D. Larry Sparks scite author profile

We have studied microglial morphology in the human cerebral cortex of two nondemented subjects using high-resolution LN-3 immunohistochemistry. Several abnormalities in microglial cytoplasmic structure, including deramification, spheroid formation, gnarling, and fragmentation of processes, were identified. These changes were determined to be different from the morphological changes that occur during microglial activation and they were designated collectively as microglial dystrophy. Quantitative evaluation of dystrophic changes in microglia revealed that these were much more prevalent in the older subject (68-year-old) than in the younger one (38-year-old). Thus, we conclude that microglial dystrophy is a sign of microglial cell senescence. We hypothesize that microglial senescence could be important for understanding age-related declines in cognitive function.

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Induction of Alzheimer-like β-Amyloid Immunoreactivity in the Brains of Rabbits with Dietary Cholesterol

Sparks

Scheff

Hunsaker

et al. 1994

Experimental Neurology

527

350

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Microglial dystrophy in the aged and Alzheimer's disease brain is associated with ferritin immunoreactivity

Lopes

Sparks

Streit

2008

Glia

202

194

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Degeneration of microglial cells may be important for understanding the pathogenesis of aging-related neurodegeneration and neurodegenerative diseases. In this study, we analyzed the morphological characteristics of microglial cells in the nondemented and Alzheimer's disease (AD) human brain using ferritin immunohistochemistry. The central hypothesis was that expression of the iron storage protein ferritin increases the susceptibility of microglia to degeneration, particularly in the aged brain since senescent microglia might become less efficient in maintaining iron homeostasis and free iron can promote oxidative damage. In a primary set of 24 subjects (age range 34-97 years) examined, microglial cells immunoreactive for ferritin were found to constitute a subpopulation of the larger microglial pool labeled with an antibody for HLA-DR antigens. The majority of these ferritin-positive microglia exhibited aberrant morphological (dystrophic) changes in the aged and particularly in the AD brain. No spatial correlation was found between ferritin-positive dystrophic microglia and senile plaques in AD tissues. Analysis of a secondary set of human postmortem brain tissues with a wide range of postmortem intervals (PMI, average 10.94 +/- 5.69 h) showed that the occurrence of microglial dystrophy was independent of PMI and consequently not a product of tissue autolysis. Collectively, these results suggest that microglial involvement in iron storage and metabolism contributes to their degeneration, possibly through increased exposure of the cells to oxidative stress. We conclude that ferritin immunohistochemistry may be a useful method for detecting degenerating microglia in the human brain.

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Do Statins Reduce Risk of Incident Dementia and Alzheimer Disease?<subtitle>The Cache County Study</subtitle>

Zandi

Sparks

Khachaturian

et al. 2005

Arch Gen Psychiatry

289

200

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Increased incidence of neurofibrillary tangles (NFT) in non-demented individuals with hypertension

Sparks

Scheff

Liu

et al. 1995

Journal of the Neurological Sciences

194

130

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Cortical senile plaques in coronary artery disease, aging and Alzheimer's disease

Sparks

Hunsaker

Scheff

et al. 1990

Neurobiology of Aging

256

121

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Age-Related Distribution of Neuropathologic Changes in the Cerebral Cortex of Patients With Down's Syndrome

Hof

Bouras²,

Perl³

et al. 1995

Arch Neurol

211

116

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Ultrastructural Location of Major Histocompatibility Complex (MHC) Class II Positive Perivascular Cells in Histologically Normal Human Brain

Graeber

Streit

Büringer

et al. 1992

J Neuropathol Exp Neurol

142

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The expression of major histocompatibility complex (MHC) class I and II antigens was studied in surgical and postmortem brain biopsy tissue using light and electron microscopic immunocytochemistry. In addition, monoclonal antibodies directed against human macrophages (EBM11) and alpha-smooth muscle actin were applied. It is shown that blood vessel-associated MHC class II immunoreactivity in histologically normal human brain can be localized to a distinct class of cells, termed perivascular cells, which share macrophage but not smooth muscle cell antigen. This immunophenotype, the location in the perivascular space as well as the morphology, frequency and tissue distribution distinguish perivascular cells from pericytes and intraparenchymal microglia. It is suggested that MHC class II positive perivascular cells are a normal constituent of the human cerebral microvasculature. The potential role of these cells in immunological reactions occurring at the blood-brain interface is discussed.

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D. Larry Sparks

Dystrophic microglia in the aging human brain

Induction of Alzheimer-like β-Amyloid Immunoreactivity in the Brains of Rabbits with Dietary Cholesterol

Microglial dystrophy in the aged and Alzheimer's disease brain is associated with ferritin immunoreactivity

Do Statins Reduce Risk of Incident Dementia and Alzheimer Disease?<subtitle>The Cache County Study</subtitle>

Increased incidence of neurofibrillary tangles (NFT) in non-demented individuals with hypertension

Cortical senile plaques in coronary artery disease, aging and Alzheimer's disease

Age-Related Distribution of Neuropathologic Changes in the Cerebral Cortex of Patients With Down's Syndrome

Ultrastructural Location of Major Histocompatibility Complex (MHC) Class II Positive Perivascular Cells in Histologically Normal Human Brain

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