Evaluation of the effect of lecithin and nanolecithin in repairing membrane damage, maintaining membrane integrity, and improving human sperm function in the freezing-thawing process.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-24 DOI:10.1007/s10815-024-03258-8
Sajed Khaledi, Armin Towhidi, Mansoureh Movahedin, Maryam Nikkhah, Iman Halvaei
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Abstract

Purpose: Our study aimed to evaluate the effects of lecithin nanoparticles on sperm quality during cryopreservation.

Methods: In phase one, sperm-freezing media were prepared with lecithin concentrations (0.5%, 1%, and 2%) and lecithin nanoparticles of various sizes (50-100, 100-200, and ≥ 200 nm). Post-thaw, sperm motility, viability, mitochondrial membrane potential (MMP), lipid peroxidation (measured by malondialdehyde, MDA), and DNA fragmentation were evaluated. In phase two, the acrosomal reaction was assessed in the best and worst-performing groups from phase one. DiI labeling detected interactions between lecithin nanoparticles and the sperm membrane. Field emission scanning electron microscopy (FESEM) examined the sperm membrane's surface structure and lecithin binding sites. Atomic force microscopy (AFM) assessed height differences in the sperm surface layer in the best-performing group from phase one.

Results: The group treated with 1% lecithin nanoparticles (50-100 nm) showed significantly increased viability post-thaw compared to other groups, with reduced DNA fragmentation and MDA levels. While motility significantly decreased in all groups compared to before freezing levels, lower concentrations, and smaller particle sizes yielded better results. MMP also significantly decreased across all groups with no significant differences. The acrosomal reaction significantly decreased with 1% lecithin nanoparticles (50-100 nm) compared to the 2% (≥ 200 nm) group. DiI-labeled nanoparticles and FESEM revealed that lecithin nanoparticles primarily bound to and infiltrated the sperm membrane, particularly in the head and postacrosomal regions.

Conclusions: Lecithin nanoparticles effectively bind to the sperm membrane, protecting it during the freeze-thaw process and improving sperm viability.

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评估卵磷脂和纳米卵磷脂在冻融过程中修复膜损伤、保持膜完整性和改善人类精子功能的效果。
目的:我们的研究旨在评估卵磷脂纳米颗粒对冷冻保存过程中精子质量的影响:在第一阶段,制备了含有不同浓度卵磷脂(0.5%、1%和2%)和不同大小卵磷脂纳米颗粒(50-100、100-200和≥200 nm)的精子冷冻培养基。对解冻后的精子活力、存活率、线粒体膜电位(MMP)、脂质过氧化(用丙二醛测量)和 DNA 断裂进行了评估。在第二阶段,对第一阶段表现最好和最差的组进行了顶体反应评估。DiI 标记检测卵磷脂纳米颗粒与精子膜之间的相互作用。场发射扫描电子显微镜(FESEM)检查了精子膜的表面结构和卵磷脂结合位点。原子力显微镜(AFM)评估了第一阶段表现最好的一组精子表层的高度差异:结果:与其他组相比,用 1%卵磷脂纳米颗粒(50-100 nm)处理的组在解冻后的存活率显著提高,DNA 断裂和 MDA 水平降低。与冷冻前的水平相比,所有组的运动能力都明显下降,但较低的浓度和较小的颗粒尺寸效果更好。各组的 MMP 也明显下降,但无明显差异。与 2%(≥ 200 nm)组相比,1%卵磷脂纳米颗粒(50-100 nm)组的顶体反应明显降低。DiI标记的纳米颗粒和FESEM显示,卵磷脂纳米颗粒主要与精子膜结合并渗入精子膜,尤其是在头部和顶体后区域:卵磷脂纳米颗粒能有效结合精子膜,在冻融过程中保护精子膜,提高精子活力。
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CiteScore
7.20
自引率
4.30%
发文量
567
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