成年大鼠胆汁淤积肝脏肝细胞多倍体化特性的研究

Q4 Biochemistry, Genetics and Molecular Biology
S. Kiparoidze, N. Karumidze, E. Bakuradze, I. Modebadze, L. Rusishvili, D. Kordzaia, D. Dzidziguri
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引用次数: 0

摘要

根据文献,利用肝脏再生的基本模型(切除或化学诱导)建立了不同的再生生长机制和动力学过程。因此,为了确定适应代偿过程在各种病理条件下的一般规律,我们研究了胆总管结扎后4天内成年大鼠胆汁淤积肝内发生的过程。研究表明,在胆汁淤积的肝脏中,代偿适应过程与切除后的代偿适应过程发生的动力学不同。特别是,为了应对胆汁淤积期间破坏性过程引起的功能负荷增加,肝脏在早期阶段通过高倍体(双核四倍体)细胞的简单分裂做出反应,并进一步提供其数量增加。在胆总管结扎后的第3天和第4天,发生在胆汁淤积肝和切除肝的过程之间的差异更多地表达出来。特别是,4c细胞在淤胆肝中仍然最高,而所有倍体细胞在切除后的再生肝脏中数量相等。在上述日期,在胆汁淤积的肝脏中未发现这种补偿性生长特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of Hepatocytes Polyploidization Peculiarities in Cholestatic Liver of Adult Rats
According to the literature, different mechanisms and kinetics proceeding of regenerative growth has been established using the basic models of liver regeneration (after resection or chemically induced). Hence, in order to determine general regularities of the adaptive-compensatory processes in various pathological conditions, the processes taking place in the cholestatic liver of adult white rats during the first four days after common bile duct ligation have been studied. It has been shown that in cholestatic liver, compensatory-adaptive processes take place with different kinetics compared to those after resection. In particular, in response to the increased functional load caused by destructive processes during cholestasis, the liver, at an early stage, responds by simple division of high ploidy (binuclear tetraploid) cells and further provides their quantitative increase. The difference between the processes taking place in cholestatic and resected liver is more expressed on the third and fourth day after common bile duct ligation. In particular, 4c cells are still highest in cholestatic liver, while all ploidy cells are present in equal numbers in the regenerated liver after resection. This fact of compensatory growth characteristic for reparative regeneration was not detected in cholestatic liver at the mentioned date.
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来源期刊
Molecular & Cellular Biomechanics
Molecular & Cellular Biomechanics CELL BIOLOGYENGINEERING, BIOMEDICAL&-ENGINEERING, BIOMEDICAL
CiteScore
1.70
自引率
0.00%
发文量
21
期刊介绍: The field of biomechanics concerns with motion, deformation, and forces in biological systems. With the explosive progress in molecular biology, genomic engineering, bioimaging, and nanotechnology, there will be an ever-increasing generation of knowledge and information concerning the mechanobiology of genes, proteins, cells, tissues, and organs. Such information will bring new diagnostic tools, new therapeutic approaches, and new knowledge on ourselves and our interactions with our environment. It becomes apparent that biomechanics focusing on molecules, cells as well as tissues and organs is an important aspect of modern biomedical sciences. The aims of this journal are to facilitate the studies of the mechanics of biomolecules (including proteins, genes, cytoskeletons, etc.), cells (and their interactions with extracellular matrix), tissues and organs, the development of relevant advanced mathematical methods, and the discovery of biological secrets. As science concerns only with relative truth, we seek ideas that are state-of-the-art, which may be controversial, but stimulate and promote new ideas, new techniques, and new applications.
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