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Item A Human Pluripotent Stem Cell-Derived In Vitro Model of the Blood-Brain Barrier in Cerebral Malaria(2024-01) Gopinadhan, Adnan; John, Chandy C.; Nelson, David E.; Bauer, Margaret E.; Absalon, Sabrina; Tran, Tuan M.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 the physiological relevance remains uncertain. I aimed to develop a novel in vitro model of the BBB in CM using human induced pluripotent stem cell-derived brain microvascular endothelial cells (hiPSC-BMECs) that mimic a near in vivo barrier phenotype. hiPSC-BMECs were co-cultured with HB3var03 strain Pf-iRBCs up to 9 hours. Barrier integrity was measured using transendothelial electrical resistance (TEER). Localization and expression of tight junction (TJ) proteins, occludin and zona occludin-1 (ZO-1), and endothelial marker, intercellular adhesion molecule 1 (ICAM-1) was determined using immunofluorescence imaging (IF) and western blotting (WB). Expression of angiogenic and cell stress markers were also measured. hiPSC-BMECs showed improved barrier integrity and localization of TJ proteins compared to immortalized BMECs. After 6-hours of co-culture with Pf-iRBCs, hiPSC-BMECs showed reduced TEER and disruption of TJ protein localization compared to co-culture with uninfected RBCs (RBCs), but no change in TJ protein expression was observed by WB in the Pf-iRBCs co-cultures. Expression of ICAM-1 on hiPSC-BMECs co-cultured with Pf-iRBCs was higher compared to co-culture with RBCs. In addition, there was an increase in expression of the angiogenin, platelet factor 4, and phospho-heat shock protein-27 in the Pf-iRBCs co-cultures compared to co-cultures with RBCs. These findings demonstrate the physiological relevance of our hiPSC-BMEC-based in vitro model of the BBB, as determined by elevated TEER and appropriate TJ protein localization. In co-culture with Pf-iRBCs, breakdown in the barrier integrity, changes in TJ protein localization, increase in expression of ICAM-1, and of markers of angiogenesis and cellular stress, all point towards a more relevant in vitro model, suitable for investigating pathogenic mechanisms underlying BBB disruption in CM.