斑马鱼乙醇暴露模型导致的表型、行为和基因表达变化可模仿人类出生队列中的胎儿酒精中毒综合症

Elanur Yilmaz, Nastasia Nelson, Giuseppe Tosto, R. Colin Carter, Caghan Kizil
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引用次数: 0

摘要

胎儿酒精中毒综合症(FASD)是全球面临的一项重大健康挑战,其特征是因产前接触酒精而导致后代身体和神经发育异常。本研究旨在利用斑马鱼研究与胚胎乙醇暴露相关的表型、行为和分子变化,为人类 FASD 病症提供一个模型。我们的研究将斑马鱼胚胎暴露于0.5%乙醇的关键发育窗口期(受精后2-24小时),并记录了显著的颅面和心脏畸形,这再现了在人类FASD中观察到的情况。值得注意的是,暴露于FASD的斑马鱼表现出头骨和眼睛缩小、下颌增厚和心腔扩大。我们发现斑马鱼在受到触碰刺激后的爆发性游动距离缩短,这是对感官处理过程中潜在缺陷(如处理速度和/或应激/启动反应)的一种新的行为评估,而这两种缺陷在人类 FASD 中都会受到影响。研究发现,乙醇改变了五个炎症相关基因中四个基因的同源物的全机体基因表达,这些基因的胎盘表达曾被发现在人类胎盘对酒精的反应中发生改变(SERPINE1、CRHB、BCL2L1、PSMB4、PTGS2A)。我们的结论是,斑马鱼模型有效地模拟了在人类身上观察到的几种 FASD 表型,证实了我们之前在一项人类观察性研究中记录的基因表达变化,并为探索酒精诱导胚胎改变的潜在机制以及开发早期干预的诊断标记和治疗靶点提供了一个宝贵的平台。
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Ethanol exposure model in zebrafish causes phenotypic, behavioral and gene expression changes that mimic Fetal Alcohol Spectrum Disorders in human birth cohorts
Fetal Alcohol Spectrum Disorders (FASD) represent a significant global health challenge, characterized by physical and neurodevelopmental abnormalities in offspring resulting from prenatal alcohol exposure. This study aims to utilize the zebrafish to examine the phenotypic, behavioral, and molecular changes associated with embryonic ethanol exposure, providing a model for human FASD conditions. Our study exposed zebrafish embryos to 0.5% ethanol during a critical developmental window (2-24 hours post-fertilization) and documented significant craniofacial and cardiac deformities, which recapitulate what has been observed in human FASD in humans. Notably, exposed zebrafish exhibited reduced skull and eye sizes, thickened jaw size, and enlarged heart chambers. We found reduced burst swim distance following a touch stimulus, a novel behavioral assessment of potential deficits in sensory processing such as processing speed and/or stress/startle response, both of which are affected in human FASD. Whole-organism gene expression was found to be altered by ethanol for orthologs of four of five inflammation-related genes for which placental expression was previously found to be altered in response to alcohol in human placentas (SERPINE1, CRHB, BCL2L1, PSMB4, PTGS2A). We conclude that the zebrafish model effectively mimics several FASD phenotypes observed in humans, confirming gene expression changes we have previously documented in a human observational study and providing a valuable platform for exploring the underlying mechanisms of alcohol-induced embryonic alterations and for developing diagnostic markers and therapeutic targets for early intervention.
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