Systems Genetic Identification of Mitochondrion-Associated Alzheimer’s Disease Genes and Implications for Disease Risk Prediction

Xu, Xuan; Wang, Hui; Bennett, David A.; Zhang, Qing-Ye; Wang, Gang; Zhang, Hongyu

doi:10.3390/biomedicines10081782

Cited by 3 publications

(2 citation statements)

References 58 publications

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“…Significant mitochondrial pathways were mitochondrial transport, hallmark oxidative phosphorylation, and response to oxidative stress. A GWAS of mitochondrion‐associated genes and subsequent epistasis analysis identified six modules of nuclear genes associated with AD pathogenesis that interacted with mitochondrial genes 201 . Top hub genes identified through network analysis were involved in synaptic function, signaling pathways, and neurodegenerative pathways, demonstrating how mitochondria‐related biological processes may contribute to AD pathogenesis beyond reduced energy metabolism.…”

Section: Adni's Contributions To Understanding Ad Disease Progressionmentioning

confidence: 99%

“…A GWAS of mitochondrion‐associated genes and subsequent epistasis analysis identified six modules of nuclear genes associated with AD pathogenesis that interacted with mitochondrial genes. 201 Top hub genes identified through network analysis were involved in synaptic function, signaling pathways, and neurodegenerative pathways, demonstrating how mitochondria‐related biological processes may contribute to AD pathogenesis beyond reduced energy metabolism. The only gene identified from all investigative approaches was APP , consistent with its central role.…”

Section: Adni's Contributions To Understanding Ad Disease Progressionmentioning

confidence: 99%

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The Alzheimer's Disease Neuroimaging Initiative in the era of Alzheimer's disease treatment: A review of ADNI studies from 2021 to 2022

Veitch,

Weiner,

Miller

et al. 2023

Alzheimer's & Dementia

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The Alzheimer's Disease Neuroimaging Initiative (ADNI) aims to improve Alzheimer's disease (AD) clinical trials. Since 2006, ADNI has shared clinical, neuroimaging, and cognitive data, and biofluid samples. We used conventional search methods to identify 1459 publications from 2021 to 2022 using ADNI data/samples and reviewed 291 impactful studies. This review details how ADNI studies improved disease progression understanding and clinical trial efficiency. Advances in subject selection, detection of treatment effects, harmonization, and modeling improved clinical trials and plasma biomarkers like phosphorylated tau showed promise for clinical use. Biomarkers of amyloid beta, tau, neurodegeneration, inflammation, and others were prognostic with individualized prediction algorithms available online. Studies supported the amyloid cascade, emphasized the importance of neuroinflammation, and detailed widespread heterogeneity in disease, linked to genetic and vascular risk, co‐pathologies, sex, and resilience. Biological subtypes were consistently observed. Generalizability of ADNI results is limited by lack of cohort diversity, an issue ADNI‐4 aims to address by enrolling a diverse cohort.

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Section: Adni's Contributions To Understanding Ad Disease Progressionmentioning

confidence: 99%

Section: Adni's Contributions To Understanding Ad Disease Progressionmentioning

confidence: 99%

The Alzheimer's Disease Neuroimaging Initiative in the era of Alzheimer's disease treatment: A review of ADNI studies from 2021 to 2022

Veitch,

Weiner,

Miller

et al. 2023

Alzheimer's & Dementia

View full text Add to dashboard Cite

show abstract

Characterization of brain resilience in Alzheimer's disease using polygenic risk scores and further improvement by integrating mitochondria-associated loci

Wang

Bennett

et al. 2024

Journal of Advanced Research

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Dissecting Mitochondrial Mechanisms of Alzheimer’s Disease Using Gene Dependency Network and Its Implications for Discovering Nutrients Combatting the Disease

Xu,

Wang,

Zhang

et al. 2023

JAD

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Background: Alzheimer’s disease (AD) is the leading cause of dementia, with its prevalence increasing as the global population ages. AD is a multifactorial and intricate neurodegenerative disease with pathological changes varying from person to person. Because the mechanism of AD is highly controversial, effective treatments remain a distant prospect. Currently, one of the most promising hypotheses posits mitochondrial dysfunction as an early event in AD diagnosis and a potential therapeutic target. Objective: Here, we adopted a systems medicine strategy to explore the mitochondria-related mechanisms of AD. Then, its implications for discovering nutrients combatting the disease were demonstrated. Methods: We employed conditional mutual information (CMI) to construct AD gene dependency networks. Furthermore, the GeneRank algorithm was applied to prioritize the gene importance of AD patients and identify potential anti-AD nutrients targeting crucial genes. Results: The results suggested that two highly interconnected networks of mitochondrial ribosomal proteins (MRPs) play an important role in the regulation of AD pathology. The close association between mitochondrial ribosome dysfunction and AD was identified. Additionally, we proposed seven nutrients with potential preventive and ameliorative effects on AD, five of which have been supported by experimental reports. Conclusions: Our study explored the important regulatory role of MRP genes in AD, which has significant implications for AD prevention and treatment.

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Systems Genetic Identification of Mitochondrion-Associated Alzheimer’s Disease Genes and Implications for Disease Risk Prediction

Cited by 3 publications

References 58 publications

The Alzheimer's Disease Neuroimaging Initiative in the era of Alzheimer's disease treatment: A review of ADNI studies from 2021 to 2022

The Alzheimer's Disease Neuroimaging Initiative in the era of Alzheimer's disease treatment: A review of ADNI studies from 2021 to 2022

Characterization of brain resilience in Alzheimer's disease using polygenic risk scores and further improvement by integrating mitochondria-associated loci

Dissecting Mitochondrial Mechanisms of Alzheimer’s Disease Using Gene Dependency Network and Its Implications for Discovering Nutrients Combatting the Disease

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