A GasPak-Based Ischemia Model for Studying ER Stress–Ischemia Interactions in Human Endothelial Cells
Mathilde Hoareau, Grégorie Lebeau, Luce Muzi, Jérémy Fontaine, Pascale Krejbich-Trotot, Olivier Meilhac, Christine Robert-Da Silva, Wildriss Viranaicken

TL;DR
A new model using GasPak systems mimics ischemia in human endothelial cells to study ER stress and its role in cell damage.
Contribution
A cost-effective in vitro model using GasPak EZ Pouch Systems to study ER stress-ischemia interactions in HMEC-1 cells.
Findings
Cell viability decreased by ~33% under oxygen-glucose deprivation.
CHOP expression increased ~4-fold, indicating significant ER stress.
The model allows quantification of metabolic stress and evaluation of ER stress resolution versus maladaptation.
Abstract
During ischemia, endothelial cell integrity is compromised, as a consequence, blood barrier homeostasis is disrupted. Therefore, the structural and functional preservation of endothelial cells is paramount when trying to improve outcomes after ischemic injury. Endoplasmic reticulum (ER) stress is increasingly recognized as a key player in ischemic injury through unfolded protein response (UPR) signalling, and its crosstalk with mitochondrial death pathways. This study provides a cost-effective and straightforward method to delve into the relationship between ER stress and ischemia in human microvascular endothelial cells-1 (HMEC-1). HMEC-1 was exposed to 8 h of oxygen–glucose deprivation (OGD) in glucose-free medium with rapidly induced hypoxia. Hypoxia, oxygen consumption, cell viability, apoptosis, and ER stress markers (BiP/GRP78, PERK, ATF6, IRE1/XBP1s, CHOP) were assessed by…
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Taxonomy
TopicsEndoplasmic Reticulum Stress and Disease · Mitochondrial Function and Pathology · Autophagy in Disease and Therapy
