AOP report: Development of an adverse outcome pathway for deposition of energy leading to abnormal vascular remodeling

IF 2.3 4区 医学 Q3 ENVIRONMENTAL SCIENCES Environmental and Molecular Mutagenesis Pub Date : 2024-10-23 DOI:10.1002/em.22636
Tatiana Kozbenko, Nadine Adam, Veronica S. Grybas, Benjamin J. Smith, Dalya Alomar, Robyn Hocking, Janna Abdelaziz, Amanda Pace, Marjan Boerma, Omid Azimzadeh, Steve Blattnig, Nobuyuki Hamada, Carole Yauk, Ruth Wilkins, Vinita Chauhan
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Abstract

Cardiovascular diseases (CVDs) are complex, encompassing many types of heart pathophysiologies and associated etiologies. Radiotherapy studies have shown that fractionated radiation exposure at high doses (3–17 Gy) to the heart increases the incidence of CVD. However, the effects of low doses of radiation on the cardiovascular system or the effects from space travel, where radiation and microgravity are important contributors to damage, are not clearly understood. Herein, the adverse outcome pathway (AOP) framework was applied to develop an AOP to abnormal vascular remodeling from the deposition of energy. Following the creation of a preliminary pathway with the guidance of field experts and authoritative reviews, a scoping review was conducted that informed final key event (KE) selection and evaluation of the Bradford Hill criteria for the KE relationships (KERs). The AOP begins with a molecular initiating event of deposition of energy; ionization events increase oxidative stress, which when persistent concurrently causes the release of pro-inflammatory mediators, suppresses anti-inflammatory mechanisms and alters stress response signaling pathways. These KEs alter nitric oxide levels leading to endothelial dysfunction, and subsequent abnormal vascular remodeling (the adverse outcome). The work identifies evidence needed to strengthen understanding of the causal associations for the KERs, emphasizing where there are knowledge gaps and uncertainties in both qualitative and quantitative understanding. The AOP is anticipated to direct future research to better understand the effects of space on the human body and potentially develop countermeasures to better protect future space travelers.

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AOP 报告:开发能量沉积导致血管重塑异常的不良后果途径。
心血管疾病(CVD)非常复杂,包括多种类型的心脏病理生理和相关病因。放疗研究表明,对心脏进行高剂量(3-17 Gy)的分次照射会增加心血管疾病的发病率。然而,低剂量辐射对心血管系统的影响或太空旅行的影响(辐射和微重力是造成损害的重要因素)尚不清楚。在此,我们采用了不良后果路径(AOP)框架来开发能量沉积导致血管异常重塑的不良后果路径。在该领域专家和权威评论的指导下建立初步路径后,进行了范围审查,为最终关键事件(KE)的选择和关键事件关系(KERs)的布拉德福德-希尔标准评估提供了依据。AOP 从能量沉积的分子启动事件开始;电离事件会增加氧化应激,当氧化应激持续存在时,会同时导致促炎介质的释放、抑制抗炎机制并改变应激反应信号通路。这些应激反应改变了一氧化氮水平,导致内皮功能障碍和随后的异常血管重塑(不良后果)。这项工作确定了加强对 KER 因果关系的理解所需的证据,强调了在定性和定量理解方面存在的知识差距和不确定性。AOP 预计将指导未来的研究,以更好地了解太空对人体的影响,并有可能制定对策,更好地保护未来的太空旅行者。
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来源期刊
CiteScore
5.40
自引率
10.70%
发文量
52
审稿时长
12-24 weeks
期刊介绍: Environmental and Molecular Mutagenesis publishes original research manuscripts, reviews and commentaries on topics related to six general areas, with an emphasis on subject matter most suited for the readership of EMM as outlined below. The journal is intended for investigators in fields such as molecular biology, biochemistry, microbiology, genetics and epigenetics, genomics and epigenomics, cancer research, neurobiology, heritable mutation, radiation biology, toxicology, and molecular & environmental epidemiology.
期刊最新文献
Bruce Nathan Ames, 1928-2024: A meaningful scientific life. Investigation of mutagenicity of styrene in tumor target and non-target tissues of transgenic Big Blue® mice. Issue Information AOP report: Development of an adverse outcome pathway for deposition of energy leading to abnormal vascular remodeling Issue Information
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