Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation

Although the encapsulation of paclitaxel into liposomes has been extensively studied, its significant hydrophobic and uncharged character has generated substantial difficulties concerning its efficient encapsulation into the inner water core of liposomes. We found that a more hydrophilic paclitaxel...

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Autores principales: Shigehiro, Tsukasa, Kasai, Tomonari, Murakami, Masaharu, Sekhar, Sreeja C., Tominaga, Yuki, Okada, Masashi, Kudoh, Takayuki, Mizutani, Akifumi, Murakami, Hiroshi, Salomon, David S., Mikuni, Katsuhiko, Mandai, Tadakatsu, Hamada, Hiroki, Seno, Masaharu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4180071/
https://www.ncbi.nlm.nih.gov/pubmed/25264848
http://dx.doi.org/10.1371/journal.pone.0107976
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author Shigehiro, Tsukasa
Kasai, Tomonari
Murakami, Masaharu
Sekhar, Sreeja C.
Tominaga, Yuki
Okada, Masashi
Kudoh, Takayuki
Mizutani, Akifumi
Murakami, Hiroshi
Salomon, David S.
Mikuni, Katsuhiko
Mandai, Tadakatsu
Hamada, Hiroki
Seno, Masaharu
author_facet Shigehiro, Tsukasa
Kasai, Tomonari
Murakami, Masaharu
Sekhar, Sreeja C.
Tominaga, Yuki
Okada, Masashi
Kudoh, Takayuki
Mizutani, Akifumi
Murakami, Hiroshi
Salomon, David S.
Mikuni, Katsuhiko
Mandai, Tadakatsu
Hamada, Hiroki
Seno, Masaharu
author_sort Shigehiro, Tsukasa
collection PubMed
description Although the encapsulation of paclitaxel into liposomes has been extensively studied, its significant hydrophobic and uncharged character has generated substantial difficulties concerning its efficient encapsulation into the inner water core of liposomes. We found that a more hydrophilic paclitaxel molecule, 7-glucosyloxyacetylpaclitaxel, retained tubulin polymerization stabilization activity. The hydrophilic nature of 7-glucosyloxyacetylpaclitaxel allowed its efficient encapsulation into the inner water core of liposomes, which was successfully accomplished using a remote loading method with a solubility gradient between 40% ethylene glycol and Cremophor EL/ethanol in PBS. Trastuzumab was then conjugated onto the surface of liposomes as immunoliposomes to selectively target human epidermal growth factor receptor-2 (HER2)-overexpressing cancer cells. In vitro cytotoxicity assays revealed that the immunoliposomes enhanced the toxicity of 7-glucosyloxyacetylpaclitaxel in HER2-overexpressing cancer cells and showed more rapid suppression of cell growth. The immunoliposomes strongly inhibited the tumor growth of HT-29 cells xenografted in nude mice. Notably, mice survived when treated with the immunoliposomes formulation, even when administered at a lethal dose of 7-glucosyloxyacetylpaclitaxel in vivo. This data successfully demonstrates immunoliposomes as a promising candidate for the efficient delivery of paclitaxel glycoside.
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spelling pubmed-41800712014-10-07 Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation Shigehiro, Tsukasa Kasai, Tomonari Murakami, Masaharu Sekhar, Sreeja C. Tominaga, Yuki Okada, Masashi Kudoh, Takayuki Mizutani, Akifumi Murakami, Hiroshi Salomon, David S. Mikuni, Katsuhiko Mandai, Tadakatsu Hamada, Hiroki Seno, Masaharu PLoS One Research Article Although the encapsulation of paclitaxel into liposomes has been extensively studied, its significant hydrophobic and uncharged character has generated substantial difficulties concerning its efficient encapsulation into the inner water core of liposomes. We found that a more hydrophilic paclitaxel molecule, 7-glucosyloxyacetylpaclitaxel, retained tubulin polymerization stabilization activity. The hydrophilic nature of 7-glucosyloxyacetylpaclitaxel allowed its efficient encapsulation into the inner water core of liposomes, which was successfully accomplished using a remote loading method with a solubility gradient between 40% ethylene glycol and Cremophor EL/ethanol in PBS. Trastuzumab was then conjugated onto the surface of liposomes as immunoliposomes to selectively target human epidermal growth factor receptor-2 (HER2)-overexpressing cancer cells. In vitro cytotoxicity assays revealed that the immunoliposomes enhanced the toxicity of 7-glucosyloxyacetylpaclitaxel in HER2-overexpressing cancer cells and showed more rapid suppression of cell growth. The immunoliposomes strongly inhibited the tumor growth of HT-29 cells xenografted in nude mice. Notably, mice survived when treated with the immunoliposomes formulation, even when administered at a lethal dose of 7-glucosyloxyacetylpaclitaxel in vivo. This data successfully demonstrates immunoliposomes as a promising candidate for the efficient delivery of paclitaxel glycoside. Public Library of Science 2014-09-29 /pmc/articles/PMC4180071/ /pubmed/25264848 http://dx.doi.org/10.1371/journal.pone.0107976 Text en https://creativecommons.org/publicdomain/zero/1.0/ This is an open-access article distributed under the terms of the Creative Commons Public Domain declaration, which stipulates that, once placed in the public domain, this work may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose.
spellingShingle Research Article
Shigehiro, Tsukasa
Kasai, Tomonari
Murakami, Masaharu
Sekhar, Sreeja C.
Tominaga, Yuki
Okada, Masashi
Kudoh, Takayuki
Mizutani, Akifumi
Murakami, Hiroshi
Salomon, David S.
Mikuni, Katsuhiko
Mandai, Tadakatsu
Hamada, Hiroki
Seno, Masaharu
Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation
title Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation
title_full Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation
title_fullStr Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation
title_full_unstemmed Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation
title_short Efficient Drug Delivery of Paclitaxel Glycoside: A Novel Solubility Gradient Encapsulation into Liposomes Coupled with Immunoliposomes Preparation
title_sort efficient drug delivery of paclitaxel glycoside: a novel solubility gradient encapsulation into liposomes coupled with immunoliposomes preparation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4180071/
https://www.ncbi.nlm.nih.gov/pubmed/25264848
http://dx.doi.org/10.1371/journal.pone.0107976
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