The use of nanotechnology in the treatment of numerous disorders has proven effective. The predicted development of plant-derived edible nanoparticles (PDNPs) as potential therapeutic agents for treating illness or in… Click to show full abstract
The use of nanotechnology in the treatment of numerous disorders has proven effective. The predicted development of plant-derived edible nanoparticles (PDNPs) as potential therapeutic agents for treating illness or in the delivery of drugs is inevitable. PDNPs generated from plants resemble mammal-extracted exosomes structurally. In contrast to their excellent biocompatibility with healthy cells, PDNPs are skewed toward malignancies by selectively targeting those cells via unique endocytic pathways. They can be generated in large quantities, are nontoxic, and have tissue-specific targeting abilities. Thus, with fewer off-target effects, using these PDNPs could broaden the breadth of pharmacological therapy. In this discussion, we emphasize the properties and biological activities of PDNPs isolated from fruits and vegetables and discuss the promising implications of these particles as nanomedicines. PRACTICAL APPLICATIONS: PDNPs have reportedly been employed for therapeutic applications for several ailments and are believed to have characteristics in common with exosomes generated from mammals. The advantages of PDNPs over mammalian-derived exosomes are numerous. Firstly, they may be produced on a commercial scale using a variety of efficient renewable sources. Secondly, the PDNPs' natural components developed in plant cells promise improved cytocompatibility, tolerability, low cytotoxicity, or other adverse effects. We evaluated some current studies on the applications and potential of PDNPs in this article. PDNPs could create new opportunities for drug discovery because of recent advancements in medicine and drug delivery system nanotechnology. Unfortunately, the precise mechanisms behind PDNP's functions and interaction in pathogenic processes have not yet been completely elucidated; as a result, the potential consequences of their clinical use are uncertain. Overall, PDNPs show a wide range of therapeutic possibilities that may be advantageous to patients and might eventually make up the next generation of pharmaceuticals.
               
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