Chromatin accessibility profiling reveals that human fibroblasts respond to mechanical stimulation in a cell-specific manner.

IF 3.4 Q2 ENDOCRINOLOGY & METABOLISM
JBMR Plus Pub Date : 2024-02-29 eCollection Date: 2024-05-01 DOI:10.1093/jbmrpl/ziae025
Niall J Logan, Krystyna L Broda, Nikolaos Pantelireis, Greg Williams, Claire A Higgins
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Abstract

Fibroblasts in the skin are highly heterogeneous, both in vivo and in vitro. One difference between follicular (dermal papilla fibroblasts [DP]) and interfollicular fibroblasts (papillary fibroblasts [PFi]) in vitro is their ability to differentiate in response to osteogenic media (OM), or mechanical stimulation. Here, we asked whether differences in the ability of DP and PFi to respond to differentiation stimuli are due to differences in chromatin accessibility. We performed chromatin accessibility and transcriptional profiling of DP and PFi in human skin, which arise from a common progenitor during development, yet display distinct characteristics in adult tissue and in vitro. We found that cells cultured in growth media had unique chromatin accessibility profiles; however, these profiles control similar functional networks. Upon introduction of a chemical perturbation (OM) to promote differentiation, we observed a divergence not only in the accessible chromatin signatures but also in the functional networks controlled by these signatures. The biggest divergence between DP and PFi was observed when we applied 2 perturbations to cells: growth in OM and mechanical stimulation (a shock wave [OMSW]). DP readily differentiate into bone in OMSW conditions, while PFi lack differentiation capability in vitro. In the DP we found a number of uniquely accessible promoters that controlled osteogenic interaction networks associated with bone and differentiation functions. Using ATAC-seq and RNA-seq we found that the combination of 2 stimuli (OMSW) could result in significant changes in chromatin accessibility associated with osteogenic differentiation, but only within the DP (capable of osteogenic differentiation). De novo motif analysis identified enrichment of motifs bound by the TEA domain (TEAD) family of transcription factors, and inter-cell comparisons (UpSet analysis) displayed large groups of genes to be unique to single cell types and conditions. Our results suggest that these 2 stimuli (OMSW) elicit cell-specific responses by modifying chromatin accessibility of osteogenic-related gene promoters.

染色质可及性分析表明,人类成纤维细胞对机械刺激的反应具有细胞特异性。
皮肤中的成纤维细胞在体内和体外都具有高度异质性。在体外,毛囊成纤维细胞(真皮乳头成纤维细胞 [DP])和毛囊间成纤维细胞(乳头成纤维细胞 [PFi])的一个区别是它们在成骨培养基(OM)或机械刺激下的分化能力。在这里,我们想知道 DP 和 PFi 对分化刺激的反应能力差异是否是由于染色质可及性的差异造成的。我们对人类皮肤中的 DP 和 PFi 进行了染色质可及性和转录谱分析,这两种细胞在发育过程中来自一个共同的祖细胞,但在成体组织和体外显示出不同的特征。我们发现,在生长介质中培养的细胞具有独特的染色质可及性图谱;然而,这些图谱控制着相似的功能网络。在引入化学扰动(OM)以促进分化后,我们不仅观察到染色质可及性特征的差异,还观察到由这些特征控制的功能网络的差异。当我们对细胞施加两种扰动:OM 生长和机械刺激(冲击波[OMSW])时,观察到了 DP 和 PFi 之间最大的差异。在 OMSW 条件下,DP 很容易分化成骨骼,而 PFi 则缺乏体外分化能力。在 DP 中,我们发现了一些独特的启动子,它们控制着与骨和分化功能相关的成骨相互作用网络。利用 ATAC-seq 和 RNA-seq 技术,我们发现两种刺激(OMSW)的结合可导致与成骨分化相关的染色质可及性发生显著变化,但仅限于 DP(具有成骨分化能力)。从头开始的基团分析发现了与转录因子TEA结构域(TEAD)家族结合的基团的富集,而细胞间比较(UpSet分析)则显示了大组基因在单一细胞类型和条件下的独特性。我们的研究结果表明,这两种刺激(OMSW)通过改变成骨相关基因启动子染色质的可及性,引起细胞特异性反应。
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
JBMR Plus
JBMR Plus Medicine-Orthopedics and Sports Medicine
CiteScore
5.80
自引率
2.60%
发文量
103
审稿时长
8 weeks
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