Amelioration of Amyloid‐β Induced Alzheimer's Disease by <i>Bacopa monnieri</i> through Modulation of Mitochondrial Dysfunction and GSK‐3β/Wnt/β‐Catenin Signaling

Sushma,; Sahu, Manas Ranjan; Murugan, Natarajan Arul; Mondal, Amal Chandra

doi:10.1002/mnfr.202300245

Molecular Nutrition Food Res

2023

DOI: 10.1002/mnfr.202300245

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Amelioration of Amyloid‐β Induced Alzheimer's Disease by Bacopa monnieri through Modulation of Mitochondrial Dysfunction and GSK‐3β/Wnt/β‐Catenin Signaling

Sushma,

Manas Ranjan Sahu,

Natarajan Arul Murugan

et al.

Abstract: BackgroundAlzheimer's disease (AD) is the most prevalent dementia, affecting a large number of populations. Despite being under scrutiny for decades, an effective therapeutic option is still not available.Methods and resultsThis study explores the therapeutic role of a nootropic herb Bacopa monnieri (BM) in AD‐like pathological conditions produced by injecting preformed amyloid‐β42 (Aβ42) fibril bilaterally into hippocampus of Wistar rats, and ethanolic extract of BM is orally administered for 4 weeks. Assessm… Show more

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2024

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Cited by 3 publications

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Unlocking Hope: Therapeutic Advances and Approaches in Modulating the Wnt Pathway for Neurodegenerative Diseases

Faraji,

Ebadpour,

Abavisani

et al. 2024

Mol Neurobiol

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Neurodegenerative diseases (NDs) are conditions characterized by sensory, motor, and cognitive impairments due to alterations in the structure and function of neurons in the central nervous system (CNS). Despite their widespread occurrence, the exact causes of NDs remain largely elusive, and existing treatments fall short in efficacy. The Wnt signaling pathway is an emerging molecular pathway that has been linked to the development and progression of various NDs. Wnt signaling governs numerous cellular processes, such as survival, polarity, proliferation, differentiation, migration, and fate specification, via a complex network of proteins. In the adult CNS, Wnt signaling regulates synaptic transmission, plasticity, memory formation, neurogenesis, neuroprotection, and neuroinflammation, all essential for maintaining neuronal function and integrity. Dysregulation of both canonical and non-canonical Wnt signaling pathways contributes to neurodegeneration through various mechanisms, such as amyloid-β accumulation, tau protein hyperphosphorylation, dopaminergic neuron degeneration, and synaptic dysfunction, prompting investigations into Wnt modulation as a therapeutic target to restore neuronal function and prevent or delay neurodegenerative processes. Modulating Wnt signaling has the potential to restore neuronal function and impede or postpone neurodegenerative processes, offering a therapeutic approach for targeting NDs. In this article, the current knowledge about how Wnt signaling works in Alzheimer’s disease and Parkinson’s disease is discussed. Our study aims to explore the molecular mechanisms, recent discoveries, and challenges involved in developing Wnt-based therapies.

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Unlocking Hope: Therapeutic Advances and Approaches in Modulating the Wnt Pathway for Neurodegenerative Diseases

Faraji,

Ebadpour,

Abavisani

et al. 2024

Mol Neurobiol

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Synergistic activity of nootropic herbs as potent therapeutics for Alzheimer's disease: A cheminformatics, pharmacokinetics, and system pharmacology approach

Don Bosco,

Selvan Christyraj,

Yesudhason

2024

Journal of Alzheimer's Disease Reports

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Background Alzheimer's disease (AD) is a progressive neurodegenerative disorder, which subdues over 55 million people and finding a cure, still remains disenchanting. Indian medicinal herbs notably, Withania somnifera, Bacopa monnieri, Curcuma longa, and Clitoria ternatea are traditionally utilized for their memory-enhancing properties. Objective We computationally investigated the therapeutic potential of four nootropic herbs by uncovering the molecular mechanisms underlying their treatment for AD. Methods Cheminformatics, pharmacokinetics, and system pharmacology studies were carried out to predict the phytocompounds drug-like properties, protein targets, targets functional association and enrichment analysis. A comparative study was performed with phytocompounds and FDA-approved drugs. Investigation on the expression of protein targets in the hippocampus and entorhinal cortex of the AD brain was performed. Network was constructed to depict the interaction between phytocompounds, drugs, and molecular targets. Results Through comparative analysis, we found that the phytocompounds shared common targets with both FDA drugs and drugs under clinical trials. We identified potential active compounds notably, Withaferin A, Withanolide-D, Withanolide-E, Withanolide-G, and Humulene epoxide II, that can combat AD. Interestingly, the enzyme inhibition scores of the identified drugs were much higher than FDA-approved drugs. In addition, regulatory proteins such as AβPP, acetylcholinesterase, BACE1, and PTPN1 were the targets of 8, 16, 9, and 22 phytocompounds, respectively. Nonetheless, AR and CYP19A, were the primary targets of most phytocompounds. Conclusions Herbal medicines can synergistically stimulate multiple protein targets, rendering a holistic and integrative treatment, encouraging a promising avenue to treat AD.

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Impact of a Withania somnifera and Bacopa monnieri Formulation on SH-SY5Y Human Neuroblastoma Cells Metabolism Through NMR Metabolomic

D’Elia,

Marino,

Celano

et al. 2024

Nutrients

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Objectives: This study investigates the effectiveness of an herbal formulation, STRESSLESS (ST-65), which combines ashwagandha (Withania somnifera) and bacopa (Bacopa monnieri), on SH-SY5Y human neuroblastoma cells. Given the rising interest in natural compounds for neuroprotection and stress alleviation, we aimed to explore the cellular and molecular effects of this formulation. Methods: Utilizing a nuclear magnetic resonance (NMR) metabolomic approach and ultra-high-performance liquid chromatography-high-resolution mass spectrometry (UHPLC-HRMS), we identified key bioactive compounds in ST-65, including withanolides from ashwagandha and bacosides from bacopa. Results: Our findings indicate that ST-65 treatment significantly alters the metabolic profile of SH-SY5Y cells. Key changes included increased levels of metabolites linked to neuroprotection, energy metabolism, and antioxidant defense. Notable enhancements were observed in specific amino acids and neuroprotective compounds, suggesting activation of neuroprotective mechanisms and mitigation of stress-induced damage. Conclusions: The study reveals a complex phyto-chemical profile of ST-65 and underscores its potential as a natural active agent for addressing stress-related neurodegenerative conditions. These insights into neuronal mechanisms provide a foundation for further exploration of herbal formulations in neuroprotection.

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Amelioration of Amyloid‐β Induced Alzheimer's Disease by Bacopa monnieri through Modulation of Mitochondrial Dysfunction and GSK‐3β/Wnt/β‐Catenin Signaling

Cited by 3 publications

References 66 publications

Unlocking Hope: Therapeutic Advances and Approaches in Modulating the Wnt Pathway for Neurodegenerative Diseases

Unlocking Hope: Therapeutic Advances and Approaches in Modulating the Wnt Pathway for Neurodegenerative Diseases

Synergistic activity of nootropic herbs as potent therapeutics for Alzheimer's disease: A cheminformatics, pharmacokinetics, and system pharmacology approach

Impact of a Withania somnifera and Bacopa monnieri Formulation on SH-SY5Y Human Neuroblastoma Cells Metabolism Through NMR Metabolomic

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