Tumor-Targeting Micelles Based on Linear–Dendritic PEG–PTX8 Conjugate for Triple Negative Breast Cancer Therapy

Most small molecular chemotherapeutics have poor water solubility and unexpected pharmacokinetics and toxicity to normal tissues. A series of nano drug delivery systems have been developed to solve the problems, among which a micelle based on linear–dendritic polymer–drug conjugates (LDPDCs) is a pr...

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Veröffentlicht in:	Molecular pharmaceutics 2017-10, Vol.14 (10), p.3409-3421
Hauptverfasser:	Zhang, Yujie, Lu, Yifei, Zhang, Yu, He, Xi, Chen, Qinjun, Liu, Lisha, Chen, Xinli, Ruan, Chunhui, Sun, Tao, Jiang, Chen
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container_title	Molecular pharmaceutics
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creator	Zhang, Yujie Lu, Yifei Zhang, Yu He, Xi Chen, Qinjun Liu, Lisha Chen, Xinli Ruan, Chunhui Sun, Tao Jiang, Chen
description	Most small molecular chemotherapeutics have poor water solubility and unexpected pharmacokinetics and toxicity to normal tissues. A series of nano drug delivery systems have been developed to solve the problems, among which a micelle based on linear–dendritic polymer–drug conjugates (LDPDCs) is a promising strategy to deliver hydrophobic chemotherapeutics due to its small size, fine stability in blood circulation, and high drug loading capacity. In this work we synthesized a novel amphiphilic linear–dendritic PEG–PTX8 conjugate which can also encapsulate extra free PTX and self-assemble into uniform ultrasmall micelles with a hydrated diameter of 25.50 ± 0.27 nm. To realize efficient drug delivery to tumor sites, a cyclic tumor homing and penetrating peptide iNGR was linked to the PEG–PTX8 conjugate. The biological evaluation was performed on a human triple negative breast cancer model. PTX accumulation in tumor at 24 h of the TNBC-bearing mice treated with iNGR–PEG–PTX8/PTX micelles was significantly enhanced (P < 0.001, two-way ANOVA) compared to that of Taxol and untargeted MeO–PEG–PTX8/PTX micelles. Furthermore, iNGR–PEG–PTX8/PTX micelles showed an obvious strong antitumor effect, and the median survival time of TNBC bearing mice treated with iNGR-modified micelles was significantly extended compared to Taxol. Therefore, this smart micelle system may be a favorable platform for effective TNBC therapy.
doi_str_mv	10.1021/acs.molpharmaceut.7b00430
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A series of nano drug delivery systems have been developed to solve the problems, among which a micelle based on linear–dendritic polymer–drug conjugates (LDPDCs) is a promising strategy to deliver hydrophobic chemotherapeutics due to its small size, fine stability in blood circulation, and high drug loading capacity. In this work we synthesized a novel amphiphilic linear–dendritic PEG–PTX8 conjugate which can also encapsulate extra free PTX and self-assemble into uniform ultrasmall micelles with a hydrated diameter of 25.50 ± 0.27 nm. To realize efficient drug delivery to tumor sites, a cyclic tumor homing and penetrating peptide iNGR was linked to the PEG–PTX8 conjugate. The biological evaluation was performed on a human triple negative breast cancer model. PTX accumulation in tumor at 24 h of the TNBC-bearing mice treated with iNGR–PEG–PTX8/PTX micelles was significantly enhanced (P < 0.001, two-way ANOVA) compared to that of Taxol and untargeted MeO–PEG–PTX8/PTX micelles. Furthermore, iNGR–PEG–PTX8/PTX micelles showed an obvious strong antitumor effect, and the median survival time of TNBC bearing mice treated with iNGR-modified micelles was significantly extended compared to Taxol. 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Pharmaceutics</addtitle><description>Most small molecular chemotherapeutics have poor water solubility and unexpected pharmacokinetics and toxicity to normal tissues. A series of nano drug delivery systems have been developed to solve the problems, among which a micelle based on linear–dendritic polymer–drug conjugates (LDPDCs) is a promising strategy to deliver hydrophobic chemotherapeutics due to its small size, fine stability in blood circulation, and high drug loading capacity. In this work we synthesized a novel amphiphilic linear–dendritic PEG–PTX8 conjugate which can also encapsulate extra free PTX and self-assemble into uniform ultrasmall micelles with a hydrated diameter of 25.50 ± 0.27 nm. To realize efficient drug delivery to tumor sites, a cyclic tumor homing and penetrating peptide iNGR was linked to the PEG–PTX8 conjugate. The biological evaluation was performed on a human triple negative breast cancer model. 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Pharmaceutics</addtitle><date>2017-10-02</date><risdate>2017</risdate><volume>14</volume><issue>10</issue><spage>3409</spage><epage>3421</epage><pages>3409-3421</pages><issn>1543-8384</issn><eissn>1543-8392</eissn><abstract>Most small molecular chemotherapeutics have poor water solubility and unexpected pharmacokinetics and toxicity to normal tissues. A series of nano drug delivery systems have been developed to solve the problems, among which a micelle based on linear–dendritic polymer–drug conjugates (LDPDCs) is a promising strategy to deliver hydrophobic chemotherapeutics due to its small size, fine stability in blood circulation, and high drug loading capacity. In this work we synthesized a novel amphiphilic linear–dendritic PEG–PTX8 conjugate which can also encapsulate extra free PTX and self-assemble into uniform ultrasmall micelles with a hydrated diameter of 25.50 ± 0.27 nm. To realize efficient drug delivery to tumor sites, a cyclic tumor homing and penetrating peptide iNGR was linked to the PEG–PTX8 conjugate. The biological evaluation was performed on a human triple negative breast cancer model. PTX accumulation in tumor at 24 h of the TNBC-bearing mice treated with iNGR–PEG–PTX8/PTX micelles was significantly enhanced (P < 0.001, two-way ANOVA) compared to that of Taxol and untargeted MeO–PEG–PTX8/PTX micelles. Furthermore, iNGR–PEG–PTX8/PTX micelles showed an obvious strong antitumor effect, and the median survival time of TNBC bearing mice treated with iNGR-modified micelles was significantly extended compared to Taxol. Therefore, this smart micelle system may be a favorable platform for effective TNBC therapy.</abstract><pub>American Chemical Society</pub><doi>10.1021/acs.molpharmaceut.7b00430</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-4833-9121</orcidid></addata></record>
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title	Tumor-Targeting Micelles Based on Linear–Dendritic PEG–PTX8 Conjugate for Triple Negative Breast Cancer Therapy
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