Stem Cell Interventions in the Treatment of Alzheimer's Disease.

Alzheimer's disease (AD), an inexorable neurodegenerative ailment marked by cognitive impairment and neuropsychiatric manifestations, stands as the foremost prevailing form of dementia in the geriatric population. Its pathological signs include the aggregation of amyloid proteins, hyperphosphorylation of tau proteins, and the consequential loss of neural cells. The etiology of AD has prompted the formulation of numerous conjectures, each endeavoring to elucidate its pathogenesis. While a subset of therapeutic agents has displayed clinical efficacy in AD patients, a significant proportion has encountered disappointment. Notably, the extent of neural cell depletion bears a direct correlation with the disease's progressive severity. However, the absence of efficacious therapeutic remedies for neurodegenerative afflictions engenders a substantial societal burden and exerts a notable economic toll. In the past two decades, the realm of regenerative cell therapy, referred to as stem cell therapy, has unfolded as an avenue for the exploration of profoundly innovative approaches to treat neurodegenerative conditions. This promise is underpinned by the remarkable capacity of stem cells to remediate compromised neural tissue by means of cell replacement, to cultivate an environment conducive to regeneration, and to shield extant healthy neuronal and glial components from further degradation. Thus, this review aims to delve into the current knowledge of stem cell-based therapies and future possibilities in this domain.

Plant-derived exosomes: a green approach for cancer drug delivery.

Plant-derived exosomes (PDEs) are natural extracellular vesicles (EVs). In the current decade, they have been highlighted for cancer therapeutic development. Cancer is a global health crisis and it requires an effective, affordable, and less side effect-based treatment. Emerging research based on PDEs suggests that they have immense potential to be considered as a therapeutic option. Research evidences indicate that PDEs' internal molecular cargos show impressive cancer prevention activity with less toxicity. PDEs-based drug delivery systems overcome several limitations of traditional drug delivery tools. Extraction of PDEs from plant sources employ diverse methodologies, encompassing ultracentrifugation, immunoaffinity, size-based isolation, and precipitation, each with distinct advantages and limitations. The core constituents of PDEs comprise of lipids, proteins, DNA, and RNA. Worldwide, a few clinical trials on plant-derived exosomes are underway, and regulatory affairs for their use as therapeutic agents are still not understood with clarity. This review aims to comprehensively analyze the current state of research on plant-derived exosomes as a promising avenue for drug delivery, highlighting anticancer activity, challenges, and future orientation in effective cancer therapeutic development.