Rno-miR-495 |
Early (24 h) |
inhibition of miR-495 increased neovascularization and recovery of blood flow after cardiac ischemia in mice |
[60] |
Rno-miR-214 |
|
miR-214 protected the mouse heart from ischemic injury by controlling Ca2+ overload and cell death |
[61] |
Rno-miR-298 |
|
miR-298 was up-regulated in brain and blood after ischemic stroke |
[62] |
Rno-miR-206 |
|
miR-206 was significantly deregulated during the conditions of unfolded protein response in H9c2 rat cardiomyoblasts |
[79] |
Rno-miR-221 |
|
miR-221 was suggested as a biomarker for cerebrovascular disease. Stroke patients and atherosclerosis subjects showed significantly lower miR-221 serum levels than healthy controls |
[80] |
Rno-miR-873 |
Late (7d) |
miR-873 was up-regulated after onset of focal cerebral ischemia in mice |
[63] |
Rno-miR-223 |
|
miR-223 targeted glutamate receptors in mice brain. Overexpression of miR-223 decreased the levels of GluR2 and NR2B, inhibited NMDA-induced calcium influx in hippocampal neurons, and protected the brain from neuronal cell death following transient global ischemia and excitotoxic injury |
[64] |
Rno-miR-185 |
|
miR-185 has been associated with inflammatory responses during brain ischemic stroke in mice and may provide underlying target for prevention and treatment of stroke |
[65] |
Rno-miR-329 |
|
Inhibition of miR-329 increased neovascularization and blood flow recovery after ischemia in mice subjected to double femoral artery ligation |
[60] |
Rno-miR-138 |
|
hypoxia-induced miR-138 is an essential mediator of endothelial cell dysfunction via targeting S100A1 Ca2+ sensor |
[81] |