Transcriptomic analysis of pancreatic tissue from humans and mice identifies potential gene signatures and unexplored pathways during progression from acute to chronic pancreatitis.

IF 2.6 3区生物学 Q2 GENETICS & HEREDITY

Gene Pub Date : 2025-03-10 Epub Date: 2024-12-26 DOI:10.1016/j.gene.2024.149200

Sheethal Galande, V V Ravikanth, Ranjeet K Tokala, Surya Satyanarayana Singh, G V Rao, Rupjyoti Talukdar, Chandan Peddapulla, D Nageshwar Reddy, Mitnala Sasikala

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Abstract

Background: A comprehensive understanding of the molecular pathogenesis of chronic pancreatitis (CP), a fibroinflammatory disorder of the pancreas, is warranted for the development of targeted therapies. The current study focused on comparing the transcriptomes of pancreatic tissues obtained from patients with CP with those of two rodent models of chemically induced CP to identify dysregulated genes/signaling pathways.

Methods: Pancreatitis was induced in mice using cerulein and L-arginine. Pancreatic tissues were obtained from humans and mice. The RNA was isolated, and the transcriptomes were generated using the GeneChip Human Transcriptome Array 2.0 and Clariom D Mouse Array respectively. Differentially expressed genes with log2-fold changes ≥ +2 and ≤ -2 were considered for functional and signaling pathway enrichment analysis. The expression of NUCB2, which plays a role in β-cell function, was validated by ELISA in acute pancreatitis (AP) and immune cell responses in AP and CP using flow cytometry.

Results: The current study identifies L-arginine-induced CP as a better model for investigating the pathogenesis of human CP, with greater similarity in dysregulated genes (22%), transcription factors (34%) and enriched pathways (58%) compared to cerulein model (2%, 11% and 9%) respectively. Nesfatin-1, encoded by NUCB2, was decreased in patients with AP (12% nondiabetic, 41% post pancreatitis diabetes). The Th1 immune cell response was greater in the patients with AP (44%), whereas Th17 immune response was greater in patients with CP (18%).

Conclusion: Our study highlights potential novel and unexplored pathways involved in inflammation, fibrosis, and pain in CP and paves the way for testing them as putative drug targets using a severe disease model.

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人类和小鼠胰腺组织的转录组学分析确定了从急性到慢性胰腺炎进展过程中潜在的基因特征和未探索的途径。

背景：全面了解慢性胰腺炎（CP）的分子发病机制，是开发靶向治疗的必要条件。目前的研究重点是比较CP患者的胰腺组织转录组与化学诱导CP的两种啮齿动物模型的转录组，以确定失调的基因/信号通路。方法：用酪蛋白和l -精氨酸诱导小鼠胰腺炎。分别从人和小鼠身上获得胰腺组织。分离RNA，分别使用GeneChip Human Transcriptome Array 2.0和Clariom D Mouse Array生成转录组。考虑log2倍变化≥+2和 ≤ -2的差异表达基因进行功能和信号通路富集分析。ELISA检测了NUCB2在急性胰腺炎（AP）中的表达，流式细胞术检测了AP和CP的免疫细胞反应。结果：目前的研究确定l -精氨酸诱导的CP是研究人类CP发病机制的更好模型，与cerulein模型（分别为2%，11%和9%）相比，l -精氨酸诱导的CP在失调基因（22%），转录因子（34%）和富集途径（58%）上具有更高的相似性。由NUCB2编码的Nesfatin-1在AP患者（非糖尿病患者12%，胰腺炎后糖尿病患者41%）中降低。AP患者的Th1免疫细胞应答更高（44%），而CP患者的Th17免疫细胞应答更高（18%）。结论：我们的研究强调了CP中涉及炎症、纤维化和疼痛的潜在的新的和未探索的途径，并为使用严重疾病模型测试它们作为假定的药物靶点铺平了道路。

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

Gene 生物-遗传学

CiteScore

6.10

自引率

2.90%

发文量

718

审稿时长

42 days

期刊介绍： Gene publishes papers that focus on the regulation, expression, function and evolution of genes in all biological contexts, including all prokaryotic and eukaryotic organisms, as well as viruses.