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

{"title":"MAP2K1 Mutation in Zebrafish Endothelial Cells Causes Arteriovenous Shunts Preventable by MEK Inhibition.","authors":"Christopher L Sudduth, Nicola Blum, Patrick J Smits, Yu Sheng Cheng, Matthew P Vivero, Matthew P Harris, Nathan D Lawson, Arin K Greene","doi":"10.1097/jova.0000000000000063","DOIUrl":null,"url":null,"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:MAP2K1K57N]) 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 MAP2K1K57N 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 MAP2K1K57N 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.","PeriodicalId":74008,"journal":{"name":"Journal of vascular anomalies","volume":"21 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12442940/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of vascular anomalies","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1097/jova.0000000000000063","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

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.

Abstract Image

查看原文

微信好友朋友圈 QQ好友复制链接

本刊更多论文

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。

求助全文

约1分钟内获得全文去求助

来源期刊

Journal of vascular anomalies

自引率

0.00%

发文量