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Literature DB >> 29877135

Aging in the Brain: New Roles of Epigenetics in Cognitive Decline.

Abstract

Gene expression in the aging brain depends on transcription signals generated by senescent physiology, interacting with genetic and epigenetic programs. In turn, environmental factors influence epigenetic mechanisms, such that an epigenetic-environmental link may contribute to the accumulation of cellular damage, susceptibility or resilience to stressors, and variability in the trajectory of age-related cognitive decline. Epigenetic mechanisms, DNA methylation and histone modifications, alter chromatin structure and the accessibility of DNA. Furthermore, small non-coding RNA, termed microRNA (miRNA) bind to messenger RNA (mRNA) to regulate translation. In this review, we examine key questions concerning epigenetic mechanisms in regulating the expression of genes associated with brain aging and age-related cognitive decline. In addition, we highlight the interaction of epigenetics with senescent physiology and environmental factors in regulating transcription.

Entities: Disease

Keywords: DNA methylation; aging; cognition; epigenetics; histone modifications; memory; microRNA; neuroinflammation

Mesh：

Year: 2018 PMID： 29877135 DOI： 10.1177/1073858418780971

Source DB: PubMed Journal: Neuroscientist ISSN： 1073-8584 Impact factor: 7.519

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Cited

27 in total

1. Dopaminergic gene methylation is associated with cognitive performance in a childhood monozygotic twin study.

Authors: Candace R Lewis; Adrienne Henderson-Smith; Reagan S Breitenstein; Hayley A Sowards; Ignazio S Piras; Matthew J Huentelman; Leah D Doane; Kathryn Lemery-Chalfant
Journal: Epigenetics Date: 2019-03-16 Impact factor: 4.528

Review 2. Senescent neurophysiology: Ca²⁺ signaling from the membrane to the nucleus.

Authors: Thomas C Foster
Journal: Neurobiol Learn Mem Date: 2019-08-05 Impact factor: 2.877

Review 3. Patterns of DNA methylation as an indicator of biological aging: State of the science and future directions in precision health promotion.

Authors: Shannon L Gillespie; Lynda R Hardy; Cindy M Anderson
Journal: Nurs Outlook Date: 2019-05-17 Impact factor: 3.250

Review 4. A putative role for lncRNAs in epigenetic regulation of memory.

Authors: Ashleigh B Irwin; Rudhab Bahabry; Farah D Lubin
Journal: Neurochem Int Date: 2021-09-14 Impact factor: 3.921

Review 5. 'Arc'-hitecture of normal cognitive aging.

Authors: Craig Myrum; Perla Moreno-Castilla; Peter R Rapp
Journal: Ageing Res Rev Date: 2022-07-01 Impact factor: 11.788

Review 6. Profiling the Research Landscape on Cognitive Aging: A Bibliometric Analysis and Network Visualization.

Authors: Zahiruddin Othman; Ahmad Shahril Abdul Halim; Khairunnuur Fairuz Azman; Asma Hayati Ahmad; Rahimah Zakaria; Kuttulebbai Nainamohamed Salam Sirajudeen; Adi Wijaya; Aidi Ahmi
Journal: Front Aging Neurosci Date: 2022-04-27 Impact factor: 5.702

7. Beta-amyloid moderates the relationship between cortical thickness and attentional control in middle- and older-aged adults.

Authors: Nicole S McKay; Aylin Dincer; Vidushri Mehrotra; Andrew J Aschenbrenner; David Balota; Russ C Hornbeck; Jason Hassenstab; John C Morris; Tammie L S Benzinger; Brian A Gordon
Journal: Neurobiol Aging Date: 2022-01-10 Impact factor: 5.133

Aging in the Brain: New Roles of Epigenetics in Cognitive Decline.

1. Dopaminergic gene methylation is associated with cognitive performance in a childhood monozygotic twin study.

Review 2. Senescent neurophysiology: Ca²⁺ signaling from the membrane to the nucleus.

Review 3. Patterns of DNA methylation as an indicator of biological aging: State of the science and future directions in precision health promotion.

Review 4. A putative role for lncRNAs in epigenetic regulation of memory.

Review 5. 'Arc'-hitecture of normal cognitive aging.

Review 6. Profiling the Research Landscape on Cognitive Aging: A Bibliometric Analysis and Network Visualization.

7. Beta-amyloid moderates the relationship between cortical thickness and attentional control in middle- and older-aged adults.

8. MicroRNA-184 negatively regulates corneal epithelial wound healing via targeting CDC25A, CARM1, and LASP1.

Review 9. Histone deacetylase-3: Friend and foe of the brain.

Review 10. The Influence of Physical Activity and Epigenomics On Cognitive Function and Brain Health in Breast Cancer.

Aging in the Brain: New Roles of Epigenetics in Cognitive Decline.

1. Dopaminergic gene methylation is associated with cognitive performance in a childhood monozygotic twin study.

Review 2. Senescent neurophysiology: Ca2+ signaling from the membrane to the nucleus.

Review 3. Patterns of DNA methylation as an indicator of biological aging: State of the science and future directions in precision health promotion.

Review 4. A putative role for lncRNAs in epigenetic regulation of memory.

Review 5. 'Arc'-hitecture of normal cognitive aging.

Review 6. Profiling the Research Landscape on Cognitive Aging: A Bibliometric Analysis and Network Visualization.

7. Beta-amyloid moderates the relationship between cortical thickness and attentional control in middle- and older-aged adults.

8. MicroRNA-184 negatively regulates corneal epithelial wound healing via targeting CDC25A, CARM1, and LASP1.

Review 9. Histone deacetylase-3: Friend and foe of the brain.

Review 10. The Influence of Physical Activity and Epigenomics On Cognitive Function and Brain Health in Breast Cancer.

Review 2. Senescent neurophysiology: Ca²⁺ signaling from the membrane to the nucleus.