Sanjeeb K. Sahoo scite author profile

The endo-lysosomal escape of drug carriers is crucial to enhancing the efficacy of their macromolecular payload, especially the payloads that are susceptible to lysosomal degradation. Current vectors that enable the endo-lysosomal escape of macromolecules such as DNA are limited by their toxicity and by their ability to carry only limited classes of therapeutic agents. In this paper, we report the rapid (<10 min) endo-lysosomal escape of biodegradable nanoparticles (NPs) formulated from the copolymers of poly(DL-lactide-co-glycolide) (PLGA). The mechanism of rapid escape is by selective reversal of the surface charge of NPs (from anionic to cationic) in the acidic endo-lysosomal compartment, which causes the NPs to interact with the endo-lysosomal membrane and escape into the cytosol. PLGA NPs are able to deliver a variety of therapeutic agents, including macromolecules such as DNA and low molecular weight drugs such as dexamethasone, intracellularly at a slow rate, which results in a sustained therapeutic effect. PLGA has a number of advantages over other polymers used in drug and gene delivery including biodegradability, biocompatibility, and approval for human use granted by the U.S. Food and Drug Administration. Hence PLGA is well suited for sustained intracellular delivery of macromolecules.

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PLGA nanoparticles containing various anticancer agents and tumour delivery by EPR effect

Acharya

Sahoo

2011

Advanced Drug Delivery Reviews

967

611

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Residual polyvinyl alcohol associated with poly (d,l-lactide-co-glycolide) nanoparticles affects their physical properties and cellular uptake

Sahoo

Panyam

Prabha

et al. 2002

Journal of Controlled Release

880

526

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Sanjeeb K. Sahoo

Nanoparticles: a boon to drug delivery, therapeutics, diagnostics and imaging

Rapid endo‐lysosomal escape of poly(DL‐lactide‐coglycolide) nanoparticles: implications for drug and gene delivery

PLGA nanoparticles containing various anticancer agents and tumour delivery by EPR effect

Residual polyvinyl alcohol associated with poly (d,l-lactide-co-glycolide) nanoparticles affects their physical properties and cellular uptake

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