Nullifying tumor efflux by prolonged endolysosome vesicles: Development of low dose anticancer-carbon nanotube drug

Yeon Kyung Lee; Jungil Choi; Wenping Wang; Soyoung Lee; Tae Hyun Nam; Wan Sung Choi; Chang Joon Kim; Jong Kwon Lee; Sang Hyun Kim; Sang Soo Kang; Dongwoo Khang

doi:10.1021/nn4041206

Nullifying tumor efflux by prolonged endolysosome vesicles: Development of low dose anticancer-carbon nanotube drug

Yeon Kyung Lee
, Jungil Choi
, Wenping Wang
, Soyoung Lee
, Tae Hyun Nam
, Wan Sung Choi
, Chang Joon Kim
, Jong Kwon Lee
, Sang Hyun Kim
, Sang Soo Kang
, Dongwoo Khang

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

As the majority of side effects of current chemotherapies stems from toxicity due to excessive dosing of anticancer drugs, minimizing the amount of drug while maximizing drug efficacy is essential to increase the life-quality of chemotherapy patients. This study demonstrated that the intracellular delivery of amide linked doxorubicin on carbon nanotube can nullify the efflux of cancer cells by achieving prolonged endolysosome delivery and can induce burst release of doxorubicin in an acidic hydrolase environment and, ultimately, can reduce the amount of anticancer drug by 10-fold compared to conventional effective drug dose. The clearance of accumulated carbon nanotubes in the liver was observed after 4 weeks, and analysis of liver toxicity markers showed no significant changes in GOT and GPT levels and release of pro-inflammatory cytokines across both short-and long-term periods.

Original language	English
Pages (from-to)	8484-8497
Number of pages	14
Journal	ACS Nano
Volume	7
Issue number	10
DOIs	https://doi.org/10.1021/nn4041206
State	Published - 22 Oct 2013

Keywords

amide covalent conjugation
anticancer drug
carbon nanotube
doxorubicin
endolysosome delivery
liver toxicity

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1021/nn4041206

Cite this

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title = "Nullifying tumor efflux by prolonged endolysosome vesicles: Development of low dose anticancer-carbon nanotube drug",

abstract = "As the majority of side effects of current chemotherapies stems from toxicity due to excessive dosing of anticancer drugs, minimizing the amount of drug while maximizing drug efficacy is essential to increase the life-quality of chemotherapy patients. This study demonstrated that the intracellular delivery of amide linked doxorubicin on carbon nanotube can nullify the efflux of cancer cells by achieving prolonged endolysosome delivery and can induce burst release of doxorubicin in an acidic hydrolase environment and, ultimately, can reduce the amount of anticancer drug by 10-fold compared to conventional effective drug dose. The clearance of accumulated carbon nanotubes in the liver was observed after 4 weeks, and analysis of liver toxicity markers showed no significant changes in GOT and GPT levels and release of pro-inflammatory cytokines across both short-and long-term periods.",

keywords = "amide covalent conjugation, anticancer drug, carbon nanotube, doxorubicin, endolysosome delivery, liver toxicity",

author = "Lee, \{Yeon Kyung\} and Jungil Choi and Wenping Wang and Soyoung Lee and Nam, \{Tae Hyun\} and Choi, \{Wan Sung\} and Kim, \{Chang Joon\} and Lee, \{Jong Kwon\} and Kim, \{Sang Hyun\} and Kang, \{Sang Soo\} and Dongwoo Khang",

year = "2013",

month = oct,

day = "22",

doi = "10.1021/nn4041206",

language = "English",

volume = "7",

pages = "8484--8497",

journal = "ACS Nano",

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publisher = "American Chemical Society",

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}

TY - JOUR

T1 - Nullifying tumor efflux by prolonged endolysosome vesicles

T2 - Development of low dose anticancer-carbon nanotube drug

AU - Lee, Yeon Kyung

AU - Choi, Jungil

AU - Wang, Wenping

AU - Lee, Soyoung

AU - Nam, Tae Hyun

AU - Choi, Wan Sung

AU - Kim, Chang Joon

AU - Lee, Jong Kwon

AU - Kim, Sang Hyun

AU - Kang, Sang Soo

AU - Khang, Dongwoo

PY - 2013/10/22

Y1 - 2013/10/22

N2 - As the majority of side effects of current chemotherapies stems from toxicity due to excessive dosing of anticancer drugs, minimizing the amount of drug while maximizing drug efficacy is essential to increase the life-quality of chemotherapy patients. This study demonstrated that the intracellular delivery of amide linked doxorubicin on carbon nanotube can nullify the efflux of cancer cells by achieving prolonged endolysosome delivery and can induce burst release of doxorubicin in an acidic hydrolase environment and, ultimately, can reduce the amount of anticancer drug by 10-fold compared to conventional effective drug dose. The clearance of accumulated carbon nanotubes in the liver was observed after 4 weeks, and analysis of liver toxicity markers showed no significant changes in GOT and GPT levels and release of pro-inflammatory cytokines across both short-and long-term periods.

AB - As the majority of side effects of current chemotherapies stems from toxicity due to excessive dosing of anticancer drugs, minimizing the amount of drug while maximizing drug efficacy is essential to increase the life-quality of chemotherapy patients. This study demonstrated that the intracellular delivery of amide linked doxorubicin on carbon nanotube can nullify the efflux of cancer cells by achieving prolonged endolysosome delivery and can induce burst release of doxorubicin in an acidic hydrolase environment and, ultimately, can reduce the amount of anticancer drug by 10-fold compared to conventional effective drug dose. The clearance of accumulated carbon nanotubes in the liver was observed after 4 weeks, and analysis of liver toxicity markers showed no significant changes in GOT and GPT levels and release of pro-inflammatory cytokines across both short-and long-term periods.

KW - amide covalent conjugation

KW - anticancer drug

KW - carbon nanotube

KW - doxorubicin

KW - endolysosome delivery

KW - liver toxicity

UR - https://www.scopus.com/pages/publications/84887010883

U2 - 10.1021/nn4041206

DO - 10.1021/nn4041206

M3 - Article

C2 - 24028581

AN - SCOPUS:84887010883

SN - 1936-0851

VL - 7

SP - 8484

EP - 8497

JO - ACS Nano

JF - ACS Nano

IS - 10

ER -

Nullifying tumor efflux by prolonged endolysosome vesicles: Development of low dose anticancer-carbon nanotube drug

Abstract

Keywords

UN SDGs

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