Combining proteomics and Phosphoproteomics to investigate radiation-induced rectal fibrosis in rats and the effects of pSTAT3 inhibitor S3I-201 on human intestinal fibroblasts

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hongfeng Pan , Zeyi Zhao , Yuanchang Zhu , Yihuang Gao , Haoyang Ruan , Ying Huang , Pan Chi , Shenghui Huang
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引用次数: 0

Abstract

Objective

To investigate the regulatory mechanisms of radiation-induced rectal fibrosis (RIRF) and assess the therapeutic potential of S3I-201.

Methods

Sprague-Dawley rats were divided into control and radiation groups, with the latter exposed to 20 Gray pelvic X-rays. After 10 weeks, rectal tissues were analyzed using tandem mass tag (TMT) proteomics and phosphoproteomics. Pathway enrichment was performed via Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, with secondary annotation using Cluego. Representative proteins and their phosphorylated counterparts were validated through immunoblotting in another cohort. STAT3 levels in rectal tissues from irradiated and non-irradiated colorectal cancer patients were examined, and the effects of S3I-201 on human rectal fibroblasts were evaluated.

Results

The radiation group showed significant inflammatory responses and collagen deposition in the rat rectal walls. Enrichment analysis revealed that radiation-induced proteins and phosphoproteins were primarily involved in extracellular matrix-receptor interaction and the MAPK signaling pathway. Immunoblotting indicated increased expression of p-CAMKII, p-MRACKS, p-Cfl1, p-Myl9, and p-STAT3 in the radiation group compared to the control, while p-AKT1 expression decreased. Elevated phosphorylation of STAT3 was observed in submucosal fibroblasts of the post-radiation human rectum. S3I-201 specifically inhibited STAT3 phosphorylation and suppressed activation of human rectal fibroblasts, also inhibiting the pro-fibrotic effects of the classical TGF-β/Smad/CTGF pathway.

Conclusion

By integrating phosphoproteomics and proteomics, this study elucidated the protein regulatory network of RIRF and identified the potential therapeutic targets, including phosphoproteins such as STAT3 in managing RIRF.

Significance

In our research, we employed TMT labeling alongside LC-MS/MS techniques to comprehensively explore the proteomic and phosphoproteomic landscapes in rat models of radiation-induced intestinal fibrosis (RIRF). Our analysis revealed the function and pathways of proteins and phosphorylated proteins triggered by radiation, as well as those with protective roles. We mapped a network of interactions among these proteins and validated key protein expression levels using quantitative methods. Furthermore, we investigated STAT3 as a potential therapeutic target, assessing the efficacy of the inhibitor S3I-201 in laboratory settings, and highlighting its potential for RIRF treatment. Overall, our findings provide groundbreaking insights into the mechanisms underlying RIRF, paving the way for the development of future antifibrotic therapies.

Abstract Image

结合蛋白质组学和磷蛋白组学研究辐射诱导的大鼠直肠纤维化以及 pSTAT3 抑制剂 S3I-201 对人类肠成纤维细胞的影响
目的研究辐射诱导直肠纤维化(RIRF)的调控机制,并评估 S3I-201 的治疗潜力:方法:将 Sprague-Dawley 大鼠分为对照组和辐射组,后者暴露于 20 Gray 骨盆 X 射线。10 周后,使用串联质量标签(TMT)蛋白质组学和磷酸化蛋白质组学分析直肠组织。通过基因本体(GO)和京都基因和基因组百科全书(KEGG)分析进行了通路富集,并使用 Cluego 进行了二次注释。代表性蛋白及其磷酸化对应物在另一个队列中通过免疫印迹进行了验证。研究人员检测了接受辐射和未接受辐射的结直肠癌患者直肠组织中 STAT3 的水平,并评估了 S3I-201 对人类直肠成纤维细胞的影响:结果:辐射组大鼠直肠壁出现明显的炎症反应和胶原沉积。富集分析表明,辐射诱导的蛋白质和磷酸化蛋白主要参与细胞外基质-受体相互作用和 MAPK 信号通路。免疫印迹显示,与对照组相比,辐射组中 p-CAMKII、p-MRACKS、p-Cfl1、p-Myl9 和 p-STAT3 的表达量增加,而 p-AKT1 的表达量减少。在辐射后人体直肠粘膜下成纤维细胞中观察到 STAT3 磷酸化升高。S3I-201 特异性抑制了 STAT3 磷酸化,抑制了人类直肠成纤维细胞的活化,还抑制了经典 TGF-β/Smad/CTGF 通路的促纤维化效应:本研究结合磷酸化蛋白质组学和蛋白质组学,阐明了RIRF的蛋白质调控网络,并强调了包括STAT3在内的磷酸化蛋白质在管理RIRF中的潜在治疗靶点:在我们的研究中,我们利用TMT标记和LC-MS/MS技术深入探讨了辐射诱导的肠纤维化(RIRF)大鼠模型的蛋白质组和磷酸化蛋白质组。我们的分析揭示了由辐射引发的蛋白质和磷酸化蛋白质的功能和通路,以及那些能抵御辐射的蛋白质和磷酸化蛋白质。我们绘制了这些蛋白质之间的相互作用网络,并通过定量测量验证了关键蛋白质的表达水平。此外,这项研究还将 STAT3 确定为潜在的治疗靶点,在实验室环境中评估了 S3I-201 抑制剂的疗效,并建议将其用于 RIRF 治疗。总之,我们的研究结果为了解 RIRF 的内在机制提供了突破性的见解,为开发未来的抗纤维化疗法奠定了坚实的基础。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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