核心N-DRC组件在胚胎发育和出生后器官发育中起着至关重要的作用。

Core N-DRC components play a crucial role in embryonic development and postnatal organ development.

作者信息

Ren Chuan, Sun Shuya, Zhu Jiajie, Zhou Shushu, Zhang Xin, Bian Shuhui, Wang Ying, Zhang Jintao, Liu Mingxi

机构信息

State Key Laboratory of Reproductive Medicine and Offspring Health, Department of Histology and Embryology, School of Basic Medical Sciences, Nanjing Medical University, Nanjing, China.

Department of Reproduction, Nanjing Women and Child's Healthcare Hospital, Women's Hospital of Nanjing Medical University, Nanjing, China.

出版信息

Cell Death Dis. 2025 Mar 15;16(1):176. doi: 10.1038/s41419-025-07506-2.

DOI:10.1038/s41419-025-07506-2

PMID:40089458

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11910659/

Abstract

Motile cilia and flagella are evolutionarily conserved organelles, and their defects cause primary ciliary dyskinesia (PCD), a disorder characterized by systemic organ dysfunction. The nexin-dynein regulatory complex (N-DRC) is a crucial structural component of motile cilia and flagella, present across various species from Chlamydomonas to humans. Defects in N-DRC components lead to multiple PCD symptoms, including sinusitis and male infertility. However, the phenotypic expression of N-DRC defects varies significantly among individuals, and there has been a lack of systematic study of core N-DRC components in mammals. Utilizing Drc1-4 and Drc7 knockout mice, this study systematically reveals the roles and assembly process of core N-DRC components in ependymal cilia, respiratory cilia, and sperm flagella. The findings show that core N-DRC components are crucial for the survival of mice on a purebred genetic background. In mixed genetic background mice, N-DRC defects impair the motility of motile cilia and the stability of flagellar axonemes. Additionally, a novel role of the N-DRC specific component (A-kinase anchoring protein 3) AKAP3 in regulating sperm phosphorylation was discovered. Collectively, our results provide a comprehensive understanding of the core N-DRC components in mammalian cilia and flagella.

摘要

运动性纤毛和鞭毛是进化上保守的细胞器，它们的缺陷会导致原发性纤毛运动障碍（PCD），这是一种以全身器官功能障碍为特征的疾病。连接蛋白-动力蛋白调节复合体（N-DRC）是运动性纤毛和鞭毛的关键结构成分，存在于从衣藻到人类的各种物种中。N-DRC成分的缺陷会导致多种PCD症状，包括鼻窦炎和男性不育。然而，N-DRC缺陷的表型表达在个体间差异很大，并且在哺乳动物中缺乏对核心N-DRC成分的系统研究。本研究利用Drc1-4和Drc7基因敲除小鼠，系统地揭示了核心N-DRC成分在室管膜纤毛、呼吸道纤毛和精子鞭毛中的作用和组装过程。研究结果表明，在纯合基因背景下，核心N-DRC成分对小鼠的存活至关重要。在混合基因背景的小鼠中，N-DRC缺陷会损害运动性纤毛的运动能力和鞭毛轴丝的稳定性。此外，还发现了N-DRC特异性成分（A激酶锚定蛋白3，AKAP3）在调节精子磷酸化中的新作用。总的来说，我们的研究结果全面揭示了哺乳动物纤毛和鞭毛中核心N-DRC成分的情况。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e310/11910659/f9b5834e5d67/41419_2025_7506_Fig1_HTML.jpg

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核心N-DRC组件在胚胎发育和出生后器官发育中起着至关重要的作用。

Core N-DRC components play a crucial role in embryonic development and postnatal organ development.

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