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Literature DB >> 27105872

Genome instability in Alzheimer disease.

Yujun Hou¹, Hyundong Song¹, Deborah L Croteau¹, Mansour Akbari², Vilhelm A Bohr³.

Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disorder and the most common form of dementia. Autosomal dominant, familial AD (fAD) is very rare and caused by mutations in amyloid precursor protein (APP), presenilin-1 (PSEN-1), and presenilin-2 (PSEN-2) genes. The pathogenesis of sporadic AD (sAD) is more complex and variants of several genes are associated with an increased lifetime risk of AD. Nuclear and mitochondrial DNA integrity is pivotal during neuronal development, maintenance and function. DNA damage and alterations in cellular DNA repair capacity have been implicated in the aging process and in age-associated neurodegenerative diseases, including AD. These findings are supported by research using animal models of AD and in DNA repair deficient animal models. In recent years, novel mechanisms linking DNA damage to neuronal dysfunction have been identified and have led to the development of noninvasive treatment strategies. Further investigations into the molecular mechanisms connecting DNA damage to AD pathology may help to develop novel treatment strategies for this debilitating disease. Here we provide an overview of the role of genome instability and DNA repair deficiency in AD pathology and discuss research strategies that include genome instability as a component. Published by Elsevier B.V.

Entities: Chemical Disease Gene Mutation Species

Keywords: Alzheimer’s disease; DNA damage; DNA repair

Mesh：

Substances：

Year: 2016 PMID： 27105872 PMCID： PMC5195918 DOI： 10.1016/j.mad.2016.04.005

Source DB: PubMed Journal: Mech Ageing Dev ISSN： 0047-6374 Impact factor: 5.432

210 in total

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34 in total

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Journal: Mol Neurobiol Date: 2020-09-08 Impact factor: 5.590

Genome instability in Alzheimer disease.

Review 1. DNA damage and repair: relevance to mechanisms of neurodegeneration.

2. Oxidatively modified nucleic acids in preclinical Alzheimer's disease (PCAD) brain.

Review 3. Poststroke dementia.

4. Increased nuclear DNA oxidation in the brain in Alzheimer's disease.

5. Oxidative damage to mitochondrial DNA is increased in Alzheimer's disease.

Review 6. DNA damage and its links to neurodegeneration.

7. Increased levels of DNA breaks in cerebral cortex of Alzheimer's disease patients.

8. Glial cell-specific differences in response to alkylation damage.

9. Defective DNA base excision repair in brain from individuals with Alzheimer's disease and amnestic mild cognitive impairment.

10. Tau promotes neurodegeneration through global chromatin relaxation.

Review 1. Mitophagy and Alzheimer's Disease: Cellular and Molecular Mechanisms.

Review 2. DNA double-strand breaks: a potential therapeutic target for neurodegenerative diseases.

Review 3. Critical role of mitosis in spontaneous late-onset Alzheimer's disease; from a Shugoshin 1 cohesinopathy mouse model.

4. Dual-Specificity Phosphatase 15 (DUSP15) Modulates Notch Signaling by Enhancing the Stability of Notch Protein.

Review 5. NAD⁺ in Brain Aging and Neurodegenerative Disorders.

6. NAD⁺ supplementation normalizes key Alzheimer's features and DNA damage responses in a new AD mouse model with introduced DNA repair deficiency.

7. Mitochondrial base excision repair positively correlates with longevity in the liver and heart of mammals.

Review 8. Mitochondria, OxPhos, and neurodegeneration: cells are not just running out of gas.

Review 9. NAD⁺ metabolism: pathophysiologic mechanisms and therapeutic potential.

10. DNA Double-Strand Break Accumulation in Alzheimer's Disease: Evidence from Experimental Models and Postmortem Human Brains.

Review 1. DNA damage and repair: relevance to mechanisms of neurodegeneration.

Review 3. Poststroke dementia.

Review 6. DNA damage and its links to neurodegeneration.

Review 1. Mitophagy and Alzheimer's Disease: Cellular and Molecular Mechanisms.

Review 2. DNA double-strand breaks: a potential therapeutic target for neurodegenerative diseases.

Review 3. Critical role of mitosis in spontaneous late-onset Alzheimer's disease; from a Shugoshin 1 cohesinopathy mouse model.

Review 5. NAD+ in Brain Aging and Neurodegenerative Disorders.

Review 8. Mitochondria, OxPhos, and neurodegeneration: cells are not just running out of gas.

Review 9. NAD+ metabolism: pathophysiologic mechanisms and therapeutic potential.

Review 5. NAD⁺ in Brain Aging and Neurodegenerative Disorders.

Review 9. NAD⁺ metabolism: pathophysiologic mechanisms and therapeutic potential.