Hypoxia-induced apoptosis and tube breakdown are regulated by p38 MAPK but not by caspase cascade in an in vitro capillary model composed of human endothelial cells.

In order to improve medical treatment of ischemic injury such as myocardial infarction, it is important to elucidate hypoxia-induced changes to endothelial cells. An in vitro blood vessel model, in which HUVECs are stimulated to form a network of capillary-like tubes, was used to analyze hypoxia-induced morphological and biochemical changes. When exposed to hypoxia, the network of capillary tubes broke down into small clusters.

Hypoxia induces apoptosis of HUVECs in an in vitro capillary model by activating proapoptotic signal p38 through suppression of ERK1/2.

We recently reported that hypoxia induces chromatin condensation and cell nuclear fragmentation, morphological markers of apoptosis, to tube-forming HUVECs in an in vitro blood vessel model by activating p38 MAPK. In this report, we further examined what role p38 plays and how it is activated during hypoxia-induced apoptosis. First, in order to confirm that p38 can indeed induce apoptosis, the cells were treated with anisomycin, a p38 activator, during normoxia.