MAP2K1 Mutation in Zebrafish Endothelial Cells Causes Arteriovenous Shunts Preventable by MEK Inhibition.

Journal of vascular anomalies Pub Date : 2023-03-01 DOI:10.1097/jova.0000000000000063

Christopher L Sudduth, Nicola Blum, Patrick J Smits, Yu Sheng Cheng, Matthew P Vivero, Matthew P Harris, Nathan D Lawson, Arin K Greene

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Abstract

Objectives: Arteriovenous malformation (AVM) is a congenital lesion with a nidus of irregular blood vessels connecting arteries to veins instead of a normal capillary bed. Somatic MAP2K1 activating mutations in endothelial cells cause extracranial AVM. The purpose of this study was to create a MAP2K1 AVM animal model using zebrafish and to test pharmacotherapy.

Methods: Single-cell casper Tg(gata1a:DsRed) zebrafish embryos were injected with plasmid DNA (control [pTol2-Fli:GFP]; mutant [pTol2-Fli:GFP-kdrl:MAP2K1^K57N]) and Tol2 transposase mRNA to mosaically express activated MAP2K1 in endothelial cells. Two cohorts of fish were examined: group 1 (n = 161) established phenotypes and group 2 (n = 126) tested MEK inhibition. Blood flow was visualized using DsRed fluorescence of erythrocytes. Embryos were imaged 72 hours postfertilization.

Results: Group 1 exhibited abnormal arteriovenous shunts in 58 of 96 (60%) embryos expressing MAP2K1^K57N in endothelial cells. Shunts occurred between the proximal aorta and common cardinal vein (n = 39; 67%) or between the major artery and vein within the trunk or tail (n = 19; 33%). Shunts were not present in control zebrafish (n = 65). MEK inhibition reduced shunt frequency caused by endothelial MAP2K1^K57N expression in group 2 from 84% to 55% (0.2 μM) or 25% (0.4 μM) (P = .006).

Conclusions: Zebrafish endothelial cells expressing mutant MAP2K1 form abnormal arteriovenous shunts supporting the causality of the variant in human AVMs. MEK inhibition reduced shunt formation validating its potential efficacy as a pharmacotherapeutic option for AVM. This zebrafish model may be used for further study of the etiopathogenesis of AVM as well as to test drugs.

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斑马鱼内皮细胞MAP2K1突变导致MEK抑制可预防动静脉分流。

目的：动静脉畸形（AVM）是一种先天性病变，具有连接动静脉的不规则血管病灶，而不是正常的毛细血管床。内皮细胞的体细胞MAP2K1激活突变导致颅外AVM。本研究的目的是利用斑马鱼建立MAP2K1 AVM动物模型并测试药物治疗。方法：将单细胞casper Tg（gata1a:DsRed）斑马鱼胚胎注射质粒DNA（对照[pTol2-Fli:GFP]；突变体[pTol2-Fli:GFP-kdrl:MAP2K1K57N]）和Tol2转座酶mRNA，在内皮细胞中嵌合表达活化的MAP2K1。研究了两组鱼：1组（n = 161）建立了表型，2组（n = 126）测试了MEK抑制。红细胞DsRed荧光显示血流。胚胎在受精后72小时成像。结果：1组96个内皮细胞中表达MAP2K1K57N的胚胎中有58个（60%）出现了异常的动静脉分流。近端主动脉与主静脉之间（n = 39, 67%）或躯干或尾部大动脉与静脉之间（n = 19, 33%）发生分流。对照斑马鱼（n = 65）不存在分流。MEK抑制使2组内皮细胞MAP2K1K57N表达引起的分流频率从84%降至55% （0.2 μM）或25% (0.4 μM) （P = 0.006）。结论：表达突变MAP2K1的斑马鱼内皮细胞形成异常的动静脉分流，支持该变异在人类avm中的因果关系。MEK抑制减少分流形成，验证其作为AVM药物治疗选择的潜在疗效。该斑马鱼模型可用于AVM发病机制的进一步研究和药物试验。

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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Journal of vascular anomalies

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