Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism

Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism

Abstract Increased glutamine uptake toward the elevated glutaminolysis is one of the hallmarks of tumour cells. This aberrant glutamine metabolism has recently attracted considerable attention as a diagnostic and therapeutic target. Herein, we developed glutamine-functionalized polymer to achieve a...

Full description

Bibliographic Details
Main Authors: Naoki Yamada, Yuto Honda, Hiroyasu Takemoto, Takahiro Nomoto, Makoto Matsui, Keishiro Tomoda, Masamitsu Konno, Hideshi Ishii, Masaki Mori, Nobuhiro Nishiyama
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-06438-y
id doaj-665b0b3bab784948b6418dbdebcd15fb
record_format Article
spelling doaj-665b0b3bab784948b6418dbdebcd15fb2020-12-08T01:29:12ZengNature Publishing GroupScientific Reports2045-23222017-07-017111010.1038/s41598-017-06438-yEngineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine MetabolismNaoki Yamada0Yuto Honda1Hiroyasu Takemoto2Takahiro Nomoto3Makoto Matsui4Keishiro Tomoda5Masamitsu Konno6Hideshi Ishii7Masaki Mori8Nobuhiro Nishiyama9Laboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyLaboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyLaboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyLaboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyLaboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyLaboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyGraduate School of Medicine, Department of Gastroenterological Surgery, Osaka UniversityGraduate School of Medicine, Department of Gastroenterological Surgery, Osaka UniversityGraduate School of Medicine, Department of Gastroenterological Surgery, Osaka UniversityLaboratory for Chemistry and Life Science, Institute of Innovative Research, Tokyo Institute of TechnologyAbstract Increased glutamine uptake toward the elevated glutaminolysis is one of the hallmarks of tumour cells. This aberrant glutamine metabolism has recently attracted considerable attention as a diagnostic and therapeutic target. Herein, we developed glutamine-functionalized polymer to achieve a selective high affinity to tumour cells overexpressing glutaminolysis-related transporter ASCT2. In in vitro study, our developed polymer exhibited faster and higher cellular uptake in tumour cells than that in normal cells. Uptake inhibition study revealed the dominant contribution of ASCT2 to the polymer-cell interaction. Furthermore, the binding affinity of the polymer to tumour cells was estimated to be comparable to that of the potent ligand molecules reported in the literature. In in vivo study, the polymer showed prolonged retention at tumour site after intratumoral injection. This study offers a novel approach for designing tumour cell-binding synthetic polymers through the recognition of dense transporters related to tumour-associated metabolism.https://doi.org/10.1038/s41598-017-06438-y
collection DOAJ
language English
format Article
sources DOAJ
author Naoki Yamada
Yuto Honda
Hiroyasu Takemoto
Takahiro Nomoto
Makoto Matsui
Keishiro Tomoda
Masamitsu Konno
Hideshi Ishii
Masaki Mori
Nobuhiro Nishiyama
spellingShingle Naoki Yamada
Yuto Honda
Hiroyasu Takemoto
Takahiro Nomoto
Makoto Matsui
Keishiro Tomoda
Masamitsu Konno
Hideshi Ishii
Masaki Mori
Nobuhiro Nishiyama
Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism
Scientific Reports
author_facet Naoki Yamada
Yuto Honda
Hiroyasu Takemoto
Takahiro Nomoto
Makoto Matsui
Keishiro Tomoda
Masamitsu Konno
Hideshi Ishii
Masaki Mori
Nobuhiro Nishiyama
author_sort Naoki Yamada
title Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism
title_short Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism
title_full Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism
title_fullStr Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism
title_full_unstemmed Engineering Tumour Cell-Binding Synthetic Polymers with Sensing Dense Transporters Associated with Aberrant Glutamine Metabolism
title_sort engineering tumour cell-binding synthetic polymers with sensing dense transporters associated with aberrant glutamine metabolism
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract Increased glutamine uptake toward the elevated glutaminolysis is one of the hallmarks of tumour cells. This aberrant glutamine metabolism has recently attracted considerable attention as a diagnostic and therapeutic target. Herein, we developed glutamine-functionalized polymer to achieve a selective high affinity to tumour cells overexpressing glutaminolysis-related transporter ASCT2. In in vitro study, our developed polymer exhibited faster and higher cellular uptake in tumour cells than that in normal cells. Uptake inhibition study revealed the dominant contribution of ASCT2 to the polymer-cell interaction. Furthermore, the binding affinity of the polymer to tumour cells was estimated to be comparable to that of the potent ligand molecules reported in the literature. In in vivo study, the polymer showed prolonged retention at tumour site after intratumoral injection. This study offers a novel approach for designing tumour cell-binding synthetic polymers through the recognition of dense transporters related to tumour-associated metabolism.
url https://doi.org/10.1038/s41598-017-06438-y
work_keys_str_mv AT naokiyamada engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT yutohonda engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT hiroyasutakemoto engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT takahironomoto engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT makotomatsui engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT keishirotomoda engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT masamitsukonno engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT hideshiishii engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT masakimori engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
AT nobuhironishiyama engineeringtumourcellbindingsyntheticpolymerswithsensingdensetransportersassociatedwithaberrantglutaminemetabolism
_version_ 1724394780996141056

Similar Items