异种生物对全球转录组的调节:替代剪接在对化学暴露的适应性反应中的作用。

IF 3.8 3区 医学 Q2 GENETICS & HEREDITY
Andrew J Annalora, Jacki L Coburn, Antony Jozic, Patrick L Iversen, Craig B Marcus
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引用次数: 0

摘要

背景:暴露于异种生物可广泛影响包括细胞色素 P450(CYPs)在内的药物代谢酶的表达和替代剪接,但它们对剪接的全转录组影响仍未得到充分探索。本研究利用 Cyp2b2 基因中一个特征明确的剪接事件来验证夹心培养的原代大鼠肝细胞模型,以研究体外全局剪接。利用终点 PCR、RNA 测序和生物信息学工具(rSeqDiff、rMATs、IGV),我们分析了 CYP 和核受体基因以及整个转录组的不同基因表达和剪接,以了解异生物暴露如何形成替代剪接和激活异种感应器:方法:将夹层培养的原代大鼠肝细胞暴露于两种亚甲基二氧苯(MDB)同系物和卡马西平,评估基因表达和剪接情况。整合了 KEGG 通路分析和差异基因表达的三维簇图为每种异生物提供了不同的剪接景观,表明剪接多样性并不总是与基因表达变化一致:结果:终点 PCR 显示,在大多数条件下,Cyp2b2v 与野生型 Cyp2b2 的剪接比率接近 1:1(100%),而 RNA-seq 显示的稳定基线接近 40%。通过 PCR 和 RNA-seq 测序,C6-MDB 将这一比例分别降低到约 50%和 39%,显示出轻微的方法依赖性变化,但趋势一致。相比之下,Cyp1a1 的外显子 6 跳越只发生在 MDB 暴露时,这与 AHR 激活有关。异生物处理还诱导了防御组和应激反应基因的替代剪接,包括II期酶Gstm3、白蛋白、Orm1和Fxyd1,突显了它们在异生物反应调节中的作用。SRSF1、SRSF7和METTL3等因子的剪接发生了显著变化,这表明在SR蛋白网络中存在一个协调的反馈回路,涉及表转录组学调控和交叉对话,完善了剪接位点选择、转录本稳定性和细胞命运:这项研究展示了异生物结构特征如何影响基因表达和剪接,揭示了剪接模式,从而拓展了我们对转录组多样性和功能的认识。通过确定包括 AHR 激活、表转录组调控和 SR 蛋白网络内的串扰在内的调控机制,这项工作提供了对维持细胞稳态的剪接和转录网络的深入了解,从而形成了对外生生物压力的适应性反应。这些发现为有毒物质暴露提供了预测性生物标志物,并凸显了剪接图谱作为评估化学物质暴露对健康影响的诊断工具的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global transcriptome modulation by xenobiotics: the role of alternative splicing in adaptive responses to chemical exposures.

Background: Xenobiotic exposures can extensively influence the expression and alternative splicing of drug-metabolizing enzymes, including cytochromes P450 (CYPs), though their transcriptome-wide impact on splicing remains underexplored. This study used a well-characterized splicing event in the Cyp2b2 gene to validate a sandwich-cultured primary rat hepatocyte model for studying global splicing in vitro. Using endpoint PCR, RNA sequencing, and bioinformatics tools (rSeqDiff, rMATs, IGV), we analyzed differential gene expression and splicing in CYP and nuclear receptor genes, as well as the entire transcriptome, to understand how xenobiotic exposures shape alternative splicing and activate xenosensors.

Methods: Primary rat hepatocytes in sandwich culture were exposed to two methylenedioxybenzene (MDB) congeners and carbamazepine, with gene expression and splicing assessed. A 3D-clustergram integrating KEGG pathway analysis with differential gene expression provided distinct splicing landscapes for each xenobiotic, showing that splicing diversity does not always align with gene expression changes.

Results: Endpoint PCR revealed a Cyp2b2v to wild-type Cyp2b2 splicing ratio near 1:1 (100%) under most conditions, while RNA-seq showed a stable baseline closer to 40%. C6-MDB reduced this ratio to ~ 50% by PCR and ~ 39% by RNA-seq, showing slight method-dependent variations yet consistent trends. In contrast, exon 6 skipping in Cyp1a1 occurred only with MDB exposure, implicating AHR activation. Xenobiotic treatments also induced alternative splicing in defensome and stress-responsive genes, including the phase II enzyme Gstm3, Albumin, Orm1, and Fxyd1, highlighting their roles in xenobiotic response modulation. Significant splicing changes in factors such as SRSF1, SRSF7, and METTL3 suggest a coordinated feedback loop involving epitranscriptomic modulation and cross-talk within SR protein networks, refining splice site selection, transcript stability, and cellular fate.

Conclusions: This study demonstrates how xenobiotic structural features influence gene expression and splicing, revealing splicing patterns that expand our understanding of transcriptome diversity and function. By identifying regulatory mechanisms, including AHR activation, epitranscriptomic modulation, and crosstalk within SR protein networks, that shape adaptive responses to xenobiotic stress, this work offers insights into the splicing and transcriptional networks that maintain cellular homeostasis. These findings provide predictive biomarkers for toxic exposures and highlight the potential of splicing profiles as diagnostic tools for assessing the health impacts of chemical exposure.

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来源期刊
Human Genomics
Human Genomics GENETICS & HEREDITY-
CiteScore
6.00
自引率
2.20%
发文量
55
审稿时长
11 weeks
期刊介绍: Human Genomics is a peer-reviewed, open access, online journal that focuses on the application of genomic analysis in all aspects of human health and disease, as well as genomic analysis of drug efficacy and safety, and comparative genomics. Topics covered by the journal include, but are not limited to: pharmacogenomics, genome-wide association studies, genome-wide sequencing, exome sequencing, next-generation deep-sequencing, functional genomics, epigenomics, translational genomics, expression profiling, proteomics, bioinformatics, animal models, statistical genetics, genetic epidemiology, human population genetics and comparative genomics.
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