Biological activity of a drug, polypeptides derived from testes in a model of oxidative stress in vitro.

Experimental and Сlinical Urology Pub Date : 2022-09-25 DOI:10.29188/2222-8543-2022-15-3-18-26

Y. Khochenkova, Yu. S. Machkova, D. Khochenkov, E. Safarova, N. A. Bastrikova

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Abstract

Introduction. Male infertility is one of the main causes of forced childlessness of couples around the world. Currently, a limited number of drugs for the treatment of male infertility are available on the market. Biologically active supplements (dietary supplements) containing L-carnitine are often used in the complex therapy. The results of determining the therapeutic activity of a new drug, a peptide complex obtained from cattle testes (PP-R-001) for the treatment of male infertility and comparing its effectiveness with L-carnitine in the models of oxidative stress induction in cell cultures are presented. Material and methods. The study was carried out on cell lines of transplanted piglet testicle (PTP) and bovine embryonic testicle (TEB). Two experimental approaches were used to induce oxidative stress (OS) in testicular cells: co-culturing cells of either PTP or TEB with cisplatin (cis-Pt) or hydrogen peroxide (H2O2). The protective effect of the PP-R-001 peptide complex was assessed by the induction of apoptosis and testicular cell death, migration activity, the number of cells with DNA double-strand breaks, the level of reactive oxygen species, mitochondrial activity of cells under OS conditions. Results. The effect of PP-R-001 significantly exceeded the effect of L-carnitine on the survival rate and decrease of apoptotic cell number of PTP and TEB under OS conditions. PP-R-001 significantly increased the migration activity of both cell lines. It was found that PP-R-001 significantly reduced the level of intracellular lesions that lead to apoptotic death of TEB and PTP cells exposed to both cis-Pt and H2O2: the drug increased the activity of mitochondria and decreased the number of DNA double-strand breaks and reactive oxygen species (ROS). Conclusion. The data obtained indicate that PP-R-001 has a multimodal effect on testicular TEB and PTP cells in the oxidative stress models, which is superior to the effect of L-carnitine widely used in male fertility supplements.

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一种药物的生物活性，多肽来源于体外氧化应激模型的睾丸。

介绍。男性不育是世界各地夫妇被迫无子女的主要原因之一。目前，市场上用于治疗男性不育症的药物数量有限。含有左旋肉碱的生物活性补充剂(膳食补充剂)常用于复合治疗。本文介绍了一种从牛睾丸中提取的肽复合物(PP-R-001)用于治疗男性不育症的新药的治疗活性，并将其与左旋肉碱在细胞培养氧化应激诱导模型中的效果进行了比较。材料和方法。对移植仔猪睾丸(PTP)和牛胚胎睾丸(TEB)细胞系进行了研究。采用两种实验方法诱导睾丸细胞氧化应激(OS): PTP或TEB细胞与顺铂(cis-Pt)或过氧化氢(H2O2)共培养。通过对OS条件下细胞凋亡和睾丸细胞死亡的诱导、迁移活性、DNA双链断裂细胞数量、活性氧水平、线粒体活性等指标来评估PP-R-001肽复合物的保护作用。结果。在OS条件下，PP-R-001对PTP和TEB的存活率和凋亡细胞数量减少的影响显著超过左旋肉碱。PP-R-001显著提高了两种细胞系的迁移活性。发现PP-R-001显著降低暴露于顺式pt和H2O2的TEB和PTP细胞的细胞内病变导致凋亡的水平:该药增加线粒体活性，减少DNA双链断裂和活性氧(ROS)的数量。结论。结果表明，在氧化应激模型下，PP-R-001对睾丸TEB和PTP细胞具有多模态影响，优于广泛用于男性生育补充剂的左旋肉碱。

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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Experimental and Сlinical Urology

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