lncRNA CDKN2B-AS1 regulates collagen expression.

IF 3.8 2区生物学 Q2 GENETICS & HEREDITY

Human Genetics Pub Date : 2024-07-01 Epub Date: 2024-06-04 DOI:10.1007/s00439-024-02674-1

Weiwei Shi, Jiahui Song, January Mikolaj Weiner, Avneesh Chopra, Henrik Dommisch, Dieter Beule, Arne S Schaefer

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Abstract

The long noncoding RNA CDKN2B-AS1 harbors a major coronary artery disease risk haplotype, which is also associated with progressive forms of the oral inflammatory disease periodontitis as well as myocardial infarction (MI). Despite extensive research, there is currently no broad consensus on the function of CDKN2B-AS1 that would explain a common molecular role of this lncRNA in these diseases. Our aim was to investigate the role of CDKN2B-AS1 in gingival cells to better understand the molecular mechanisms underlying the increased risk of progressive periodontitis. We downregulated CDKN2B-AS1 transcript levels in primary gingival fibroblasts with LNA GapmeRs. Following RNA-sequencing, we performed differential expression, gene set enrichment analyses and Western Blotting. Putative causal alleles were searched by analyzing associated DNA sequence variants for changes of predicted transcription factor binding sites. We functionally characterized putative functional alleles using luciferase-reporter and antibody electrophoretic mobility shift assays in gingival fibroblasts and HeLa cells. Of all gene sets analysed, collagen biosynthesis was most significantly upregulated (P_adj=9.7 × 10^- 5 (AUC > 0.65) with the CAD and MI risk gene COL4A1 showing strongest upregulation of the enriched gene sets (Fold change = 12.13, P_adj = 4.9 × 10^- 25). The inflammatory "TNFA signaling via NFKB" gene set was downregulated the most (P_adj=1 × 10^- 5 (AUC = 0.60). On the single gene level, CAPNS2, involved in extracellular matrix organization, was the top upregulated protein coding gene (Fold change = 48.5, P < 9 × 10^- 24). The risk variant rs10757278 altered a binding site of the pathogen responsive transcription factor STAT1 (P = 5.8 × 10^- 6). rs10757278-G allele reduced STAT1 binding 14.4% and rs10757278-A decreased luciferase activity in gingival fibroblasts 41.2% (P = 0.0056), corresponding with GTEx data. CDKN2B-AS1 represses collagen gene expression in gingival fibroblasts. Dysregulated collagen biosynthesis through allele-specific CDKN2B-AS1 expression in response to inflammatory factors may affect collagen synthesis, and in consequence tissue barrier and atherosclerotic plaque stability.

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lncRNA CDKN2B-AS1 调节胶原蛋白的表达。

长非编码 RNA CDKN2B-AS1 有一个主要的冠状动脉疾病风险单倍型，它还与进行性口腔炎症性疾病牙周炎和心肌梗塞（MI）有关。尽管进行了大量研究，但目前对 CDKN2B-AS1 的功能还没有达成广泛共识，无法解释这种 lncRNA 在这些疾病中的共同分子作用。我们的目的是研究 CDKN2B-AS1 在牙龈细胞中的作用，以更好地了解进展性牙周炎风险增加的分子机制。我们用 LNA GapmeRs 下调了原代牙龈成纤维细胞中 CDKN2B-AS1 的转录水平。在进行 RNA 测序后，我们进行了差异表达、基因组富集分析和 Western 印迹分析。通过分析相关的 DNA 序列变异，预测转录因子结合位点的变化，寻找推定的因果等位基因。我们在牙龈成纤维细胞和 HeLa 细胞中使用荧光素酶报告器和抗体电泳迁移实验对推定的功能等位基因进行了功能表征。在分析的所有基因集中，胶原蛋白生物合成的上调最为显著（Padj=9.7 × 10- 5 (AUC > 0.65)，其中 CAD 和 MI 风险基因 COL4A1 在富集基因集中显示出最强的上调（折叠变化 = 12.13，Padj = 4.9 × 10-25）。炎症基因 "通过 NFKB 的 TNFA 信号转导 "基因组的下调幅度最大（Padj=1 × 10- 5，AUC=0.60）。在单基因水平上，参与细胞外基质组织的 CAPNS2 是上调幅度最大的蛋白质编码基因（折叠变化 = 48.5，P - 24）。风险变异 rs10757278 改变了病原体反应性转录因子 STAT1 的结合位点（P = 5.8 × 10-6），等位基因 rs10757278-G 使 STAT1 结合率降低了 14.4%，rs10757278-A 使牙龈成纤维细胞的荧光素酶活性降低了 41.2%（P = 0.0056），与 GTEx 数据一致。CDKN2B-AS1 抑制了牙龈成纤维细胞中胶原蛋白基因的表达。等位基因特异性 CDKN2B-AS1 表达对炎症因子的反应导致胶原蛋白生物合成失调，可能会影响胶原蛋白的合成，进而影响组织屏障和动脉粥样硬化斑块的稳定性。

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

Human Genetics 生物-遗传学

CiteScore

10.80

自引率

3.80%

发文量

审稿时长

1 months

期刊介绍： Human Genetics is a monthly journal publishing original and timely articles on all aspects of human genetics. The Journal particularly welcomes articles in the areas of Behavioral genetics, Bioinformatics, Cancer genetics and genomics, Cytogenetics, Developmental genetics, Disease association studies, Dysmorphology, ELSI (ethical, legal and social issues), Evolutionary genetics, Gene expression, Gene structure and organization, Genetics of complex diseases and epistatic interactions, Genetic epidemiology, Genome biology, Genome structure and organization, Genotype-phenotype relationships, Human Genomics, Immunogenetics and genomics, Linkage analysis and genetic mapping, Methods in Statistical Genetics, Molecular diagnostics, Mutation detection and analysis, Neurogenetics, Physical mapping and Population Genetics. Articles reporting animal models relevant to human biology or disease are also welcome. Preference will be given to those articles which address clinically relevant questions or which provide new insights into human biology. Unless reporting entirely novel and unusual aspects of a topic, clinical case reports, cytogenetic case reports, papers on descriptive population genetics, articles dealing with the frequency of polymorphisms or additional mutations within genes in which numerous lesions have already been described, and papers that report meta-analyses of previously published datasets will normally not be accepted. The Journal typically will not consider for publication manuscripts that report merely the isolation, map position, structure, and tissue expression profile of a gene of unknown function unless the gene is of particular interest or is a candidate gene involved in a human trait or disorder.

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