Differences in neuronal ciliation rate and ciliary content revealed by systematic imaging-based analysis of hiPSC-derived models across protocols.

IF 4.6 2区生物学 Q2 CELL BIOLOGY

Frontiers in Cell and Developmental Biology Pub Date : 2025-04-11 eCollection Date: 2025-01-01 DOI:10.3389/fcell.2025.1516596

Walther Haenseler, Melanie Eschment, Beth Evans, Marta Brasili, Joana Figueiro-Silva, Fee Roethlisberger, Affef Abidi, Darcie Jackson, Martin Müller, Sally A Cowley, Ruxandra Bachmann-Gagescu

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引用次数: 0

Abstract

Introduction: Ciliopathies are a group of human Mendelian disorders caused by dysfunction of primary cilia, small quasi-ubiquitous sensory organelles. Patients suffering from ciliopathies often display prominent neurodevelopmental phenotypes, underscoring the importance of primary cilia during development and for function of the central nervous system (CNS). Human tissues, in particular from the CNS, are very hard to obtain for research. Patient derived- or genetically engineered human induced pluripotent stem cells (hiPSCs) are therefore a precious resource for investigating the role of cilia in human neurons.

Methods: In this study we used a variety of 2D and 3D neuronal differentiation protocols in multiple hiPSC lines and systematically analyzed ciliation rates and ciliary length in hiPSCs, neural stem cells (NSCs), immature and different types of mature neurons using immunofluorescence.

Results: We found that ciliation rate varied substantially between cell lines and differentiation protocols. Moreover, ciliation rate depended on differentiation stage, being maximal in NSCs and decreasing with neuronal maturation. In various types of mature neurons obtained with different protocols, we found ciliation rates to be as low as ∼10%. Neuronal density also played an important role, with higher ciliation in denser cultures. We further investigated the ciliary protein content in these cells at different differentiation stages using commonly used antibodies against ARL13B, INPP5E, AC3 and GPR161. Cilia in hiPSCs, NSCs and neurons were all positive for ARL13B, with a decreasing trend in intensity in more mature neurons. Likewise, INPP5E was present in all cilia analyzed, while AC3 positivity increased as maturation proceeded. Interestingly, we found that while GPR161 signal almost completely disappeared from cilia upon Sonic hedgehog (SHH) stimulation in NSCs and immature neurons, this was not the case in more mature neurons, suggesting a possible developmental time window for cilia-dependent SHH signaling.

Conclusion: Taken together, our results provide a systematic description of cilia in hiPSC-derived neuronal cells generated with different protocols, underscoring the importance of selecting the optimal model system and controls for investigating primary cilia in hiPSC-derived neuronal cells.

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不同方案hipsc衍生模型的系统成像分析揭示了神经元调解率和纤毛含量的差异。

简介：纤毛病是一组人类孟德尔疾病引起的初级纤毛功能障碍，小的准无处不在的感觉细胞器。患有纤毛病的患者通常表现出突出的神经发育表型，强调了初级纤毛在发育和中枢神经系统（CNS）功能中的重要性。人体组织，尤其是来自中枢神经系统的组织，很难获得用于研究。因此，患者源性或基因工程人类诱导多能干细胞（hipsc）是研究纤毛在人类神经元中的作用的宝贵资源。方法：在本研究中，我们在多个hiPSC细胞系中采用多种2D和3D神经元分化方案，并使用免疫荧光技术系统分析hiPSC、神经干细胞（NSCs）、未成熟和不同类型成熟神经元的纤毛速率和纤毛长度。结果：我们发现调解率在细胞系和分化方案之间有很大差异。此外，调解率与分化阶段有关，在NSCs中最高，随着神经元的成熟而降低。在不同方案获得的各种类型的成熟神经元中，我们发现调解率低至10%。神经元密度也发挥了重要作用，在更密集的培养中具有更高的调解。我们使用ARL13B、INPP5E、AC3和GPR161等常用抗体进一步研究了这些细胞在不同分化阶段的纤毛蛋白含量。hiPSCs、NSCs和神经元纤毛中ARL13B均呈阳性，越成熟的神经元中ARL13B呈下降趋势。同样，INPP5E存在于所有分析的纤毛中，而AC3阳性随着成熟的进行而增加。有趣的是，我们发现在NSCs和未成熟神经元中，当Sonic hedgehog （SHH）刺激时，GPR161信号几乎完全从纤毛中消失，但在更成熟的神经元中情况并非如此，这表明纤毛依赖性SHH信号可能存在发育时间窗口。综上所述，我们的研究结果提供了不同方案生成的hipsc衍生神经细胞中纤毛的系统描述，强调了选择最佳模型系统和对照研究hipsc衍生神经细胞中原代纤毛的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Cell and Developmental Biology Biochemistry, Genetics and Molecular Biology-Cell Biology

CiteScore

9.70

自引率

3.60%

发文量

2531

审稿时长

12 weeks

期刊介绍： Frontiers in Cell and Developmental Biology is a broad-scope, interdisciplinary open-access journal, focusing on the fundamental processes of life, led by Prof Amanda Fisher and supported by a geographically diverse, high-quality editorial board. The journal welcomes submissions on a wide spectrum of cell and developmental biology, covering intracellular and extracellular dynamics, with sections focusing on signaling, adhesion, migration, cell death and survival and membrane trafficking. Additionally, the journal offers sections dedicated to the cutting edge of fundamental and translational research in molecular medicine and stem cell biology. With a collaborative, rigorous and transparent peer-review, the journal produces the highest scientific quality in both fundamental and applied research, and advanced article level metrics measure the real-time impact and influence of each publication.