A Comment on “Variability in the Origin of the Obturator Artery”

Aim: pH-sensitive liposomes (pSL) have emerged as promising nanocarriers due to their endo/lysosome-escape abilities, however, their pH sensitivity is compromised by poly(ethylene glycol) (PEG) coating. This study investigates whether an intracellular PEG-detachment strategy can overcome this PEG dilemma. Materials & methods: First, PEG2000 was conjugated with a phospholipid via an acid-labile hydrazide–hydrazone bond (–CO–NH–N = CH–), which was postinserted into pSL, forming PEG-cleavable pSL (CL-PEG-pSL). Their endo/lysosomal-escape abilities in MIA PaCa-2 cells, pharmacokinetics and tumor accumulation abilities were studied using PEG-pSL as reference. Results: CL-PEG-pSL showed rapid endo/lysosome-escape abilities in the cancer cells and higher tumor accumulation in MIA PaCa-2 xenograft model in contrast to PEG-pSL. Conclusion: Cleavable PEGylation is an efficient strategy to ameliorate the PEG dilemma of pSL for cancer drug delivery.

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PEG-Benzaldehyde-Hydrazone-Lipid Based PEG-Sheddable pH-Sensitive Liposomes: Abilities for Endosomal Escape and Long Circulation

Kanamala

Palmer

Ghandehari

et al. 2018

Pharm Res

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Characterization of a smart pH-cleavable PEG polymer towards the development of dual pH-sensitive liposomes

Kanamala

Palmer

Wilson

et al. 2018

International Journal of Pharmaceutics

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Manju Kanamala

Mechanisms and biomaterials in pH-responsive tumour targeted drug delivery: A review

Dual pH-Sensitive Liposomes with Low pH-triggered Sheddable PEG for Enhanced Tumor-Targeted Drug Delivery

PEG-Benzaldehyde-Hydrazone-Lipid Based PEG-Sheddable pH-Sensitive Liposomes: Abilities for Endosomal Escape and Long Circulation

Characterization of a smart pH-cleavable PEG polymer towards the development of dual pH-sensitive liposomes

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