Cellular and Molecular Mechanisms of Toxic Liver Fibrosis in Rats Depending on the Stages of Its Development.

IF 1.1 Q4 MEDICINE, RESEARCH & EXPERIMENTAL

Sovremennye Tehnologii v Medicine Pub Date : 2023-01-01 Epub Date: 2023-07-28 DOI:10.17691/stm2023.15.4.05

E I Lebedeva, A T Shchastniy, A S Babenka

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Abstract

The aim is to study the cellular and molecular features of toxic liver fibrosis in rats and its dependence on development stages of this pathological condition.

Materials and methods: Liver fibrogenesis in male Wistar rats was induced with the thioacetamide solution by introducing into the stomach with a probe at a dose of 200 mg/kg of animal body weight 2 times per week. The process dynamics was studied at 5 time points (control, week 3, week 5, week 7, and week 9). The mRNA levels of tweak, fn14, ang, vegfa, cxcl12, and mmp-9 genes in liver were detected by real-time polymerase chain reaction. Immunohistochemical study was performed on paraffin sections. The CD31, CD34, CK19, α-SMA, FAP, CD68, CD206, CX3CR1, and CD45 cells were used as markers. Fibrosis degree was determined in histological sections, stained in line with the Mallory technique, according to the Ishak's semi-quantitative scale.

Results: Two simultaneously existing morphologically heterogeneous populations of myofibroblasts expressing different types of markers (FAP, α-SMA) were identified in rat liver. Prior to the onset of transformation of fibrosis into cirrhosis (F1-F4, weeks 3-7), FAP⁺ and SMA⁺ cells were localized in different places on histological specimens. All stages of liver fibrosis development were accompanied by an increase in the number (p=0.0000), a change in the phenotypic structure and functional properties of macrophages. The CK19⁺ cells of the portal areas differentiated into cholangiocytes that formed interlobular bile ducts and ductules, as well as hepatocytes that formed rudiments of new hepatic microlobules. Pathological venous angiogenesis and heterogeneity of endotheliocytes of the intrahepatic vascular bed were detected. Two options for changes in mRNA expression of the selected genes were identified. The level of the fn14 and mmp-9 mRNAs at all stages of fibrosis was higher (p=0.0000) than in control rats. For tweak, ang, vegfa, and cxcl12 mRNAs, the situation was the opposite - the level of genes decreased (p=0.0000). There were strong and moderate correlations between the studied target genes (p<0.05).

Conclusion: It was established that the stages of toxic fibrosis had morphological and molecular genetic features. The FAP⁺ cells make the main contribution to development of portal and initial stage of bridging fibrosis. The stellate macrophages and infiltrating monocytes/ macrophages can potentially be used for development of new therapeutic strategies for liver pathology treatment. One should take into account the features of the markers' expression by endothelial cells during the study of the intrahepatic vascular bed. Joint study of genes is a necessary ad-hoc parameter in fundamental and preclinical research.

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大鼠毒性肝纤维化的细胞和分子机制取决于其发展阶段

目的是研究大鼠中毒性肝纤维化的细胞和分子特征及其与这种病理状况发展阶段的关系：用探针将硫代乙酰胺溶液导入雄性 Wistar 大鼠的胃中，诱导其发生肝纤维化，剂量为 200 毫克/千克体重，每周 2 次。在 5 个时间点（对照组、第 3 周、第 5 周、第 7 周和第 9 周）研究了这一过程的动态变化。实时聚合酶链反应检测了肝脏中 tweak、fn14、ang、vegfa、cxcl12 和 mmp-9 基因的 mRNA 水平。对石蜡切片进行免疫组化研究。以 CD31、CD34、CK19、α-SMA、FAP、CD68、CD206、CX3CR1 和 CD45 细胞为标记。根据伊沙克半定量表，按照马洛里技术对组织切片进行染色，确定纤维化程度：结果：在大鼠肝脏中发现了两种同时存在的形态异质性肌成纤维细胞群，它们表达不同类型的标记物（FAP、α-SMA）。在肝纤维化转变为肝硬化之前（F1-F4，第 3-7 周），FAP+ 和 SMA+ 细胞分布在组织学标本的不同位置。肝纤维化发展的各个阶段都伴随着巨噬细胞数量的增加（p=0.0000）、表型结构和功能特性的改变。肝门区的 CK19+ 细胞分化为胆管细胞，形成小叶间胆管和胆管小管，以及肝细胞，形成新的肝小叶雏形。检测到病理性静脉血管生成和肝内血管床内皮细胞的异质性。所选基因的 mRNA 表达有两种变化方式。在纤维化的所有阶段，fn14 和 mmp-9 mRNA 的水平均高于对照组大鼠（p=0.0000）。而 tweak、ang、vegfa 和 cxcl12 mRNA 的情况恰恰相反--基因水平下降（p=0.0000）。所研究的目标基因之间存在强相关性和中度相关性（p结论：研究证实，中毒性纤维化的不同阶段具有形态学和分子遗传学特征。FAP+细胞对门静脉和桥接纤维化初期的发展做出了主要贡献。星状巨噬细胞和浸润单核细胞/巨噬细胞可用于开发新的肝病治疗策略。在研究肝内血管床时，应考虑到内皮细胞表达标记物的特点。基因联合研究是基础研究和临床前研究中必要的临时参数。

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Sovremennye Tehnologii v Medicine MEDICINE, RESEARCH & EXPERIMENTAL-

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1.80

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0.00%

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