Sirtuins and redox signaling interplay in neurogenesis, neurodegenerative diseases, and neural cell reprogramming

Mormone, Elisabetta; Iorio, Eugenio Luigi; Abate, Lucrezia; Rodolfo, Carlo

doi:10.3389/fnins.2023.1073689

Cited by 7 publications

(3 citation statements)

References 236 publications

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“…Consistent with this finding, ETC complex I and IV activity were relatively dissociated in buccal epithelium from individuals with ASD, suggesting an uncoupling of the respiratory chain [36]. Similar to mitochondrial dysfunction in ASD, neurogenesis could also be greatly affected.…”

Section: The Relationship Between the Neurobiological And Neurochemic...supporting

confidence: 68%

Paving the Way & Translating PPH Resources towards Autismrelated Care

Suchkov

2023

Immunol Res Immunother

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The link that might exert reliable control over morbidity, mortality and disabling rates as well as significantly optimize the efficacy of autism spectrum disorders (ASDs) treatment for those who had fallen ill and for persons-at-risk is Personalized & Precision Medicine (PPM). Since there are significant molecular and neurobiological overlaps among ASD-related clinical phenotypes, tar-geted and/or smart (intelligent) treatments developed for a specific ASD subtype, may be help-ful in ASD of unknown etiology. Recent changes in diagnostics criteria have contributed to the broadening of the ASDs and left clinicians ill-equipped to treat the highly heterogeneous spec-trum that now includes toddlers and children with sensory and motor issues. And the biomarker discovery and thus the biomarker-driven drug design have the potential to tailor therapeutic inter-ventions to fit individualized ASD-related conditions in order to receive maximum benefits. This review summarizes the current advances in ASD biomarkers and discusses the potential imple-mentation of biomarkers in PPM-affiliated areas in the context of ASDs, whilst stressing the im-pact of PPM as the Science and ART and illustrating application of the different tools of the next step generation at the population, community and individualized levels.

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Section: The Relationship Between the Neurobiological And Neurochemic...supporting

confidence: 68%

Paving the Way & Translating PPH Resources towards Autismrelated Care

Suchkov

2023

Immunol Res Immunother

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“…The sirtuin family has beneficial effects on AD [65][66][67]. Among them, SIRT1 is involved in regulating neural stem cell function, affecting self-renewal, differentiation, epigenetic regulation, and the aging processes [68,69]. However, further studies are needed to determine the involvement of SIRT1 in the senescent process of human NSCs in AD.…”

Section: Discussionmentioning

confidence: 99%

Alzheimer’s Amyloid-β Accelerates Cell Senescence and Suppresses SIRT1 in Human Neural Stem Cells

Li,

Zuo

et al. 2024

Biomolecules

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As a lifelong source of neurons, neural stem cells (NSCs) serve multiple crucial functions in the brain. The senescence of NSCs may be associated with the onset and progression of Alzheimer’s disease (AD). Our study reveals a noteworthy finding, indicating that the AD-associated pathogenic protein amyloid-β (Aβ) substantially enhances senescence-related characteristics of human NSCs. These characteristics encompass the enhanced expression of p16 and p21, the upregulation of genes associated with the senescence-associated secretory phenotype (SASP), increased SA-β-gal activity, and the activation of the DNA damage response. Further studies revealed that Aβ treatment significantly downregulates the SIRT1 protein which plays a crucial role in regulating the aging process and decreases downstream PGC-1α and FOXO3. Subsequently, we found that SIRT1 overexpression significantly alleviates a range of Aβ-induced senescent markers in human NSCs. Taken together, our results uncover that Aβ accelerates cellular senescence in human NSCs, making SIRT1 a highly promising therapeutic target for senescent NSCs which may contribute to age-related neurodegenerative diseases, including AD.

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“…It is a chronic, progressive pathology that results in the death of nerve cells [9]. Genetic mutations, genetic susceptibilities, and environmental factors such as pesticides, heavy metals, specific medications, addictive drugs, stress, toxins, viruses, and prions are among the factors that, through molecular mechanisms involving apoptosis and oxidative stress, can contribute to neurodegeneration in certain elderly individuals [10]. AD is biologically defined by β-amyloid-containing plaques and taucontaining neurofibrillary tangles (NFT) [11].…”

Section: Alzheimer's Diseasementioning

confidence: 99%

Presymptomatic Diagnosis and Gene Therapy for Alzheimer’s Disease: Genomic, Therapeutic, and Ethical Aspects—A Systematic Review

Zohoncon,

Sawadogo,

Ouattara

et al. 2023

AAD

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Over the past three decades, genomic and epigenetic sciences have identified more than 70 genes involved in the molecular pathophysiology of Alzheimer's disease (AD). DNA methylation, abnormal histone and chromatin regulation and the action of various miRNAs induce AD. The identification of mutated genes has paved the way for the development of diagnostic kits and the initiation of gene therapy trials. However, despite major advances in neuroscience research, there is yet no suitable treatment for AD. Therefore, the early diagnosis of this neurodegenerative disease raises several ethical questions, including the balance between the principle of non-maleficence and the principle of beneficence. The aims of this research were to present the genomic and ethical aspects of AD, and to highlight the ethical principles involved in its presymptomatic diagnosis and therapy. A systematic review of the literature in PubMed, Google Scholar and Science Direct was carried out to outline the genomic aspects and ethical principles relating not only to the presymptomatic diagnosis of AD, but also to its gene therapy. A total of 16 publications were selected. AD is a multifactorial disease that can be genetically classified into Sporadic Alzheimer's Disease and Familial Alzheimer's Disease based on family history. Gene therapy targeting specific disease-causing genes is a promising therapeutic strategy.

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Sirtuins and redox signaling interplay in neurogenesis, neurodegenerative diseases, and neural cell reprogramming

Cited by 7 publications

References 236 publications

Paving the Way & Translating PPH Resources towards Autismrelated Care

Paving the Way & Translating PPH Resources towards Autismrelated Care

Alzheimer’s Amyloid-β Accelerates Cell Senescence and Suppresses SIRT1 in Human Neural Stem Cells

Presymptomatic Diagnosis and Gene Therapy for Alzheimer’s Disease: Genomic, Therapeutic, and Ethical Aspects—A Systematic Review

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