PALS1-dependent modulations of mRNA profiles in MDCK II cells grown in non-confluent monolayers and three-dimensional cysts.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-11-29 DOI:10.1186/s12863-024-01284-0

Klaus Schughart, Annika Möller-Kerutt, Verena Höffken, Pavel Nedvetsky, Ann-Christin Groh, Daniela Anne Braun, Hermann Pavenstädt, Thomas Weide

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Abstract

In epithelia, apicobasal cell polarization is closely linked to cell-cell contact formation, both controlled by the conserved Crumbs (CRB) complex, which includes the transmembrane protein Crumbs (CRB3a) and adapter proteins PALS1, PATJ, and LIN7c. In MDCK II cells, a model for cell polarization, depletion of PALS1 - which binds to all CRB components - leads to defective cell polarization and improper distribution of tight junction proteins, resulting in severe epithelial barrier defects in 3D cyst models. This study investigated whether this phenotype is associated with transcriptional changes by analyzing wildtype (WT) and PALS1 knockout (KO) MDCK II cell lines grown under non-confluent conditions and in 3D cyst cultures. Our results indicate that the transition from non-confluent cells to 3D cysts involves numerous differentially expressed genes (DEGs) in both WT and KO cells. Importantly, the analyses revealed significant overlaps between WT and KO cells in their maturation processes, suggesting that most identified DEGs are linked to differentiation from non-confluent to polarized MDCK cells and likely not a result of PALS1 deficiency. Gene Ontology (GO) enrichment and over-representation analyses using REACTOME and KEGG databases confirmed these similarities. In contrast, the direct comparison of WT and KO cells at the two stages showed fewer DEGs and overlaps in associated biological processes and signaling pathways. DEGs associated with the 3D stage, in which the phenotype manifests, contain DEGs and pathways that were predominantly linked to cell cycle linked processes, centromere assembly, or DNA replication. Furthermore, the transcription of genes encoding key junction proteins, additional polarity proteins, and cell-substrate interaction proteins is less affected by the loss of PALS1, indicating that PALS1 influences the transcriptional profiles in epithelial cells as a modulating factor.

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在非融合单层和三维囊肿中生长的MDCK II细胞中mRNA谱的pals1依赖性调节。

在上皮细胞中，顶基细胞极化与细胞间接触形成密切相关，两者都由保守的碎屑（CRB）复合物控制，其中包括跨膜蛋白碎屑（CRB3a）和转换蛋白PALS1、PATJ和LIN7c。在细胞极化模型MDCK II细胞中，与所有CRB组分结合的PALS1的耗尽导致细胞极化缺陷和紧密连接蛋白的不正确分布，导致3D囊肿模型中严重的上皮屏障缺陷。本研究通过分析野生型（WT）和PALS1敲除（KO） MDCK II细胞系在非融合条件下和3D囊肿培养中生长，研究了这种表型是否与转录变化有关。我们的研究结果表明，在WT和KO细胞中，从非融合细胞到3D囊肿的转变涉及许多差异表达基因（DEGs）。重要的是，分析揭示了WT和KO细胞在成熟过程中的显著重叠，这表明大多数已鉴定的deg与从非融合MDCK细胞向极化MDCK细胞的分化有关，可能不是PALS1缺乏的结果。使用REACTOME和KEGG数据库进行基因本体（GO）富集和过度表征分析证实了这些相似性。相比之下，WT和KO细胞在这两个阶段的直接比较显示，deg较少，相关的生物学过程和信号通路重叠。与表型表现的3D阶段相关的deg包含主要与细胞周期相关过程、着丝粒组装或DNA复制相关的deg和途径。此外，编码关键连接蛋白、附加极性蛋白和细胞-底物相互作用蛋白的基因转录受PALS1缺失的影响较小，表明PALS1作为调节因子影响上皮细胞的转录谱。

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

BMC genomic data

CiteScore

4.90

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0.00%

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