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Astrocytes and ischemic brain injury

$353,257R01FY2013NSNIH

Stanford University, Stanford CA

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Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): One of the most feared disabilities in survivors of cardiac arrest is neurological impairment. Even brief global cerebral ischemia causes delayed loss of CA1 hippocampal neurons while sparing nearby hippocampal dentate gyrus (DG) neurons. Lack of consideration of the role of astrocytes is thought to be a factor in the failure o many potential stroke therapies aimed only at neuronal survival (Nedergaard and Dirnagl, 2005). In the prior funding period we demonstrated selective dysfunction of hippocampal CA1 astrocytes at early reperfusion times, long before CA1 neuron death. We published the first demonstration that potent protection of CA1 neurons can be achieved by targeting protective proteins selectively to hippocampal astrocytes. Although delayed CA1 neuronal death after transient ischemia is apoptotic, the regulation of the critically important BCL2 family following cerebral ischemia is not well understood. BCL2 family proteins are central regulators of the life/death decision in cells (Adams et al, 2007), and via their regulation of mitochondrial membrane integrity and function control apoptosis signaling. MicroRNAs (miRNAs) are a novel, abundant class of ~22-nucleotide RNAs that control gene expression post- transcriptionally. Although hundreds of miRNAs have been cloned, little is known about their real targets and functions. Numerous miRNAs are expressed in a cell-specific manner and the miR-29 family has been suggested to be astrocyte related (Smirnova et al, 2005). In this proposal we will investigate the role of miR-29 in brain ischemia and neuroprotection, evaluate manipulation of miR-29 as a novel target for neuroprotection, and assess potential targets of miR-29 in the BCL2 family. Using computational miRNA target prediction algorithms we found that miR-29 could potentially target messenger RNAs of several BCL2 family members, both pro- and anti-apoptotic. Aims 1 and 2 focus on the role of miR-29 in ischemic brain injury. We will first investigate how altering miR-29 expression changes ischemia-induced cell death in vivo and in vitro. Aim 2 will determine changes in miR-29 family member levels in response to ischemia, including cell type and hippocampal region specific changes with forebrain ischemia. We will then address the mechanisms of the miR-29 effects on cells focusing on mitochondrial function and oxidative stress. The role of miR-29 in selective CA1 astrocyte dysfunction will be tested. In addition to focusing on the role of miR-29 in outcome from injury, we need to investigate downstream targets. In Aim 3 we focus on 5 likely miR-29 targets, all members of the BCL2 family, focusing especially on pro-apoptotic PUMA. These are likely candidates for effects of miR-29 on mitochondrial function and oxidative stress. Overall this proposal will test the hypothesis that specific microRNAs are a novel and effective target for protection from ischemic brain injury, as well as advancing our understanding of the contributions of astrocyte regulation and impairment to neurological outcome following cardiac arrest and resuscitation.

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