Lorenzo M. Refolo scite author profile

Mutations in the genes encoding amyloid-beta precursor protein (APP), presenilin 1 (PS1) and presenilin 2 (PS2) are known to cause early-onset, autosomal dominant Alzheimer's disease. Studies of plasma and fibroblasts from subjects with these mutations have established that they all alter amyloid beta-protein (beta APP) processing, which normally leads to the secretion of amyloid-beta protein (relative molecular mass 4,000; M(r) 4K; approximately 90% A beta1-40, approximately 10% A beta1-42(43)), so that the extracellular concentration of A beta42(43) is increased. This increase in A beta42(43) is believed to be the critical change that initiates Alzheimer's disease pathogenesis because A beta42(43) is deposited early and selectively in the senile plaques that are observed in the brains of patients with all forms of the disease. To establish that the presenilin mutations increase the amount of A beta42(43) in the brain and to test whether presenilin mutations act as true (gain of function) dominants, we have now constructed mice expressing wild-type and mutant presenilin genes. Analysis of these mice showed that overexpression of mutant, but not wild-type, PS1 selectively increases brain A beta42(43). These results indicate that the presenilin mutations probably cause Alzheimer's disease through a gain of deleterious function that increases the amount of A beta42(43) in the brain.

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Hypercholesterolemia Accelerates the Alzheimer's Amyloid Pathology in a Transgenic Mouse Model

Refolo

Pappolla

Malester

et al. 2000

Neurobiology of Disease

897

453

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A Cholesterol-Lowering Drug Reduces β-Amyloid Pathology in a Transgenic Mouse Model of Alzheimer's Disease

Refolo

Pappolla

LaFrancois

et al. 2001

Neurobiology of Disease

498

298

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Characterization of Pathology in Transgenic Mice Over-Expressing Human Genomic and cDNA Tau Transgenes

Duff

Knight

Refolo

et al. 2000

Neurobiology of Disease

266

205

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Mild hypercholesterolemia is an early risk factor for the development of Alzheimer amyloid pathology

Pappolla¹,

Bryant‐Thomas²,

Herbert³

et al. 2003

Neurology

291

182

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Hypercholesterolemia Accelerates the Alzheimer's Amyloid Pathology in a Transgenic Mouse Model

Refolo¹,

Pappolla²,

Malester³

et al. 2000

Neurobiology of Disease

116

128

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Melatonin increases survival and inhibits oxidative and amyloid pathology in a transgenic model of Alzheimer's disease

Matsubara¹,

Bryant‐Thomas²,

Pacheco³

et al. 2003

Journal of Neurochemistry

114

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Melatonin increases survival and inhibits oxidative and amyloid pathology in a transgenic model of Alzheimer's disease

Matsubara

Bryant‐Thomas

Quinto

et al. 2003

Journal of Neurochemistry

286

112

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Increased levels of a 40-42 amino-acid peptide called the amyloid b protein (Ab) and evidence of oxidative damage are early neuropathological markers of Alzheimer's disease (AD). Previous investigations have demonstrated that melatonin is decreased during the aging process and that patients with AD have more profound reductions of this hormone. It has also been recently shown that melatonin protects neuronal cells from Ab-mediated oxidative damage and inhibits the formation of amyloid fibrils in vitro. However, a direct relationship between melatonin and the biochemical pathology of AD had not been demonstrated. We used a transgenic mouse model of Alzheimer's amyloidosis and monitored over time the effects of administering melatonin on brain levels of Ab, abnormal protein nitration, and survival of the mice. We report here that administration of melatonin partially inhibited the expected time-dependent elevation of b-amyloid, reduced abnormal nitration of proteins, and increased survival in the treated transgenic mice. These findings may bear relevance to the pathogenesis and therapy of AD.

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Lorenzo M. Refolo

Increased amyloid-β42(43) in brains of mice expressing mutant presenilin 1

Hypercholesterolemia Accelerates the Alzheimer's Amyloid Pathology in a Transgenic Mouse Model

A Cholesterol-Lowering Drug Reduces β-Amyloid Pathology in a Transgenic Mouse Model of Alzheimer's Disease

Characterization of Pathology in Transgenic Mice Over-Expressing Human Genomic and cDNA Tau Transgenes

Mild hypercholesterolemia is an early risk factor for the development of Alzheimer amyloid pathology

Hypercholesterolemia Accelerates the Alzheimer's Amyloid Pathology in a Transgenic Mouse Model

Melatonin increases survival and inhibits oxidative and amyloid pathology in a transgenic model of Alzheimer's disease

Melatonin increases survival and inhibits oxidative and amyloid pathology in a transgenic model of Alzheimer's disease

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