人类精子蛋白质组——男性生育力检测的一个面板。

The human sperm proteome-Toward a panel for male fertility testing.

机构信息

Center for Reproductive Medicine and Andrology, Martin Luther University Halle-Wittenberg, Halle, Germany.

Proteomics Core Facility, Institute of Molecular Biology, Mainz, Germany.

出版信息

Andrology. 2023 Oct;11(7):1418-1436. doi: 10.1111/andr.13431. Epub 2023 Apr 13.

DOI:10.1111/andr.13431

PMID:36896575

Abstract

BACKGROUND

Although male factor accounts for 40%-50% of unintended childlessness, we are far from fully understanding the detailed causes. Usually, affected men cannot even be provided with a molecular diagnosis.

OBJECTIVES

We aimed at a higher resolution of the human sperm proteome for better understanding of the molecular causes of male infertility. We were particularly interested in why reduced sperm count decreases fertility despite many normal-looking spermatozoa and which proteins might be involved.

MATERIAL AND METHODS

Applying mass spectrometry analysis, we qualitatively and quantitatively examined the proteomic profiles of spermatozoa from 76 men differing in fertility. Infertile men had abnormal semen parameters and were involuntarily childless. Fertile subjects exhibited normozoospermia and had fathered children without medical assistance.

RESULTS

We discovered proteins from about 7000 coding genes in the human sperm proteome. These were mainly known for involvements in cellular motility, response to stimuli, adhesion, and reproduction. Numbers of sperm proteins showing at least threefold deviating abundances increased from oligozoospermia (N = 153) and oligoasthenozoospermia (N = 154) to oligoasthenoteratozoospermia (N = 368). Deregulated sperm proteins primarily engaged in flagellar assembly and sperm motility, fertilization, and male gametogenesis. Most of these participated in a larger network of male infertility genes and proteins.

DISCUSSION

We expose 31 sperm proteins displaying deviant abundances under infertility, which already were known before to have fertility relevance, including ACTL9, CCIN, CFAP47, CFAP65, CFAP251 (WDR66), DNAH1, and SPEM1. We propose 18 additional sperm proteins with at least eightfold differential abundance for further testing of their diagnostic potential, such as C2orf16, CYLC1, SPATA31E1, SPATA31D1, SPATA48, EFHB (CFAP21), and FAM161A.

CONCLUSION

Our results shed light on the molecular background of the dysfunctionality of the fewer spermatozoa produced in oligozoospermia and syndromes including it. The male infertility network presented may prove useful in further elucidating the molecular mechanism of male infertility.

摘要

背景

虽然男性因素占不孕不育的 40%-50%，但我们远未完全了解其详细病因。通常，受影响的男性甚至无法进行分子诊断。

目的

我们旨在提高人类精子蛋白质组的分辨率，以更好地了解男性不育的分子原因。我们特别关注精子数量减少为何会降低生育能力，尽管有许多外观正常的精子，以及哪些蛋白质可能与此有关。

材料与方法

应用质谱分析，我们对 76 名生育能力不同的男性的精子蛋白质组进行了定性和定量分析。不育男性的精液参数异常，且无法自然生育；而生育能力正常的男性则表现为正常形态精子症，并在无需医学帮助的情况下生育了子女。

结果

我们在人类精子蛋白质组中发现了约 7000 个编码基因的蛋白质。这些蛋白质主要涉及细胞运动、对刺激的反应、黏附和生殖等功能。精子蛋白质的数量显示出至少三倍的差异，从少精子症（N=153）和弱精子症（N=154）到少弱畸形精子症（N=368）逐渐增加。失调的精子蛋白质主要参与鞭毛组装和精子运动、受精和男性配子发生。其中大多数参与了更大的男性不育基因和蛋白质网络。

讨论

我们揭示了 31 种在不育症中显示出异常丰度的精子蛋白，这些蛋白以前就已经被认为与生育能力有关，包括 ACTL9、CCIN、CFAP47、CFAP65、CFAP251（WDR66）、DNAH1 和 SPEM1。我们提出了另外 18 种具有至少 8 倍差异丰度的精子蛋白，以供进一步测试其诊断潜力，如 C2orf16、CYLC1、SPATA31E1、SPATA31D1、SPATA48、EFHB（CFAP21）和 FAM161A。