Abstract

Whole brain irradiation (WBI) leads to a progressive dementia in approximately 20-50% of brain tumor patients who are long-term survivors after treatment. At the present time, there are no successful treatments for radiation-induced brain injury, nor are there any known effective preventive strategies. We, and others, have proposed that the decline in cognitive function after WBI is exacerbated by increasing age and part of the mechanisms contributing to these impairments is a decrease in vascular density, and function of endothelial cells and the blood brain barrier. We hypothesize that fractionated WBI results in cognitive impairment by exacerbating age-related cerebrovascular rarefaction resulting in a decline in cerebral blood flow and impairments in glucose metabolism; these alterations (together with impairments in VEGF secretion) are a contributing factor in the decline in cognitive function and can be modulated by inhibition of the brain renin angiotensin system (RAS). The following aims are proposed: 1. Assess rarefaction of brain microvasculature and the corresponding decline in local cerebral blood flow (LCBF) after irradiation in brain regions specifically associated with learning and memory. 2. Determine whether trophic factors (e.g. VEGF and its receptors) produced by the vasculature and glia and found to be necessary for hippocampally- dependent processes of learning and memory are reduced in the hippocampal microenvironment of irradiated animals. 3. Assess whether irradiation results in microvascular endothelial dysfunction and disruptions in blood brain barrier integrity and whether the effects of irradiation are ameliorated by inhibition of the RAS system. 4. Determine whether administration of an ACE inhibitor (ramipril) or an AT1 receptor antagonist (losartan) (that have been shown to prevent radiation induced damage) ameliorate the radiation- induced decline in vascular density, LCBF, glucose metabolism and associated with improved cognitive status/The significance/innovation of this application is that the effects of a clinically relevant fractionated dose of WBI will be used, dependent variables will be assessed in animals of known cognitive status and studies will be conducted in middle-aged animals. These procedures will allow us to make more precise conclusions related to the etiology of cognitive impairment that occurs in response to WBI and assess the efficacy of interventions to reduce cognitive impairment after radiation. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS056218-03
Application #
7356025
Study Section
Clinical Neuroscience and Disease Study Section (CND)
Program Officer
Babcock, Debra J
Project Start
2007-02-15
Project End
2012-01-31
Budget Start
2008-02-01
Budget End
2009-01-31
Support Year
3
Fiscal Year
2008
Total Cost
$351,506
Indirect Cost

  Institution

Name
University of Oklahoma Health Sciences Center
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
878648294
City
Oklahoma City
State
OK
Country
United States
Zip Code
73117

  Publications

Gardner, Andrew W; Montgomery, Polly S; Zhao, Yan D et al. (2018) Endothelial Cell Inflammation and Antioxidant Capacity are Associated With 6-Minute Walk Performance in Patients With Symptomatic Peripheral Artery Disease. Angiology 69:416-423
Ungvari, Zoltan; Yabluchanskiy, Andriy; Tarantini, Stefano et al. (2018) Repeated Valsalva maneuvers promote symptomatic manifestations of cerebral microhemorrhages: implications for the pathogenesis of vascular cognitive impairment in older adults. Geroscience 40:485-496
Van Skike, Candice E; Jahrling, Jordan B; Olson, Angela B et al. (2018) Inhibition of mTOR protects the blood-brain barrier in models of Alzheimer's disease and vascular cognitive impairment. Am J Physiol Heart Circ Physiol 314:H693-H703
Logan, Sreemathi; Pharaoh, Gavin A; Marlin, M Caleb et al. (2018) Insulin-like growth factor receptor signaling regulates working memory, mitochondrial metabolism, and amyloid-? uptake in astrocytes. Mol Metab 9:141-155
Reagan, Alaina M; Gu, Xiaowu; Paudel, Sijalu et al. (2018) Age-related focal loss of contractile vascular smooth muscle cells in retinal arterioles is accelerated by caveolin-1 deficiency. Neurobiol Aging 71:1-12
Fulop, Gabor A; Kiss, Tamas; Tarantini, Stefano et al. (2018) Nrf2 deficiency in aged mice exacerbates cellular senescence promoting cerebrovascular inflammation. Geroscience 40:513-521
Ungvari, Zoltan; Tarantini, Stefano; Donato, Anthony J et al. (2018) Mechanisms of Vascular Aging. Circ Res 123:849-867
Logan, Sreemathi; Owen, Daniel; Chen, Sixia et al. (2018) Simultaneous assessment of cognitive function, circadian rhythm, and spontaneous activity in aging mice. Geroscience 40:123-137
Tucsek, Zsuzsanna; Noa Valcarcel-Ares, M; Tarantini, Stefano et al. (2017) Hypertension-induced synapse loss and impairment in synaptic plasticity in the mouse hippocampus mimics the aging phenotype: implications for the pathogenesis of vascular cognitive impairment. Geroscience 39:385-406
Tarantini, Stefano; Tran, Cam Ha T; Gordon, Grant R et al. (2017) Impaired neurovascular coupling in aging and Alzheimer's disease: Contribution of astrocyte dysfunction and endothelial impairment to cognitive decline. Exp Gerontol 94:52-58

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