Mesenchymal stem cells: diversity

IF 0.2 Q4 PATHOLOGY

Pathologia Pub Date : 2023-04-28 DOI:10.14739/2310-1237.2023.1.272938

O. M. Grabovyi, N. M. Nevmerzhytska, L. Yaremenko, H. B. Kostynskyi, A. Demydchuk, H. Y. Kondaurova

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Abstract

Mesenchymal stem cells (MSCs) are diverse in terms of plastic, secretory and immunophenotypic features, which is due to the peculiarities of their genetic landscape. MSCs like other body cells are the result of the implementation of genetic information. However, some cells at different stages of histogenesis leave it. Such resident cells in tissues are stem cells. They are in a state of plastic quiescence and their genome does not undergo changes that would lead to commitment / differentiation. Although, these cells show a certain activity, producing various biologically active factors. It is logical to assume that the cells emerging from the process of histogenesis at its various stages will have different genetic landscapes, immunophenotypes and secretory potentials. The activation of MSCs occurs under conditions of physiological or reparative regeneration. Moreover, on the second hand it is explosive. Under natural conditions, the activation of MSCs during damage leads to their differentiation into fibroblasts and the formation of a connective tissue scar. But such consequences of reparation often come into conflict with the goal of treatment, when the task is not the formation of a scar, but the restoration of the parenchyma of the organ and its function. Therefore, the effects that will be obtained when using MSCs will depend on their initial state and methods of management. Aim. To analyze literature data on mesenchymal stem cells that reflect their ability to differentiate and secrete regulatory factors, immunophenotypic features and genetic landscape that may underlie their diversity. Conclusions. To obtain the desired result from the use of MSCs in regenerative medicine many factors must be taken into account. But data in this area is still fragmentary and often ambiguous. In addition, even taking into account the known factors in their various combinations is a very difficult task in the management of MSC. Given the unconditional priority of genetic and molecular research of MSCs the empirical method of studying the plastic and physiological properties of MSCs remains relevant today. It can just not create the basis for the development of the latest treatment methods, but also determine the direction of research in genetic and molecular research.

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间充质干细胞:多样性

间充质干细胞(MSCs)在可塑性、分泌和免疫表型特征方面具有多样性，这是由于其遗传景观的特殊性。像其他体细胞一样，间充质干细胞是遗传信息实现的结果。然而，在组织发生的不同阶段，一些细胞离开它。这种驻留在组织中的细胞就是干细胞。它们处于可塑性静止状态，它们的基因组不会发生导致承诺/分化的变化。虽然，这些细胞表现出一定的活性，产生各种生物活性因子。从组织发生过程中出现的细胞在其不同阶段将具有不同的遗传景观，免疫表型和分泌潜能是合乎逻辑的。MSCs的激活发生在生理或修复性再生的条件下。此外，从另一方面来说，它是爆炸性的。在自然条件下，损伤过程中MSCs的活化导致其分化为成纤维细胞并形成结缔组织疤痕。但是，这种修复的后果往往与治疗的目标相冲突，因为治疗的任务不是形成疤痕，而是恢复器官的实质及其功能。因此，使用间充质干细胞获得的效果将取决于它们的初始状态和管理方法。分析反映间充质干细胞分化和分泌调节因子的能力、免疫表型特征和可能构成其多样性的遗传景观的文献资料。为了在再生医学中使用间充质干细胞获得预期的结果，必须考虑许多因素。但这一领域的数据仍然是零碎的，而且往往模糊不清。此外，在MSC的管理中，即使考虑到它们的各种组合中的已知因素也是一项非常困难的任务。鉴于MSCs的遗传和分子研究的无条件优先权，研究MSCs的塑性和生理特性的经验方法在今天仍然具有相关性。它不仅可以为最新治疗方法的发展创造基础，还可以决定遗传和分子研究的研究方向。

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

Pathologia PATHOLOGY-

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审稿时长

12 weeks