Kahlilia C Morris-Blanco scite author profile

Ischemic stroke, which is caused by a clot that blocks blood flow to the brain, can be severely disabling and sometimes fatal. We previously showed that transient focal ischemia in a rat model induces extensive temporal changes in the expression of cerebral microRNAs, with a sustained decrease in the abundance of miR-7a-5p (miR-7). Here, we evaluated the therapeutic efficacy of a miR-7 mimic oligonucleotide after cerebral ischemia in rodents according to the Stroke Treatment Academic Industry Roundtable (STAIR) criteria. Rodents were injected locally or systemically with miR-7 mimic before or after transient middle cerebral artery occlusion. Decreased miR-7 expression was observed in both young and aged rats of both sexes after cerebral ischemia. Pre- or postischemic treatment with miR-7 mimic decreased the lesion volume in both sexes and ages studied. Furthermore, systemic injection of miR-7 mimic into mice at 30 min (but not 2 hours) after cerebral ischemia substantially decreased the lesion volume and improved motor and cognitive functional recovery with minimal peripheral toxicity. The miR-7 mimic treatment substantially reduced the postischemic induction of α-synuclein (α-Syn), a protein that induces mitochondrial fragmentation, oxidative stress, and autophagy that promote neuronal cell death. Deletion of the gene encoding α-Syn abolished miR-7 mimic–dependent neuroprotection and functional recovery in young male mice. Further analysis confirmed that the transcript encoding α-Syn was bound and repressed by miR-7. Our findings suggest that miR-7 mimics may therapeutically minimize stroke-induced brain damage and disability.

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Protein Kinase C Epsilon Regulates Mitochondrial Pools of Nampt and NAD Following Resveratrol and Ischemic Preconditioning in the Rat Cortex

Morris-Blanco

Cohan

Neumann

et al. 2014

J Cereb Blood Flow Metab

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Preserving mitochondrial pools of nicotinamide adenine dinucleotide (NAD) or nicotinamide phosphoribosyltransferase (Nampt), an enzyme involved in NAD production, maintains mitochondrial function and confers neuroprotection after ischemic stress. However, the mechanisms involved in regulating mitochondrial-localized Nampt or NAD have not been defined. In this study, we investigated the roles of protein kinase C epsilon (PKCe) and AMP-activated protein kinase (AMPK) in regulating mitochondrial pools of Nampt and NAD after resveratrol or ischemic preconditioning (IPC) in the cortex and in primary neuronal-glial cortical cultures. Using the specific PKCe agonist ceRACK, we found that PKCe induced robust activation of AMPK in vitro and in vivo and that AMPK was required for PKCe-mediated ischemic neuroprotection. In purified mitochondrial fractions, PKCe enhanced Nampt levels in an AMPK-dependent manner and was required for increased mitochondrial Nampt after IPC or resveratrol treatment. Analysis of intrinsic NAD autofluorescence using two-photon microscopy revealed that PKCe modulated NAD in the mitochondrial fraction. Further assessments of mitochondrial NAD concentrations showed that PKCe has a key role in regulating the mitochondrial NAD þ / nicotinamide adenine dinucleotide reduced (NADH) ratio after IPC and resveratrol treatment in an AMPK-and Nampt-dependent manner. These findings indicate that PKCe is critical to increase or maintain mitochondrial Nampt and NAD after pathways of ischemic neuroprotection in the brain.

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Kahlilia C Morris-Blanco

Impact of microRNAs on ischemic stroke: From pre- to post-disease

The microRNA miR-7a-5p ameliorates ischemic brain damage by repressing α-synuclein

Protein Kinase C Epsilon Regulates Mitochondrial Pools of Nampt and NAD Following Resveratrol and Ischemic Preconditioning in the Rat Cortex

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