Granulocyte-Macrophage Colony-Stimulating Factor Cytokine Addition After the Freeze-Thawing Process Improves Human Sperm Motility and Vitality in Asthenoteratozoospermia Patients.

IF 1.4 4区生物学 Biopreservation and Biobanking Pub Date : 2024-02-01 Epub Date: 2023-10-06 DOI:10.1089/bio.2022.0174

Elham Hosseini, Parivash Afradiasbagharani, Masoud Mohammadian, FatemehSadat Amjadi, Maryam Tabatabaei, Fateme Tanhaye Kalate Sabz, Zahra Zandieh

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Abstract

The cryopreservation-thawing process of spermatozoa cells has negative impacts on their structure, function, and fertility parameters, which are known as cryoinjury. Asthenozoospermia patients are more susceptible to cryoinjury. Granulocyte-macrophage colony-stimulating factor (GM-CSF) increases sperm glucose uptake via the induction of glucose transporters, resulting in increased sperm motility. This study aimed to investigate the efficiency of GM-CSF supplementation of the cryopreservation media for semen samples of asthenoteratozoospermia patients. The study was carried out on 20 semen samples from infertile men referred to diagnosing semen analysis. To avoid subjective bias, two main sperm motility parameters, including velocity along the curvilinear path and velocity along the straight-line path were considered by the computer-assisted sperm analysis system. Afterward, each semen sample was divided into three equal aliquots and randomly assigned to one of the following groups: group I (control, freezing media only), group II (+GM-CSF, freezing medium supplemented with 2 μL/mL GM-CSF), or group III (GM-CSF added after thawing and washing). Following semen thawing, standard parameters, mitochondrial membrane potential (MMP), and the DNA Fragmentation Index were analyzed. Total sperm motility (progressive and non-progressive) improved significantly in group III samples after a 30-minute incubation with GM-CSF compared with the control group (26.5% ± 3.1% vs. 17.51% ± 2.59%). However, no differences in progressive motility or sperm morphology were found among the three thawed samples. The percentage of vitality was significantly higher in group III compared with the other two groups (28.38% ± 3.4% vs. 22.4% ± 3.08% and 22.14% ± 2.77%, respectively) (p < 0.05). JC-1 levels (a marker of MMP) were not significantly different between the examined groups (44.95% ± 8.26% vs. 36.61% ± 6.95% vs. 46.67% ± 7.7%, for control, group II, and group III, respectively) (p > 0.05). GM-CSF may be advantageous as an additive after freezing, improving total motility and viability after 30 minutes of post-thaw incubation; however, when supplied to the freezing media before cryopreservation, it is unable to protect against cryoinjury.

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冻融过程后添加粒细胞-巨噬细胞集落刺激因子细胞因子可改善弱精子畸形患者的人类精子活力和活力。

精子细胞的冷冻-解冻过程会对其结构、功能和生育参数产生负面影响，即冷冻损伤。弱精子症患者更容易受到冷冻损伤。粒细胞-巨噬细胞集落刺激因子（GM-CSF）通过诱导葡萄糖转运蛋白增加精子葡萄糖摄取，从而提高精子活力。本研究旨在探讨补充GM-CSF冷冻保存介质对弱精子症患者精液样本的有效性。这项研究是对20份来自不孕男性的精液样本进行的，这些样本用于精液分析。为了避免主观偏见，计算机辅助精子分析系统考虑了两个主要的精子运动参数，包括沿曲线路径的速度和沿直线路径的速度。然后，将每个精液样本分为三等分，并随机分为以下组之一：第一组（对照，仅冷冻培养基）、第二组（+GM-CSF，冷冻培养基补充2 μL/mL GM-CSF）或III组（解冻和洗涤后加入GM-CSF。精液解冻后，对标准参数、线粒体膜电位（MMP）和DNA片段指数进行分析。与对照组（26.5%）相比，用GM-CSF孵育30分钟后，第III组样本的总精子活力（进行性和非进行性）显著改善 ± 3.1%对17.51% ± 2.59%）。然而，在三个解冻的样本中没有发现进行性运动或精子形态的差异。第三组的活力百分比显著高于其他两组（28.38% ± 3.4%对22.4% ± 3.08%和22.14% ± 2.77%）（p p > 0.05）。GM-CSF在冷冻后作为添加剂可能是有利的，在解冻后孵育30分钟后提高总运动性和活力；然而，当在冷冻保存之前提供给冷冻介质时，它不能防止冷冻损伤。

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来源期刊

Biopreservation and Biobanking Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

自引率

12.50%

发文量

114

期刊介绍： Biopreservation and Biobanking is the first journal to provide a unifying forum for the peer-reviewed communication of recent advances in the emerging and evolving field of biospecimen procurement, processing, preservation and banking, distribution, and use. The Journal publishes a range of original articles focusing on current challenges and problems in biopreservation, and advances in methods to address these issues related to the processing of macromolecules, cells, and tissues for research. In a new section dedicated to Emerging Markets and Technologies, the Journal highlights the emergence of new markets and technologies that are either adopting or disrupting the biobank framework as they imprint on society. The solutions presented here are anticipated to help drive innovation within the biobank community. Biopreservation and Biobanking also explores the ethical, legal, and societal considerations surrounding biobanking and biorepository operation. Ideas and practical solutions relevant to improved quality, efficiency, and sustainability of repositories, and relating to their management, operation and oversight are discussed as well.