Mitochondrial contributions to tissue damage in stroke.

TL;DR: Reports that SIRT3 regulates mitochondrial ceramide biosynthesis via deacetylation of ceramide synthase (CerS) 1, 2, and 6 and gene ablation reduced the brain injury after IR suggest an important role of Sirt3 in mitochondrial dysfunction and brain injuries after experimental stroke.

TL;DR: Recent discoveries that have boosted the understanding of miRNA regulation of hypoxia are reviewed and where future breakthroughs in this area may be made are discussed.

TL;DR: Results suggested that supplementation of PG treatment effectively ameliorates the cerebral ischemia/reperfusion induced oxidative damage by virtue of its antioxidant potential.

TL;DR: The present study provides the first evidence of a role for antioxidants in hepatic eNOS and IL-1β regulation in aquatic vertebrates during hypoxic stress and suggests that hypoxia-induced down-regulation of CYP1A is due to alterations of NO and oxidant status, and cellular IL- 1β and HIF-α levels.

TL;DR: In many instances, permeabilization of mitochondrial membranes is a rate-limiting step of apoptotic or necrotic cell demise, which has important consequences for the pathophysiology of cell death, as well as for its pharmacological control.

TL;DR: A major unifying thread of the review is a consideration of how the changes occurring during and after ischemia conspire to produce damaging levels of free radicals and peroxynitrite to activate calpain and other Ca(2+)-driven processes that are damaging, and to initiate the apoptotic process.

TL;DR: Current evidence that the pore complex is involved in outer-membrane rupture and release of these proteins during programmed cell death is reviewed, along with indications that transient pore opening may provoke 'accidental' apoptosis.