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We began analyzing https://link.springer.com/article/10.1007/s12274-014-0619-4, but it redirected us to https://link.springer.com/article/10.1007/s12274-014-0619-4. The analysis below is for the second page.

Title[redir]:
Nucleolin targeting AS1411 aptamer modified pH-sensitive micelles for enhanced delivery and antitumor efficacy of paclitaxel | Nano Research
Description:
Targeted drug delivery coupled with rapid drug release in cytoplasm is a powerful strategy to enhance efficacy and reduce off-target effects of anti-cancer drugs. Herein, we describe a dual-functional mixed micellar system consisting of a pH-responsive copolymer D-Ξ±-tocopheryl polyethylene glycol 1000-blockpoly-(Ξ²-amino ester) (TPGS-b-PBAE, TP) and AS1411 aptamer (Apt) decorated TPGS polymer (Apt-TPGS), which recognizes the over-expressed nucleolin on the plasma membrane of cancer cells. The anti-cancer drug paclitaxel (PTX) was encapsulated in the Apt-mixed micelles, and these drug-loaded micelles had a suitable particle size and zeta potential of 116.3 nm Β± 12.4 nm and βˆ’26.2 mV Β±4.2 mV, respectively. PTX/Apt-mixed micelles were stable at pH 7.4, but they dissociated and quickly released the encapsulated PTX in a weakly acidic environment (pH 5.5). Compared with non-Apt modified mixed micelles, more Apt-modified mixed micelles were internalized in SKOV3 ovarian cancer cells, whereas no significant difference in cellular uptake was observed in normal cells (LO2 cells). The enhanced transmembrane ability of Apt-modified mixed micelles was achieved through Apt-nucleolin interaction. With a synergistic effect of cancer cell recognition and pH-sensitive drug release, we observed significantly increased cytotoxicity and G2/M phase arrest against SKOV3 cells by PTX/Apt-mixed micelles. Intravenous administration of PTX/Apt-mixed micelles for 16 days significantly increased tumor accumulation of PTX, inhibited tumor growth, and reduced myelosuppression on tumor-bearing mice compared with free PTX injection. Therefore, this dual-functional Apt-mixed micellar system is a promising drug delivery system for targeted cancer therapy.

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  • Education
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πŸ™οΈ Massive Traffic: 50M - 100M visitors per month


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Keywords {πŸ”}

article, google, scholar, drug, delivery, cancer, micelles, paclitaxel, chen, nanoparticles, zhang, phsensitive, anticancer, release, nano, targeting, wang, research, enhanced, system, tumor, res, aptamer, efficacy, targeted, drugs, polyethylene, ester, cells, jiang, control, privacy, cookies, content, modified, antitumor, mixed, pharm, rev, mol, publish, search, nucleolin, fang, glycol, ptx, ovarian, access, nanomedicine, progress,

Topics {βœ’οΈ}

andrographolide-loaded plga-peg-plga micelles folate-modified ph-sensitive micelles aptamer-functionalized peg-plga nanoparticles ph-sensitive biodegradable system g-rich oligonucleotide as1411 month download article/chapter apt-modified mixed micelles ph-sensitive drug release ph-sensitive system multifunctional envelope-type nanodevice g-quartet-forming oligonucleotides ptx/apt-mixed micelles nanoparticle-aptamer bioconjugates anti-cancer drug paclitaxel mechanism-based formulation strategy ph-sensitive poly taxol-induced apoptosis depends paclitaxel nano-delivery systems drug-loaded micelles ph-responsive nanoparticles as1411 aptamer apt-nucleolin interaction aptamer-functionalized liposomes related subjects apt-mixed micelles tumor cell targeting tumor-bearing mice compared biodegradable polymeric micelles ph-controlled activation privacy choices/manage cookies stimuli-responsive nanocarriers anti-cancer drugs 10-hydroxycamptothecin loaded nanoparticles paclitaxel-loaded nanosponges full article pdf paclitaxel-loaded poly cancer drug delivery tumor-targeted delivery cancer cell recognition chemotherapy-induced neutropenia chemotherapy-induced anemia drug encapsulation efficiency inhibited tumor growth tumor growth inhibition enhanced transmembrane ability overcoming multidrug resistance quality research polymeric anticancer drugs mixed micelles targeted cancer therapy

Schema {πŸ—ΊοΈ}

WebPage:
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         headline:Nucleolin targeting AS1411 aptamer modified pH-sensitive micelles for enhanced delivery and antitumor efficacy of paclitaxel
         description:Targeted drug delivery coupled with rapid drug release in cytoplasm is a powerful strategy to enhance efficacy and reduce off-target effects of anti-cancer drugs. Herein, we describe a dual-functional mixed micellar system consisting of a pH-responsive copolymer D-Ξ±-tocopheryl polyethylene glycol 1000-blockpoly-(Ξ²-amino ester) (TPGS-b-PBAE, TP) and AS1411 aptamer (Apt) decorated TPGS polymer (Apt-TPGS), which recognizes the over-expressed nucleolin on the plasma membrane of cancer cells. The anti-cancer drug paclitaxel (PTX) was encapsulated in the Apt-mixed micelles, and these drug-loaded micelles had a suitable particle size and zeta potential of 116.3 nm Β± 12.4 nm and βˆ’26.2 mV Β±4.2 mV, respectively. PTX/Apt-mixed micelles were stable at pH 7.4, but they dissociated and quickly released the encapsulated PTX in a weakly acidic environment (pH 5.5). Compared with non-Apt modified mixed micelles, more Apt-modified mixed micelles were internalized in SKOV3 ovarian cancer cells, whereas no significant difference in cellular uptake was observed in normal cells (LO2 cells). The enhanced transmembrane ability of Apt-modified mixed micelles was achieved through Apt-nucleolin interaction. With a synergistic effect of cancer cell recognition and pH-sensitive drug release, we observed significantly increased cytotoxicity and G2/M phase arrest against SKOV3 cells by PTX/Apt-mixed micelles. Intravenous administration of PTX/Apt-mixed micelles for 16 days significantly increased tumor accumulation of PTX, inhibited tumor growth, and reduced myelosuppression on tumor-bearing mice compared with free PTX injection. Therefore, this dual-functional Apt-mixed micellar system is a promising drug delivery system for targeted cancer therapy.
         datePublished:2015-01-03T00:00:00Z
         dateModified:2015-01-03T00:00:00Z
         pageStart:201
         pageEnd:218
         sameAs:https://doi.org/10.1007/s12274-014-0619-4
         keywords:
            AS1411 aptamer
            pH-sensitive
            micelles
            paclitaxel
            ovarian cancer
            Nanotechnology
            Materials Science
            general
            Atomic/Molecular Structure and Spectra
            Condensed Matter Physics
            Biotechnology
            Biomedicine
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            name:Nano Research
            issn:
               1998-0000
               1998-0124
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                        type:PostalAddress
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      headline:Nucleolin targeting AS1411 aptamer modified pH-sensitive micelles for enhanced delivery and antitumor efficacy of paclitaxel
      description:Targeted drug delivery coupled with rapid drug release in cytoplasm is a powerful strategy to enhance efficacy and reduce off-target effects of anti-cancer drugs. Herein, we describe a dual-functional mixed micellar system consisting of a pH-responsive copolymer D-Ξ±-tocopheryl polyethylene glycol 1000-blockpoly-(Ξ²-amino ester) (TPGS-b-PBAE, TP) and AS1411 aptamer (Apt) decorated TPGS polymer (Apt-TPGS), which recognizes the over-expressed nucleolin on the plasma membrane of cancer cells. The anti-cancer drug paclitaxel (PTX) was encapsulated in the Apt-mixed micelles, and these drug-loaded micelles had a suitable particle size and zeta potential of 116.3 nm Β± 12.4 nm and βˆ’26.2 mV Β±4.2 mV, respectively. PTX/Apt-mixed micelles were stable at pH 7.4, but they dissociated and quickly released the encapsulated PTX in a weakly acidic environment (pH 5.5). Compared with non-Apt modified mixed micelles, more Apt-modified mixed micelles were internalized in SKOV3 ovarian cancer cells, whereas no significant difference in cellular uptake was observed in normal cells (LO2 cells). The enhanced transmembrane ability of Apt-modified mixed micelles was achieved through Apt-nucleolin interaction. With a synergistic effect of cancer cell recognition and pH-sensitive drug release, we observed significantly increased cytotoxicity and G2/M phase arrest against SKOV3 cells by PTX/Apt-mixed micelles. Intravenous administration of PTX/Apt-mixed micelles for 16 days significantly increased tumor accumulation of PTX, inhibited tumor growth, and reduced myelosuppression on tumor-bearing mice compared with free PTX injection. Therefore, this dual-functional Apt-mixed micellar system is a promising drug delivery system for targeted cancer therapy.
      datePublished:2015-01-03T00:00:00Z
      dateModified:2015-01-03T00:00:00Z
      pageStart:201
      pageEnd:218
      sameAs:https://doi.org/10.1007/s12274-014-0619-4
      keywords:
         AS1411 aptamer
         pH-sensitive
         micelles
         paclitaxel
         ovarian cancer
         Nanotechnology
         Materials Science
         general
         Atomic/Molecular Structure and Spectra
         Condensed Matter Physics
         Biotechnology
         Biomedicine
      image:
         https://media.springernature.com/lw1200/springer-static/image/art%3A10.1007%2Fs12274-014-0619-4/MediaObjects/12274_2014_619_Fig1_HTML.gif
      isPartOf:
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            1998-0000
            1998-0124
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