A human pluripotent stem cell-derived in vitro model of the blood–brain barrier in cerebral malaria

IF 5.9 1区 医学 Q1 NEUROSCIENCES
Adnan Gopinadhan, Jason M. Hughes, Andrea L. Conroy, Chandy C. John, Scott G. Canfield, Dibyadyuti Datta
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引用次数: 0

Abstract

Blood–brain barrier (BBB) disruption is a central feature of cerebral malaria (CM), a severe complication of Plasmodium falciparum (Pf) infections. In CM, sequestration of Pf-infected red blood cells (Pf-iRBCs) to brain endothelial cells combined with inflammation, hemolysis, microvasculature obstruction and endothelial dysfunction mediates BBB disruption, resulting in severe neurologic symptoms including coma and seizures, potentially leading to death or long-term sequelae. In vitro models have advanced our knowledge of CM-mediated BBB disruption, but their physiological relevance remains uncertain. Using human induced pluripotent stem cell-derived brain microvascular endothelial cells (hiPSC-BMECs), we aimed to develop a novel in vitro model of the BBB in CM, exhibiting enhanced barrier properties. hiPSC-BMECs were co-cultured with HB3var03 strain Pf-iRBCs up to 9 h. Barrier integrity was measured using transendothelial electrical resistance (TEER) and sodium fluorescein permeability assays. Localization and expression of tight junction (TJ) proteins (occludin, zonula occludens-1, claudin-5), cellular adhesion molecules (ICAM-1, VCAM-1), and endothelial surface markers (EPCR) were determined using immunofluorescence imaging (IF) and western blotting (WB). Expression of angiogenic and cell stress markers were measured using multiplex proteome profiler arrays. After 6-h of co-culture with Pf-iRBCs, hiPSC-BMECs showed reduced TEER and increased sodium fluorescein permeability compared to co-culture with uninfected RBCs, indicative of a leaky barrier. We observed disruptions in localization of occludin, zonula occludens-1, and claudin-5 by IF, but no change in protein expression by WB in Pf-iRBC co-cultures. Expression of ICAM-1 and VCAM-1 but not EPCR was elevated in hiPSC-BMECs with Pf-iRBC co-culture compared to uninfected RBC co-culture. In addition, there was an increase in expression of angiogenin, platelet factor-4, and phospho-heat shock protein-27 in the Pf-iRBCs co-culture compared to uninfected RBC co-culture. These findings demonstrate the validity of our hiPSC-BMECs based model of the BBB, that displays enhanced barrier integrity and appropriate TJ protein localization. In the hiPSC-BMEC co-culture with Pf-iRBCs, reduced TEER, increased paracellular permeability, changes in TJ protein localization, increase in expression of adhesion molecules, and markers of angiogenesis and cellular stress all point towards a novel model with enhanced barrier properties, suitable for investigating pathogenic mechanisms underlying BBB disruption in CM.
源自人类多能干细胞的脑疟疾血脑屏障体外模型
血脑屏障(BBB)破坏是恶性疟原虫(Pf)感染的严重并发症--脑疟疾(CM)的主要特征。在脑疟疾中,受 Pf 感染的红细胞(Pf-iRBCs)被固着在脑内皮细胞上,再加上炎症、溶血、微血管阻塞和内皮功能障碍,介导了 BBB 破坏,导致严重的神经症状,包括昏迷和癫痫发作,可能导致死亡或长期后遗症。体外模型增进了我们对 CM 介导的 BBB 破坏的了解,但其生理相关性仍不确定。我们利用人类诱导多能干细胞衍生的脑微血管内皮细胞(hiPSC-BMECs),旨在开发一种新型的 CM 中 BBB 体外模型,该模型具有增强的屏障特性。使用免疫荧光成像(IF)和免疫印迹(WB)测定了紧密连接(TJ)蛋白(occludin、zonula occludens-1、claudin-5)、细胞粘附分子(ICAM-1、VCAM-1)和内皮表面标志物(EPCR)的定位和表达。血管生成标记物和细胞应激标记物的表达采用多重蛋白质组分析仪阵列进行测定。与未感染的 RBCs 共同培养 6 小时后,hiPSC-BMECs 显示 TEER 降低,荧光素钠通透性增加,这表明屏障出现了渗漏。我们通过 IF 观察到,在 Pf-iRBC 共培养物中,闭锁素、闭锁带-1 和 Claudin-5 的定位受到破坏,但通过 WB 观察,蛋白表达没有变化。与未感染的 RBC 共培养相比,与 Pf-iRBC 共培养的 hiPSC-BMECs 中 ICAM-1 和 VCAM-1 的表达升高,但 EPCR 的表达没有升高。此外,与未感染的 RBC 共培养相比,Pf-iRBCs 共培养中血管生成素、血小板因子-4 和磷酸化热休克蛋白-27 的表达也有所增加。这些发现证明了我们基于 hiPSC-BMECs 的 BBB 模型的有效性,该模型显示出更强的屏障完整性和适当的 TJ 蛋白定位。在与 Pf-iRBCs 共同培养的 hiPSC-BMEC 中,TEER 减少、细胞旁通透性增加、TJ 蛋白定位发生变化、粘附分子表达增加以及血管生成和细胞应激标记物均表明这种新型模型具有增强的屏障特性,适合用于研究 CM 中 BBB 破坏的致病机制。
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来源期刊
Fluids and Barriers of the CNS
Fluids and Barriers of the CNS Neuroscience-Developmental Neuroscience
CiteScore
10.70
自引率
8.20%
发文量
94
审稿时长
14 weeks
期刊介绍: "Fluids and Barriers of the CNS" is a scholarly open access journal that specializes in the intricate world of the central nervous system's fluids and barriers, which are pivotal for the health and well-being of the human body. This journal is a peer-reviewed platform that welcomes research manuscripts exploring the full spectrum of CNS fluids and barriers, with a particular focus on their roles in both health and disease. At the heart of this journal's interest is the cerebrospinal fluid (CSF), a vital fluid that circulates within the brain and spinal cord, playing a multifaceted role in the normal functioning of the brain and in various neurological conditions. The journal delves into the composition, circulation, and absorption of CSF, as well as its relationship with the parenchymal interstitial fluid and the neurovascular unit at the blood-brain barrier (BBB).
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