engineering. We publish mainly high quality original articles, reports, case reports, reviews and lectures in the field of the theory of cardiovascular system functioning, principles of cardiometry, its diagnostic methods, cardiovascular system therapy from the aspect of cardiometry, system and particular approaches to maintaining health, engineering peculiarities in cardiometry developing. The interdisciplinary areas of the journal are: hemodynamics, biophysics, biochemistry, metrology. The target audience of our Journal covers healthcare providers including cardiologists and general practitioners, bioengineers, biophysics, medical equipment, especially cardiology diagnostics device, developers, educators, nurses, healthcare decision-makers, people with cardiovascular diseases, cardiology and engineering universities and schools, state and private clinics. Cardiometry is aimed to provide a wide forum for exchange of information and public discussion on above scientific issues for the mentioned experts.
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