白细胞精子症水平较低的不育男性体内的活性氧与精子DNA损伤

Reactive oxygen species and sperm DNA damage in infertile men presenting with low level leukocytospermia.

作者信息

Agarwal Ashok, Mulgund Aditi, Alshahrani Saad, Assidi Mourad, Abuzenadah Adel M, Sharma Rakesh, Sabanegh Edmund

机构信息

Center for Reproductive Medicine, Cleveland Clinic, Cleveland, OH 44195, USA.

出版信息

Reprod Biol Endocrinol. 2014 Dec 19;12:126. doi: 10.1186/1477-7827-12-126.

DOI:10.1186/1477-7827-12-126

PMID:25527074

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4292986/

Abstract

BACKGROUND

Leukocytes contribute directly and indirectly to reactive oxygen species (ROS) production. Although leukocytospermia is defined as the presence of ≥ 1 × 106 white blood cells/mL (WBC/mL) in a semen sample, the presence of less than 1×10(6) WBC/mL (low-level leukocytospermia) can still produce a detectable amount of ROS, impairing sperm function and lowering the chances of pregnancy. Our objective was to assess the effect of low-level leukocytospermia on semen quality, ROS levels, and DNA damage in infertile men.

METHODS

Semen samples were examined from 472 patients and divided into 3 groups: no seminal leukocytes; group 2, men with low-level leukoctyospermia (0.1-1.0 × 106 WBC/mL); and group 3, frank leukocytospermia, (>1.0 × 106. WBC/mL). Semen analysis, leukoctyospermia, reactive oxygen species and DNA fragmentation was tested.

RESULTS

Conventional semen parameters between the 3 groups were similar. Group 2 patients had significantly higher levels of ROS and sperm DNA fragmentation (1839.65 ± 2173.57RLU/s; DNA damage: 26.47 ± 19.64%) compared with group 1 (ROS: 1101.09 ± 5557.54 RLU/s; DNA damage: 19.89 ± 17.31%) (ROS: p=0.002; DNA damage: p=0.047). There was no significant difference in ROS levels between groups 2 and 3.

CONCLUSIONS

Patients presenting with low-level leukocytospermia have seminal oxidative stress. Although these patients are not categorized as leukocytospermic by current World Health Organization (WHO) guidelines, these men may benefit by treatment with antibiotics, testing for bacterial cultures, or antioxidant supplements to reduce ROS-induced sperm DNA fragmentation and improve their chances of fertility. The WHO guidelines for leukocytospermia may need to be revised accordingly.

摘要

背景

白细胞直接或间接参与活性氧（ROS）的产生。虽然白细胞精子症的定义是精液样本中白细胞≥1×10⁶个/毫升（WBC/mL），但白细胞少于1×10⁶个/毫升（低水平白细胞精子症）仍可产生可检测量的ROS，损害精子功能并降低受孕几率。我们的目的是评估低水平白细胞精子症对不育男性精液质量、ROS水平和DNA损伤的影响。

方法

对472例患者的精液样本进行检查，并分为3组：无精液白细胞组；第2组，低水平白细胞精子症男性（0.1 - 1.0×10⁶个WBC/mL）；第3组，明显白细胞精子症（>1.0×10⁶个WBC/mL）。进行精液分析、白细胞精子症、活性氧和DNA片段化检测。

结果

3组之间的常规精液参数相似。与第1组（ROS：1101.09±5557.54RLU/s；DNA损伤：19.89±17.31%）相比，第2组患者的ROS水平和精子DNA片段化水平显著更高（1839.65±2173.57RLU/s；DNA损伤：26.47±19.64%）（ROS：p = 0.002；DNA损伤：p = 0.047）。第2组和第3组之间的ROS水平无显著差异。

结论

患有低水平白细胞精子症的患者存在精液氧化应激。虽然根据目前世界卫生组织（WHO）的指南，这些患者未被归类为白细胞精子症患者，但这些男性可能通过使用抗生素治疗、进行细菌培养检测或补充抗氧化剂来减少ROS诱导的精子DNA片段化并提高生育几率而获益。WHO关于白细胞精子症的指南可能需要相应修订。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/68de/4292986/a7c466bbec4c/12958_2014_1295_Fig1_HTML.jpg

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白细胞精子症水平较低的不育男性体内的活性氧与精子DNA损伤

Reactive oxygen species and sperm DNA damage in infertile men presenting with low level leukocytospermia.

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