Abstract
Alzheimer's disease (AD) is the leading cause of dementia in the elderly and is characterized by the aggregation of Aβ (peptide) and neurofibrillary tangles along with inflammatory processes. Aging is a significant driver of these alterations, and dementia is a major cause of disability and mortality. Despite extensive clinical trials over the past two decades, no effective drug has been developed to improve AD symptoms or slow its progression, indicating the inefficiency of current treatment targets. In AD development, the molecular microenvironment plays a significant role. MicroRNAs (miRNAs) are a key component of this microenvironment, regulate post-transcriptional gene expression, and are expressed more abundantly in the brain than in other tissues. Several dysregulated miRNAs in AD have been linked to neuropathological changes, such as plaque and tangle accrual, as well as altered expression of notorious molecules. Preclinical studies have confirmed the efficacy of phytochemicals/food bioactive compounds (PCs/FBCs) in regulating miRNA expression, which makes them immensely beneficial for targeting miRNA-altered expression patterns in neuronal diseases. This review highlights the potential of miRNAs in driving AD pathology and its development. Furthermore, it discusses the therapeutic efficacy of PCs/FBCs and their miRNA-regulatory properties, especially focusing on antiinflammatory and antioxidant capacities for their development as effective AD agents.