ORAI2 对唾液腺放疗后早期纤维化的发展很重要

IF 6.4 1区 医学 Q1 ONCOLOGY
Honglin Li, Yubin Cao, Guile Zhao, Guanru Wang, Guangzhao Huang, Lei Wang, Zhangfan Ding, Patrick Ming-Kuen Tang, Chunjie Li
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引用次数: 0

摘要

目的:尽管辐照后唾液分泌过少会严重影响患者的生活质量,但人们对辐射诱导的唾液腺纤维化和唾液分泌过少的内在机制仍然知之甚少。本研究旨在探讨钙介导的信号通路在辐射诱导的唾液腺纤维化中的作用:原代人颌下腺(SG)细胞和C57BL/6J雌性小鼠SG暴露于辐照,以模拟纤维化的发生。15Gy辐照后,对小鼠SG进行了RNA测序和生物信息学分析。使用 SKF96365 和 YM58483 抑制储存操作钙离子进入(SOCE)对纤维化标志物的影响在体外和体内进行了评估。此外,还探讨了ORAI2蛋白和新发现的JNK/NFAT1/TGF-β1信号轴在SG纤维化中的参与情况:结果:我们发现,钙释放激活的钙调节因子ORAI2在促进辐照后早期SG纤维化中起着重要作用。人类患者和辐照后的 C57BL/6J 雌性小鼠 SG 中的钙通道信号均被激活。抑制SOCE信号传导可在辐照30天后以ORAI2依赖性方式有效阻止纤维化。我们的机理研究揭示了SOCE通路中的一个新的ORAI2/JNK/NFAT1轴,它对驱动TGF-β1介导的纤维化至关重要。令人鼓舞的是,药理抑制 NFAT1 能显著减轻辐射诱导的 SG 纤维化,并使接受治疗的小鼠在辐射 30 天后的唾液流量恢复到正常水平的 84.61%,而且没有可检测到的副作用:我们的研究结果凸显了 ORAI2 介导的钙信号通路(特别是通过 ORAI2/JNK/NFAT1 轴)在促进 TGF-β1 表达和导致辐照暴露后早期唾液腺纤维化发展方面的重要作用。以 ORAI2/JNK/NFAT1 轴为靶点是一种很有前景的治疗策略,可减轻辐射引起的唾液腺功能减退和纤维化,从而改善接受放疗患者的生活质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ORAI2 is Important for the Development of Early-Stage Postirradiation Fibrosis in Salivary Glands.

Purpose: Although postirradiation hyposalivation significantly impairs patient quality of life, the underlying mechanisms driving radiation-induced salivary gland fibrosis and hyposalivation remain poorly understood. This study aims to explore the role of calcium-mediated signaling pathways in radiation-induced salivary gland fibrosis.

Methods and materials: Primary human submandibular gland (SG) cells and C57BL/6J female mouse SGs were exposed to irradiation to model fibrosis development. Following 15 Gy irradiation exposure, RNA sequencing and bioinformatic analysis were conducted on mouse SGs. The effects of store-operated calcium entry (SOCE) inhibition using SKF96365 and YM58483 on fibrosis markers were assessed in vitro and in vivo. Additionally, the involvement of ORAI2 protein and the newly identified JNK/NFAT1/transforming growth factor β1 (TGF-β1) signaling axis in SG fibrosis was explored.

Results: We identified that the calcium release-activated calcium modulator ORAI2 was important in promoting early-stage postirradiation fibrosis in SGs. Calcium channel signaling was activated in both human patients and irradiated C57BL/6J female mice SGs. Inhibition of SOCE signaling effectively blocked fibrosis in an ORAI2-dependent manner 30 days after irradiation. Our mechanistic studies revealed a novel ORAI2/JNK/NFAT1 axis within the SOCE pathway critical in driving TGF-β1-mediated fibrogenesis. Encouragingly, pharmacologic inhibition of NFAT1 significantly mitigated radiation-induced SG fibrosis and restored saliva flow to 84.61% of normal levels in treated mice 30 days after irradiation, without detectable side effects.

Conclusions: Our findings highlight the significance of the ORAI2-mediated calcium signaling pathway, specifically via the ORAI2/JNK/NFAT1 axis, in promoting TGF-β1 expression and contributing to the development of early-stage salivary gland fibrosis following irradiation exposure. Targeting the ORAI2/JNK/NFAT1 axis emerges as a promising therapeutic strategy to alleviate radiation-induced hyposalivation and fibrosis, potentially improving the quality of life for patients undergoing radiation therapy.

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来源期刊
CiteScore
11.00
自引率
7.10%
发文量
2538
审稿时长
6.6 weeks
期刊介绍: International Journal of Radiation Oncology • Biology • Physics (IJROBP), known in the field as the Red Journal, publishes original laboratory and clinical investigations related to radiation oncology, radiation biology, medical physics, and both education and health policy as it relates to the field. This journal has a particular interest in original contributions of the following types: prospective clinical trials, outcomes research, and large database interrogation. In addition, it seeks reports of high-impact innovations in single or combined modality treatment, tumor sensitization, normal tissue protection (including both precision avoidance and pharmacologic means), brachytherapy, particle irradiation, and cancer imaging. Technical advances related to dosimetry and conformal radiation treatment planning are of interest, as are basic science studies investigating tumor physiology and the molecular biology underlying cancer and normal tissue radiation response.
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