Iwatsubo, Takeshi

Grant Detail

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Molecular and Functional Imaging of Age Related Cognitive Decline

Jagust, William J

15 April 2007 - 28 February 2010
NATIONAL INSTITUTE ON AGING
Total Funding: $ 1,413,841

Brain aging may result in the decline of cognitive functions subsumed under the category of frontal/executive systems. These abilities include working memory, a form of memory that is important in storing and manipulating information over relatively short times. Considerable evidence from both behavioral and imaging studies with positron emission tomography (PET) and functional magnetic resonance imaging (fMRI) shows that various aspects of working memory decline or change with aging. Working memory depends upon a neurochemical system that utilzes dopamine as a neurotransmitter, a system that also declines with advancing age. Although a variety of neural systems may compensate for this loss, compensation is incomplete, and there is considerable variability in behavioral and physiological measures of working memory with aging. The core hypothesis of this project is that this age-associated variability is related to different levels of dopamine innervation in older people. We will explore this hypothesis by relating PET measures of dopamine function to behavioral measures of working memory performance and fMRI measures of brain activation during a working memory task. The project will recruit 60 healthy older (age 55-85) and 30 healthy younger (age 25-35) individuals who will undergo PET with the tracer [18F]fluorometatyrosine (FMT) to measure presynaptic dopaminergic function. Cognitive tests will assess generalized cognition and working memory. During fMRI subjects will perform a working memory task with variable loads (the Sternberg task) that is designed to elicit activation in dorsolateral prefrontal cortex. We will relate measures of FMT uptake in striatum and cortex to patterns of brain activation and behavior, hypothesizing that older people with lower FMT uptake will show increased brain activation during fMRI and poorer working memory performance, while older subjects with higher FMT uptake will show patterns of fMRI activation and working memory that are similar to younger individuals. The project is significant because brain aging is a multifactorial process characterized by variable degeneration and compensation in different brain systems. Understanding the basis of these age-related changes could provide the ability to design neurochemically specific treatments for remediation, as well as ways of differentiating different etiologies of age-related cognitive decline from one another.

14 Resulting Publications

• 1.

  2012

  Linh C Dang; Aneesh Donde; Cindee Madison; James P O'Neil; William J Jagust

  Striatal dopamine influences the default mode network to affect shifting between object features.

  Journal of cognitive neuroscience 2012;24(9):1960-70.

• 2.

  2012

  Linh C Dang; James P O'Neil; William J Jagust

  Dopamine supports coupling of attention-related networks.

  The Journal of neuroscience : the official journal of the Society for Neuroscience 2012;32(28):9582-7.

• 3.

  2012

  Ellen C Klostermann; Meredith N Braskie; Susan M Landau; James P O'Neil; William J Jagust

  Dopamine and frontostriatal networks in cognitive aging.

  Neurobiology of aging 2012;33(3):623.e15-24.

• 4.

  2012

  Shanker Swaminathan; Li Shen; Shannon L Risacher; Karmen K Yoder; John D West; Sungeun Kim; Kwangsik Nho; Tatiana Foroud; Mark Inlow; Steven G Potkin; et al.

  Amyloid pathway-based candidate gene analysis of [(11)C]PiB-PET in the Alzheimer's Disease Neuroimaging Initiative (ADNI) cohort.

  Brain imaging and behavior 2012;6(1):1-15.

• 5.

  2011

  Gloria C Chiang; Philip S Insel; Duygu Tosun; Norbert Schuff; Diana Truran-Sacrey; Sky T Raptentsetsang; Paul M Thompson; Eric M Reiman; Clifford R Jack; Nick C Fox; et al.

  Impact of apolipoprotein E4-cerebrospinal fluid β-amyloid interaction on hippocampal volume loss over 1 year in mild cognitive impairment.

  Alzheimer's & dementia : the journal of the Alzheimer's Association 2011;7(5):514-20.

• 6.

  2011

  Meredith N Braskie; Susan M Landau; Claire E Wilcox; Stephanie D Taylor; James P O'Neil; Suzanne L Baker; Cindee M Madison; William J Jagust

  Correlations of striatal dopamine synthesis with default network deactivations during working memory in younger adults.

  Human brain mapping 2011;32(6):947-61.

• 7.

  2010

  S M Landau; D Harvey; C M Madison; E M Reiman; N L Foster; P S Aisen; R C Petersen; L M Shaw; J Q Trojanowski; C R Jack; et al.

  Comparing predictors of conversion and decline in mild cognitive impairment.

  Neurology 2010;75(3):230-8.

• 8.

  2010

  R C Petersen; P S Aisen; L A Beckett; M C Donohue; A C Gamst; D J Harvey; C R Jack; W J Jagust; L M Shaw; A W Toga; et al.

  Alzheimer's Disease Neuroimaging Initiative (ADNI): clinical characterization.

  Neurology 2010;74(3):201-9.

• 9.

  2009

  C W Christine; P A Starr; P S Larson; J L Eberling; W J Jagust; R A Hawkins; H F VanBrocklin; J F Wright; K S Bankiewicz; M J Aminoff

  Safety and tolerability of putaminal AADC gene therapy for Parkinson disease.

  Neurology 2009;73(20):1662-9.

• 10.

  2009

  W J Jagust; S M Landau; L M Shaw; J Q Trojanowski; R A Koeppe; E M Reiman; N L Foster; R C Petersen; M W Weiner; J C Price; et al.

  Relationships between biomarkers in aging and dementia.

  Neurology 2009;73(15):1193-9.

• 11.

  2009

  Roshan Cools; Michael J Frank; Sasha E Gibbs; Asako Miyakawa; William Jagust; Mark D'Esposito

  Striatal dopamine predicts outcome-specific reversal learning and its sensitivity to dopaminergic drug administration.

  The Journal of neuroscience : the official journal of the Society for Neuroscience 2009;29(5):1538-43.

• 12.

  2009

  Susan M Landau; Rayhan Lal; James P O'Neil; Suzanne Baker; William J Jagust

  Striatal dopamine and working memory.

  Cerebral cortex (New York, N.Y. : 1991) 2009;19(2):445-54.

• 13.

  2008

  Meredith N Braskie; Claire E Wilcox; Susan M Landau; James P O'Neil; Suzanne L Baker; Cindee M Madison; Jennifer T Kluth; William J Jagust

  Relationship of striatal dopamine synthesis capacity to age and cognition.

  The Journal of neuroscience : the official journal of the Society for Neuroscience 2008;28(52):14320-8.

• 14.

  2008

  Roshan Cools; Sasha E Gibbs; Asako Miyakawa; William Jagust; Mark D'Esposito

  Working memory capacity predicts dopamine synthesis capacity in the human striatum.

  The Journal of neuroscience : the official journal of the Society for Neuroscience 2008;28(5):1208-12.

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