2018
DOI: 10.1177/0883911517715658
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Acid-labile poly(ethylene glycol) shell of hydrazone-containing biodegradable polymeric micelles facilitating anticancer drug delivery

Abstract: Biodegradable pH-sensitive amphiphilic block polymer (mPEG-Hyde-PLGA) was synthesized via ring-opening polymerization, initiated from a hydrazone-containing macro-initiator. In this way, a pH-sensitive hydrazone bond was inserted into the backbone of block copolymer, linking hydrophilic poly(ethylene glycol) segment and hydrophobic poly(lactic-co-glycolic acid) segment. The copolymer self-assembled to form stable micelles with mean diameters below 100 nm and served as a drug delivery system for doxorubicin, wi… Show more

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Cited by 16 publications
(13 citation statements)
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“…We developed a FA-decorated and doxorubicin-conjugated polymeric micelle which exhibits enhanced nuclear delivery of doxorubicin (to its site of action) in FR-overexpressed cancer cells. Here, the doxorubicin is covalently bound with the hydrophobic part of the amphiphilic polymeric backbone via a hydrazone bond, which is particularly important to offer the chemical stability of the drug, protecting it from degradation and premature release, which extends the drug’s half-life, maintains its potency, and finally ensures its efficacy during the therapy process. Moreover, FA binds to FRs overexpressed on the cancer cells, leading to enhanced polymeric micelle internalization. ,, The entire chemical approach contributes to the generation of small DDS (30–40 nm diameter), which is the key to fostering their interaction with the target cells by facilitating the process of receptor–ligand interactions and bindings. After the endocytosis process, once the micelle is inside the endolysosomal compartment, it encounters an acidic pH.…”
Section: Discussionmentioning
confidence: 99%
“…We developed a FA-decorated and doxorubicin-conjugated polymeric micelle which exhibits enhanced nuclear delivery of doxorubicin (to its site of action) in FR-overexpressed cancer cells. Here, the doxorubicin is covalently bound with the hydrophobic part of the amphiphilic polymeric backbone via a hydrazone bond, which is particularly important to offer the chemical stability of the drug, protecting it from degradation and premature release, which extends the drug’s half-life, maintains its potency, and finally ensures its efficacy during the therapy process. Moreover, FA binds to FRs overexpressed on the cancer cells, leading to enhanced polymeric micelle internalization. ,, The entire chemical approach contributes to the generation of small DDS (30–40 nm diameter), which is the key to fostering their interaction with the target cells by facilitating the process of receptor–ligand interactions and bindings. After the endocytosis process, once the micelle is inside the endolysosomal compartment, it encounters an acidic pH.…”
Section: Discussionmentioning
confidence: 99%
“…Hydrazone is formed by condensation of aldehydes, ketones, or hydrazine. Similar to imine bonds, the hydrazone bonds are also a class of covalent bonds which are acidic responsive [43][44][45][46][47]. As hydrazone bonds are easily hydrolytic under acidic conditions, they have been widely utilized in the construction of acidic sensitive carriers for responsive formulations [48,49].…”
Section: Hydrazone Bondsmentioning
confidence: 99%
“…Acid-sensitive API carrier systems containing hydrazone, acetal, , orthoester, , or imine moieties have been developed and investigated. These molecular moieties are not easily chemically modified, which limits the possibilities to adjust and tailor the release kinetics of APIs.…”
Section: Introductionmentioning
confidence: 99%