Xenopus tropicalis osteoblast-specific open chromatin regions reveal promoters and enhancers involved in human skeletal phenotypes and shed light on early vertebrate evolution

IF 3.9 4区 生物学 Q4 Biochemistry, Genetics and Molecular Biology
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Abstract

While understanding the genetic underpinnings of osteogenesis has far-reaching implications for skeletal diseases and evolution, a comprehensive characterization of the osteoblastic regulatory landscape in non-mammalian vertebrates is still lacking. Here, we compared the ATAC-Seq profile of Xenopus tropicalis (Xt) osteoblasts to a variety of non mineralizing control tissues, and identified osteoblast-specific nucleosome free regions (NFRs) at 527 promoters and 6747 distal regions. Sequence analyses, Gene Ontology, RNA-Seq and ChIP-Seq against four key histone marks confirmed that the distal regions correspond to bona fide osteogenic transcriptional enhancers exhibiting a shared regulatory logic with mammals. We report 425 regulatory regions conserved with human and globally associated to skeletogenic genes. Of these, 35 regions have been shown to impact human skeletal phenotypes by GWAS, including one trps1 enhancer and the runx2 promoter, two genes which are respectively involved in trichorhinophalangeal syndrome type I and cleidocranial dysplasia. Intriguingly, 60 osteoblastic NFRs also align to the genome of the elephant shark, a species lacking osteoblasts and bone tissue. To tackle this paradox, we chose to focus on dlx5 because its conserved promoter, known to integrate regulatory inputs during mammalian osteogenesis, harbours an osteoblast-specific NFR in both frog and human. Hence, we show that dlx5 is expressed in Xt and elephant shark odontoblasts, supporting a common cellular and genetic origin of bone and dentine. Taken together, our work (i) unravels the Xt osteogenic regulatory landscape, (ii) illustrates how cross-species comparisons harvest data relevant to human biology and (iii) reveals that a set of genes including bnc2, dlx5, ebf3, mir199a, nfia, runx2 and zfhx4 drove the development of a primitive form of mineralized skeletal tissue deep in the vertebrate lineage.

Abstract Image

热带爪蟾成骨细胞特异性开放染色质区揭示了涉及人类骨骼表型的启动子和增强子,并揭示了早期脊椎动物的进化过程。
虽然了解成骨的遗传基础对骨骼疾病和进化具有深远影响,但目前仍缺乏对非哺乳脊椎动物成骨细胞调控图谱的全面描述。在这里,我们比较了热带爪蟾蜍(Xt)成骨细胞与各种非矿化对照组织的 ATAC-Seq 图谱,在 527 个启动子和 6747 个远端区域鉴定了成骨细胞特异性无核糖体区域(NFR)。序列分析、基因本体论、RNA-Seq和针对四个关键组蛋白标记的ChIP-Seq证实,这些远端区域对应于真正的成骨转录增强子,表现出与哺乳动物共享的调控逻辑。我们报告了425个与人类一致的调控区域,这些区域在全球范围内与成骨基因相关。其中,35 个区域已被 GWAS 证明对人类骨骼表型产生影响,包括一个 trps1 增强子和 runx2 启动子,这两个基因分别与 I 型三指并指综合征和颅裂发育不良有关。有趣的是,60 个成骨细胞 NFR 也与象鲨的基因组一致,而象鲨是一个缺乏成骨细胞和骨组织的物种。为了解决这一悖论,我们选择了 dlx5 作为研究对象,因为其保守启动子在哺乳动物成骨过程中整合了调控输入,在青蛙和人类中都含有成骨细胞特异性 NFR。因此,我们证明了 dlx5 在 Xt 和象鲨的颌骨母细胞中表达,支持了骨和牙本质的共同细胞和遗传起源。综上所述,我们的工作(i)揭示了 Xt 成骨调控的全貌,(ii)说明了跨物种比较如何获得与人类生物学相关的数据,(iii)揭示了包括 bnc2、dlx5、ebf3、mir199a、nfia、runx2 和 zfhx4 在内的一系列基因推动了脊椎动物系深处矿化骨骼组织原始形式的发展。
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
Cells and Development
Cells and Development Biochemistry, Genetics and Molecular Biology-Developmental Biology
CiteScore
2.90
自引率
0.00%
发文量
33
审稿时长
41 days
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