Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide

Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide

Lung cancer is a major cause of cancer-related deaths worldwide. Stimulus-sensitive hydrogels, which can be formed by responding to stimuli in the cancer microenvironment, have been widely studied as controlled-release carriers for hydrophobic anticancer drugs. In this study, self-assembling peptide...

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Main Authors: Weipeng Wei, Jianhua Tang, Lei Hu, Yujie Feng, Hongfang Li, Chengchen Yin, Fushan Tang
Format: Article
Language:English
Published: Taylor & Francis Group 2021-01-01
Series:Drug Delivery
Subjects:
self-assembling peptide rada16-i
in situ hydrogels
emodin
cancer therapy
drug delivery system
Online Access:http://dx.doi.org/10.1080/10717544.2021.1971795
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spelling doaj-c1705f9d2f2d4b569e54978528b7c0ec2021-09-06T13:15:30ZengTaylor & Francis GroupDrug Delivery1071-75441521-04642021-01-012811810182110.1080/10717544.2021.19717951971795Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptideWeipeng Wei0Jianhua Tang1Lei Hu2Yujie Feng3Hongfang Li4Chengchen Yin5Fushan Tang6Department of Clinical Pharmacy, Key Laboratory of Basic Pharmacology of Guizhou Province and School of Pharmacy, Zunyi Medical UniversityCancer Research UK Manchester Institute, The University of ManchesterDepartment of Clinical Pharmacy, Key Laboratory of Basic Pharmacology of Guizhou Province and School of Pharmacy, Zunyi Medical UniversityDepartment of Clinical Pharmacy, Key Laboratory of Basic Pharmacology of Guizhou Province and School of Pharmacy, Zunyi Medical UniversityDepartment of Clinical Pharmacy, Key Laboratory of Basic Pharmacology of Guizhou Province and School of Pharmacy, Zunyi Medical UniversityDepartment of Clinical Pharmacy, Key Laboratory of Basic Pharmacology of Guizhou Province and School of Pharmacy, Zunyi Medical UniversityDepartment of Clinical Pharmacy, Key Laboratory of Basic Pharmacology of Guizhou Province and School of Pharmacy, Zunyi Medical UniversityLung cancer is a major cause of cancer-related deaths worldwide. Stimulus-sensitive hydrogels, which can be formed by responding to stimuli in the cancer microenvironment, have been widely studied as controlled-release carriers for hydrophobic anticancer drugs. In this study, self-assembling peptide RADA16-I was used to encapsulate the hydrophobic drug emodin (EM) under magnetic stirring to form a colloidal suspension, and the colloidal suspension (RADA16-I-EM) was introduced into environments with physiological pH/ionic strength to form hydrogels in situ. The results showed that RADA16-I had good cell compatibility and the RADA16-I-EM in situ hydrogels can obviously reduce the toxicity of EM to normal cells. In addition, compared with free EM (in water suspensions without peptide) at equivalent concentrations, RADA16-I-EM in situ hydrogels significantly reduced the survival fraction of LLC lung cancer cells, while increased the uptake of EM by the cells, and it also induced apoptosis and cell cycle arrest in the G2/M phase more significantly and reduced the migration, invasion, and clone abilities of the cells in vitro. The RADA16-I-EM in situ hydrogels also showed better cancer growth inhibition effects in cancer models (mice bearing LLC cells xenograft cancer), which induced cell apoptosis in the cancer tissue and reduced the toxic side effects of EM on normal tissues and organs in vivo compared with the free EM. It was revealed that RADA16-I can be exploited as a promising carrier for hydrophobic anticancer drugs and has the potential to improve the administration of anticancer drugs to treat cancer effectively with enhanced chemotherapy.http://dx.doi.org/10.1080/10717544.2021.1971795self-assembling peptide rada16-iin situ hydrogelsemodincancer therapydrug delivery system
collection DOAJ
language English
format Article
sources DOAJ
author Weipeng Wei
Jianhua Tang
Lei Hu
Yujie Feng
Hongfang Li
Chengchen Yin
Fushan Tang
spellingShingle Weipeng Wei
Jianhua Tang
Lei Hu
Yujie Feng
Hongfang Li
Chengchen Yin
Fushan Tang
Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
Drug Delivery
self-assembling peptide rada16-i
in situ hydrogels
emodin
cancer therapy
drug delivery system
author_facet Weipeng Wei
Jianhua Tang
Lei Hu
Yujie Feng
Hongfang Li
Chengchen Yin
Fushan Tang
author_sort Weipeng Wei
title Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
title_short Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
title_full Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
title_fullStr Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
title_full_unstemmed Experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
title_sort experimental anti-tumor effect of emodin in suspension – in situ hydrogels formed with self-assembling peptide
publisher Taylor & Francis Group
series Drug Delivery
issn 1071-7544
1521-0464
publishDate 2021-01-01
description Lung cancer is a major cause of cancer-related deaths worldwide. Stimulus-sensitive hydrogels, which can be formed by responding to stimuli in the cancer microenvironment, have been widely studied as controlled-release carriers for hydrophobic anticancer drugs. In this study, self-assembling peptide RADA16-I was used to encapsulate the hydrophobic drug emodin (EM) under magnetic stirring to form a colloidal suspension, and the colloidal suspension (RADA16-I-EM) was introduced into environments with physiological pH/ionic strength to form hydrogels in situ. The results showed that RADA16-I had good cell compatibility and the RADA16-I-EM in situ hydrogels can obviously reduce the toxicity of EM to normal cells. In addition, compared with free EM (in water suspensions without peptide) at equivalent concentrations, RADA16-I-EM in situ hydrogels significantly reduced the survival fraction of LLC lung cancer cells, while increased the uptake of EM by the cells, and it also induced apoptosis and cell cycle arrest in the G2/M phase more significantly and reduced the migration, invasion, and clone abilities of the cells in vitro. The RADA16-I-EM in situ hydrogels also showed better cancer growth inhibition effects in cancer models (mice bearing LLC cells xenograft cancer), which induced cell apoptosis in the cancer tissue and reduced the toxic side effects of EM on normal tissues and organs in vivo compared with the free EM. It was revealed that RADA16-I can be exploited as a promising carrier for hydrophobic anticancer drugs and has the potential to improve the administration of anticancer drugs to treat cancer effectively with enhanced chemotherapy.
topic self-assembling peptide rada16-i
in situ hydrogels
emodin
cancer therapy
drug delivery system
url http://dx.doi.org/10.1080/10717544.2021.1971795
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