N. A. Voloshin scite author profile

Modern biomedical science still experiences a significant need for easy and reliable sources of human cells. They are used to investigate pathological processes underlying disease, conduct pharmacological studies, and eventually applied as a therapeutic product in regenerative medicine. For decades, the pool of adult mesenchymal stem/stromal cells (MSCs) remains a promising source of stem and progenitor cells. Their isolation is more feasible than most other stem cells from human donors, yet they have a fair share of drawbacks. They include significant variability between donors, loss of potency, and transformation during long-term culture, which may impact the efficacy and reproducibility of research. One possible solution is a derivation of immortalized MSCs lines which receive a broader use in many medical and biological studies. In the present work, we demonstrated that in the most widely spread commercially available hTERT-immortalized MSCs cell line ASC52telo, sensitivity to hormonal stimuli was reduced, affecting their differentiation efficacy. Furthermore, we found that immortalized MSCs have impaired insulin-dependent and cAMP-dependent signaling, which impairs their adipogenic, but not osteogenic or chondrogenic, potential under experimental conditions. Our findings indicate that hTERT-immortalized MSCs may present a suboptimal choice for studies involving modeling or investigation of hormonal sensitivity.

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Dynamic Balance between PTH1R-Dependent Signal Cascades Determines Its Pro- or Anti-Osteogenic Effects on MSC

Kulebyakin

Tyurin‐Kuzmin

Sozaeva

et al. 2022

Cells

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Parathyroid hormone (PTH) is one of the key regulators of calcium and phosphate metabolism in the body, controlling bone metabolism and ion excretion by the kidneys. At present, attempts to use PTH as a therapeutic agent have been associated with side-effects, the nature of which is not always clear and predictable. In addition, it is known that in vivo impairment of PTH post-receptor signaling is associated with atypical differentiation behavior not only of bone cells, but also of connective tissues, including adipose tissue. In this work, we studied the functional responses of multipotent mesenchymal stromal cells (MSCs) to the action of PTH at the level of single cells. We used MSCs isolated from the periosteum and subcutaneous adipose tissue to compare characteristics of cell responses to PTH. We found that the hormone can activate three key responses via its receptor located on the surface of MSCs: single transients of calcium, calcium oscillations, and hormone-activated smooth increase in intracellular calcium. These types of calcium responses led to principally different cellular responses of MSCs. The cAMP-dependent smooth increase of intracellular calcium was associated with pro-osteogenic action of PTH, whereas phospholipase C dependent calcium oscillations led to a decrease in osteogenic differentiation intensity. Different variants of calcium responses are in dynamic equilibrium. Suppression of one type of response leads to increased activation of another type and, accordingly, to a change in the effect of PTH on cell differentiation.

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Роль Внутриутробного Антигенного Влияния В Морфогенезе Сердечно-Сосудистой Системы

Reznichenko¹,

Lebedinets²,

Voloshin³

2013

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В работе рассматриваются состояние сердечно-сосудистой системы у детей первого года жизни с врожденным токсоплазмозом без врожденных пороков сердца, кардитов (как модели антенатального антигенного воздействия) и особенности морфогенеза сердца крыс после воздействия антигенов в антенатальном периоде. Обследованы 38 детей первого года жизни: 18 — с врожденным токсоплазмозом и 20 — здоровых. Проведено экспериментальное исследование морфогенеза сердца крыс линии Вистар после внутриутробного введения антигенов по методу Н.А. Волошина. Результаты. По данным допплерэхокардиографии у детей с врожденным токсоплазмозом без врожденных пороков сердца, кардитов выявлены признаки концентрического ремоделирования левого желудочка с увеличением относительной толщины стенок, массы и индекса массы миокарда левого желудочка. В эксперименте установлено изменение соотношения структур сердца крыс с достоверным снижением площади, занимаемой кардиомиоцитами, в сроки с 7-х по 45-е сутки и сохранением тенденции к снижению этого показателя до 60-х суток на фоне достоверного повышения доли, занимаемой соединительнотканным компонентом, с достоверным снижением соотношения кардиомиоцитов и соединительнотканного компонента желудочков сердца с 1-х по 60-е сутки постнатального развития. Выводы. Выявленные особенности свидетельствуют об изменении морфогенеза сердца после антенатального антигенного воздействия и являются фоном формирования патологии сердечно-сосудистой системы у детей.

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Practical Use of Immortalized Cells in Medicine: Current Advances and Future Perspectives

Voloshin

Tyurin‐Kuzmin

Karagyaur

et al. 2023

IJMS

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In modern science, immortalized cells are not only a convenient tool in fundamental research, but they are also increasingly used in practical medicine. This happens due to their advantages compared to the primary cells, such as the possibility to produce larger amounts of cells and to use them for longer periods of time, the convenience of genetic modification, the absence of donor-to-donor variability when comparing the results of different experiments, etc. On the other hand, immortalization comes with drawbacks: possibilities of malignant transformation and/or major phenotype change due to genetic modification itself or upon long-term cultivation appear. At first glance, such issues are huge hurdles in the way of immortalized cells translation into medicine. However, there are certain ways to overcome such barriers that we describe in this review. We determined four major areas of usage of immortalized cells for practical medicinal purposes, and each has its own means to negate the drawbacks associated with immortalization. Moreover, here we describe specific fields of application of immortalized cells in which these problems are of much lesser concern, for example, in some cases where the possibility of malignant growth is not there at all. In general, we can conclude that immortalized cells have their niches in certain areas of practical medicine where they can successfully compete with other therapeutic approaches, and more preclinical and clinical trials with them should be expected.

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N. A. Voloshin

Decreased Insulin Sensitivity in Telomerase-Immortalized Mesenchymal Stem Cells Affects Efficacy and Outcome of Adipogenic Differentiation in vitro

Dynamic Balance between PTH1R-Dependent Signal Cascades Determines Its Pro- or Anti-Osteogenic Effects on MSC

Роль Внутриутробного Антигенного Влияния В Морфогенезе Сердечно-Сосудистой Системы

Practical Use of Immortalized Cells in Medicine: Current Advances and Future Perspectives

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