Induction of in vivo-like ciliation in confluent monolayers of re-differentiated equine oviduct epithelial cells†.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Bart Leemans, Bart M Gadella, Josephine H E A M Marchand, Ann Van Soom, Tom A E Stout
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Abstract

We recently developed re-differentiated equine oviduct epithelial cell (REOEC) monolayers demonstrating various in vivo morphological characteristics, but lacking secondary ciliation. In this study, we evaluated the effects of fetal bovine serum, reproductive steroid hormones, Wnt- and Notch ligands and inhibitors, and different EOEC seeding densities, in both conventional wells and on microporous membranes, on EOEC morphology and, in particular, secondary ciliation. REOEC monolayers were assessed by confocal microscopy after combined staining of nuclei, cilia, and the cytoskeleton. Only Wnt ligands, Notch inhibitors and oviduct explant cell concentration affected EOEC morphology. Undesirable epithelial-mesenchymal transition was observed in REOEC monolayers exposed to Wnt3a containing medium and Wnt ligand CHIR 99021. With respect to secondary ciliation, only the combined effect of oviduct explant cell concentration and Notch inhibition steered REOEC monolayers to in vivo-like ciliation patterns. De-differentiated EOECs, formed 10 days after oviduct explant cell seeding, were reseeded on inserts; only at initial oviduct explant cell concentrations of 1 and 5 × 106 cells per well was the formation of REOEC monolayers with a high rate of diffuse ciliation supported. Within 1 month after air-liquid interface introduction, >40% and >20% of the REOECs showed secondary cilia, respectively. At higher oviduct explant cell seeding densities secondary ciliation was not supported after re-differentiation. Additionally, Notch inhibition helped boost secondary ciliation rates to >60% in REOEC monolayers with diffuse ciliation only. These monolayers demonstrated higher clathrin expression under follicular phase conditions. Overall, the ciliated REOEC monolayers better resemble in vivo oviduct epithelial cells than previous models.

在再分化的马输卵管上皮细胞汇聚单层中诱导活体样凋亡。
我们最近培育出了再分化的马输卵管上皮细胞(REOEC)单层细胞,它们具有各种体内形态特征,但缺乏继发性凋亡。在这项研究中,我们评估了胎牛血清、生殖类固醇激素、Wnt 和 Notch 配体和抑制剂以及在传统孔和微孔膜上不同的 EOEC 播种密度对 EOEC 形态特别是继发性凋亡的影响。在对细胞核、纤毛和细胞骨架进行联合染色后,用共聚焦显微镜对 REOEC 单层进行了评估。只有Wnt配体、Notch抑制剂和输卵管外植体细胞浓度会影响EOEC的形态。在暴露于含有 Wnt3a 的培养基和 Wnt 配体 CHIR 99021 的 REOEC 单层中观察到了不理想的上皮-间质转化。在继发性凋亡方面,只有输卵管外植体细胞浓度和Notch抑制的共同作用才能将REOEC单层引导到类似于活体的凋亡模式。在输卵管外植体细胞播种 10 天后形成的去分化 EOECs 被重新接种到插入物上;只有在每孔初始输卵管外植体细胞浓度为 1 和 5 x106 个细胞时,才支持形成具有高扩散缀合率的 REOEC 单层。在引入气液界面后的 1 个月内,分别有超过 40% 和超过 20% 的 REOEC 出现了次级纤毛。在较高的输卵管外植体细胞播种密度下,再分化后不支持次级纤毛。此外,在只有弥散纤毛的 REOEC 单层细胞中,Notch 抑制有助于将继发性纤毛率提高到 60% 以上。在卵泡期条件下,这些单层细胞表现出更高的凝集素表达。总之,与以前的模型相比,纤毛REOEC单层更像体内的输卵管上皮细胞。
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
CiteScore
7.20
自引率
4.30%
发文量
567
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