The influence of mesenchymal stem cells and its derivatives on the qualitative indicators of animal sperm before and after cryoponservation (review)

V. Semenova, A. Shushakova, M. Ivanovskaya, E. Korochkina
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Abstract

During sperm cryopxation, sperm damage occurs due to osmotic stress, which entails deviations into the DNA and deformation of the tail of a sperm. To minimize destructive changes in cells, antioxidants or cryoprotective media supplemented with nutrient components are used. Numerous studies have established that the use of mesenchymal stem cells and their secret increases the percentage of viable and mobile sperm. Also, many of the soluble secretory factors of mesenchymal stem cells can be in extracellular vesicles and act as mediators of many paracrine actions of mesenchymal stem cells. They play the role of vehicles to displace unwanted cellular proteins, but the data of different authors demonstrated their potential role in many biological processes, including contribution to cell regeneration, survival and change in the phenotype of reici cells. The attachment or internalization of microseusiculi in target cells causes a wide range of epigenetic and phenotypic changes in recipient cells, such as a change in the viability of recipient cells, their adhesive properties and sensitivity or resistance to certain environmental factors. Spermeatozoa using microseusicals can be considered as an effective biological approach to maintaining and improving the quality of sperm, in the future, it can improve their viability and progressive mobility after cryopenservation. The wide therapeutic effect of mesenchymal stem cells and biologically active substances secreted by them requires further research to include sperm freezing in the protocols in order to overcome existing restrictions related to their use, and to clarify the exact mechanisms of their action. Further experiments, in particular in vivo, are necessary to confirm the actual clinical effects of these chemicals on the fertilizing ability of a spermatozoa. Thus, in this review, the issue of conducted studies in the field of use of mesenchymal stem cells and the substances they secrete during cryoponservation of animal sperm was covered.
间充质干细胞及其衍生物对动物精子冷冻前后定性指标的影响(综述)
在精子冷冻过程中,由于渗透压力导致精子损伤,这导致DNA偏离和精子尾部变形。为了尽量减少细胞的破坏性变化,使用添加营养成分的抗氧化剂或冷冻保护介质。许多研究已经证实,使用间充质干细胞及其秘密增加了活精子和活动精子的百分比。此外,间充质干细胞的许多可溶性分泌因子可以存在于细胞外囊泡中,并作为间充质干细胞许多旁分泌作用的介质。它们扮演着取代不需要的细胞蛋白的载体的角色,但不同作者的数据表明它们在许多生物学过程中具有潜在的作用,包括细胞再生,存活和reici细胞表型变化的贡献。微囊泡在靶细胞中的附着或内化会引起受体细胞广泛的表观遗传和表型变化,如受体细胞的活力、粘附性能和对某些环境因素的敏感性或抗性的变化。在精子中使用微香料可以被认为是维持和提高精子质量的一种有效的生物学方法,在未来,它可以提高精子在低温保存后的活力和渐进式流动性。间充质干细胞及其分泌的生物活性物质具有广泛的治疗作用,需要进一步研究,将精子冷冻纳入方案,以克服现有的使用限制,并澄清其作用的确切机制。进一步的实验,特别是体内实验,需要证实这些化学物质对精子受精能力的实际临床影响。因此,本文就动物精子冷冻保存过程中间充质干细胞的应用及其分泌物质的研究进展进行综述。
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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