Shirsat SD, Londhe PV, Gaikwad AP, Rizwan M, Laha SS, Khot VM, Achal C, Tabish TA, Thorat ND (2024) Endosomal escape in magnetic nanostructures: Recent advances and future perspectives. Materials Today Advances 22:100484. doi: 10.1016/j.mtadv.2024.100484
Objective: To investigate the use of magnetic nanoparticles (MNPs) as functional nano-objects to enhance the therapeutic effects by disrupting or rupturing the endocytic vesicles in terms of endosomal escape.
Summary: When MNPs are functionalized for cancer therapy, the endosomal escape agent should break the endosomal membrane when it fuses with lysosomes, i.e. late endosomes, which are highly acidic and comprised of large amounts of hydrolytic enzymes, which additionally contribute to cytotoxic effects. However, when MNPs are used for gene delivery, endosomal release from early endosomes should be desirable because it is less toxic than late endosomes, thus increasing the biocompatibility and promoting healthy growth and gene expression in targeted cells.
Usage: Saporin is mentioned as an endosomal escape agent.
Related Products: Saporin (Cat. #PR-01)
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