Brain-Derived Neurotrophic Factor: A Connecting Link Between Nutrition, Lifestyle, and Alzheimer’s Disease

Xue, Bin; Waseem, Shah Mohammad Abbas; Zhu, Zhixin; Alshahrani, Mohammed Abdulrahman; Nazam, Nazia; Anjum, Farah; Habib, Alaa Hamed; Rafeeq, Misbahuddin M; Nazam, Fauzia; Sharma, Monika

doi:10.3389/fnins.2022.925991

Cited by 14 publications

(10 citation statements)

References 95 publications

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“…A large number of RCTs had reported the positive effects of exercise on cognitive function in patients with dementia ( Henskens et al, 2018 ; Lamb et al, 2018 ; de Oliveira Silva et al, 2019 ). Exercise therapy improved cognitive performance mechanisms, such as increasing growth factors ( Ruiz-González et al, 2021 ; Xue et al, 2022 ), modulating inflammatory cytokines ( Hashiguchi et al, 2020 ; de Farias et al, 2021 ), alleviating oxidative stress ( Hu et al, 2022 ), increasing cerebral blood flow ( Lu et al, 2019 ; Tomoto et al, 2021 ), decreasing antibody concentrations ( Giménez-Llort et al, 2013 ), and inhibiting tau phosphorylation from slowing the progression of dementia ( Wang et al, 2021 ; Xu et al, 2022 ). However, these potential mechanisms have been proved to exist only in animal models, and some studies examining these mechanisms have not yet to prove their applicability to humans.…”

Section: Discussionmentioning

confidence: 99%

Effectiveness of non-pharmacological therapies on cognitive function in patients with dementia—A network meta-analysis of randomized controlled trials

Luo

Zhang

Song

et al. 2023

Front. Aging Neurosci.

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ObjectiveNon-pharmacological therapies (NPTs) have received increasing attention from researchers as a category of treatment to improve cognitive impairment in patients with dementia because of their fewer side effects. In this study, photobiomodulation (PBM), enriched environment (EE), exercise therapy (ET), computerized cognitive training (CCT), and cognitive stimulation therapy (CST) were selected to compare the effects of NPTs that improve dementia by quantifying information from randomized controlled trials (RCTs).MethodsWe did a systematic review and network meta-analysis. We searched PubMed, Embase, Cochrane Central Register of Controlled Trials (CENTRAL), China National Knowledge Infrastructure Database, Wan Fang Database, Chinese Biomedical Literature Database, Web of Science, and VIP Database from the time of database creation to 1 August 2022. Two investigators independently screened the literature, extracted information, and assessed the RCTs’ quality with the Cochrane Collaboration Network Risk of Bias 2.0. Network meta-analysis was performed using R language (X64 version 4.1.3) and STATA 17.0.ResultsWe identified 1,268 citations and of these included 38 trials comprising 3,412 participants. For improving dementia, the results of the network meta-analysis showed that compared with the control group (CON), PBM (SMD = 0.90, 95% CI: 0.43–1.37), EE (SMD = 0.71, 95% CI: 0.02–1.41), ET (SMD = 0.42, 95% CI: 0.16–0.68), and CST (SMD = 0.36, 95% CI: 0.11–0.62) were significantly different (P < 0.05); There was no significant difference in CCT (SMD = 0.41, 95% CI: −0.07–0.88) (P > 0.05). The ranked results showed that PBM has more potential to be the best intervention (P = 0.90). In addition, there was a significant difference between PBM and CST in improving cognitive function (SMD = 0.54, 95% CI: 0.00; 1.08, P < 0.05).ConclusionIn this study, NPTs have excellent potential to improve cognition in people with dementia, and PBM may have more significant benefits in improving cognition than the other four NPTs.Systematic review registrationhttps://www.crd.york.ac.uk/prospero/, identifier CRD42022363746.

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Section: Discussionmentioning

confidence: 99%

Effectiveness of non-pharmacological therapies on cognitive function in patients with dementia—A network meta-analysis of randomized controlled trials

Luo

Zhang

Song

et al. 2023

Front. Aging Neurosci.

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“…In AD mouse models, PE exhibited helpful properties on synaptic plasticity modifications, reestablished neuroprotective feature altitudes, amended cognitive shortages, and decreased Aβ assembly [120]. Frequent trials recommended that PE be represented via the SIRT1/PINK1/Parkin cascade way [121,122]. In addition, PE for APP/PS1 mice augmented mitophagy, improved knowledge and memory capabilities, synaptic action, Aβ burden, and mitochondrial functionality, and reduced OS markers [123].…”

Section: Lifestyle Strategiesmentioning

confidence: 99%

The Role of Mitochondrial Dysfunction in Alzheimer’s: Molecular Defects and Mitophagy-Enhancing Approaches

Farsi

2023

Life

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Alzheimer’s disease (AD), a progressive and chronic neurodegenerative syndrome, is categorized by cognitive and memory damage caused by the aggregations of abnormal proteins, specifically including Tau proteins and β-amyloid in brain tissue. Moreover, mitochondrial dysfunctions are the principal causes of AD, which is associated with mitophagy impairment. Investigations exploring pharmacological therapies alongside AD have explicitly concentrated on molecules accomplished in preventing/abolishing the gatherings of the abovementioned proteins and mitochondria damages. Mitophagy is the removal of dead mitochondria by the autophagy process. Damages in mitophagy, the manner of diversified mitochondrial degeneracy by autophagy resulting in an ongoing aggregation of malfunctioning mitochondria, were also suggested to support AD. Recently, plentiful reports have suggested a link between defective mitophagy and AD. This treaty highlights updated outlines of modern innovations and developments on mitophagy machinery dysfunctions in AD brains. Moreover, therapeutic and nanotherapeutic strategies targeting mitochondrial dysfunction are also presented in this review. Based on the significant role of diminished mitophagy in AD, we suggest that the application of different therapeutic approaches aimed at stimulating mitophagy in AD would be beneficial for targeting or reducing the mitochondrial dysfunction induced by AD.

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“…Studies have verified that the adequate consumption of DHA has protective properties, showcasing its ability to limit synaptic loss, cognition defects, and even suppress neural damage promoted by amyloid β and hyperphosphorylated tau accumulation in Alzheimer’s disease models. − Vitamin D has shown neuroprotective potential in several studies through its involvement in antioxidant pathways, neurotrophin production, neuronal calcium and glutamate regulation, immunomodulation, and amyloid β clearance. − Probiotics, influencing the gut-brain axis, are emerging as biotherapies for neurodegenerative diseases, positively impacting neurotrophic factors and reducing oxidative stress, influencing neuronal plasticity. ,− …”

Section: Introductionmentioning

confidence: 99%

Docosahexaenoic Acid (DHA), Vitamin D3, and Probiotics Supplementation Improve Memory, Glial Reactivity, and Oxidative Stress Biomarkers in an Aluminum-Induced Cognitive Impairment Rat Model

Faccinetto-Beltrán,

Reza-Zaldivar,

Curiel-Pedraza

et al. 2024

ACS Omega

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Globally, the rise in neurodegenerative issues in tandem with shifts in lifestyle and aging population has prompted a search for effective interventions. Nutraceutical compounds have emerged as promising agents for addressing these challenges. This 60-day study on an aluminum-induced cognitive impairment rat model assessed three compounds and their combinations: probiotics (Prob, Lactobacillus plantarum [5 × 10 10 CFU/day], and Lactobacillus acidophilus [5 × 10 10 CFU/day]), docosahexaenoic acid (DHA, 23.8 mg/day), and vitamin D3 (VD3, 150 IU/day). Behavioral outcomes were evaluated by using the Morris water maze and novel object recognition tests. Glial activation was assessed through immunofluorescence analysis of GFAP/Iba1, and oxidative stress markers in brain tissue were determined by measuring the levels of Malondialdehyde (MDA) and Superoxide dismutase (SOD). The results demonstrated a progressive improvement in the learning and memory capacity. The aluminum group exhibited the poorest performance in the behavioral test, enhanced GFAP/Iba1 activation, and elevated levels of oxidative stress markers. Conversely, the DHA + Prob + VD3 treatment demonstrated the best performance in the Morris water maze. The combination of DHA + Prob + VD3 exhibited superior performance in the Morris water maze, accompanied by reduced levels of GFAP/Iba1 activation in DG/CA1 brain regions. Furthermore, DHA + Prob supplementation showed lower GFAP/Iba1 activation in the CA3 region and enhanced antioxidant activity. In summary, supplementing various nutraceutical combinations, including DHA, VD3, and Prob, displayed notable benefits against aluminum-induced cognitive impairment. These benefits encompassed memory enhancement, diminished MDA concentration, increased SOD activity, and reduced glial activation, as indicated by GFAP/ Iba1 markers.

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Brain-Derived Neurotrophic Factor: A Connecting Link Between Nutrition, Lifestyle, and Alzheimer’s Disease

Cited by 14 publications

References 95 publications

Effectiveness of non-pharmacological therapies on cognitive function in patients with dementia—A network meta-analysis of randomized controlled trials

Effectiveness of non-pharmacological therapies on cognitive function in patients with dementia—A network meta-analysis of randomized controlled trials

The Role of Mitochondrial Dysfunction in Alzheimer’s: Molecular Defects and Mitophagy-Enhancing Approaches

Docosahexaenoic Acid (DHA), Vitamin D3, and Probiotics Supplementation Improve Memory, Glial Reactivity, and Oxidative Stress Biomarkers in an Aluminum-Induced Cognitive Impairment Rat Model

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