Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling

Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling

Abstract Background In the quest for new anti-cancer drugs, the drug discovery process has shifted to screening of active ingredients in traditional eastern medicine. Matrine is an active alkaloid isolated from plants of the Sophora genus used in traditional Chinese herbal medicine that exhibits a w...

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Main Authors: Yuming Zou, Melika Sarem, Shengnan Xiang, Honggang Hu, Weidong Xu, V. Prasad Shastri
Format: Article
Language:English
Published: BMC 2019-10-01
Series:BMC Cancer
Subjects:
Matrine
Matrine derivate
Autophagy
Apoptosis
Anti-cancer
Reactive oxygen species
Online Access:http://link.springer.com/article/10.1186/s12885-019-6199-7
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spelling doaj-a0442757fa1a42dfa1f73d93ae5131712020-11-25T03:50:45ZengBMCBMC Cancer1471-24072019-10-0119111210.1186/s12885-019-6199-7Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signalingYuming Zou0Melika Sarem1Shengnan Xiang2Honggang Hu3Weidong Xu4V. Prasad Shastri5Institute for Macromolecular Chemistry, University of FreiburgInstitute for Macromolecular Chemistry, University of FreiburgInstitute for Macromolecular Chemistry, University of FreiburgDepartment of Organic Chemistry, School of Pharmacy, Second Military Medical UniversityDepartment of Orthopaedics, Changhai hospital, Second Military Medical UniversityInstitute for Macromolecular Chemistry, University of FreiburgAbstract Background In the quest for new anti-cancer drugs, the drug discovery process has shifted to screening of active ingredients in traditional eastern medicine. Matrine is an active alkaloid isolated from plants of the Sophora genus used in traditional Chinese herbal medicine that exhibits a wide spectrum of biological properties and has a potential as an anti-proliferative agent. In this study, we investigated the anticancer property of MASM, ([(6aS, 10S, 11aR, 11bR, 11cS)210-Methylamino-dodecahydro-3a, 7a-diaza-benzo (de)anthracene-8-thione]), a potent derivative of matrine. Methods Four epithelial cancer cell lines representing the dominant cancers, namely: A549 (non-small-cell lung cancer cell line), MCF-7 and MDA-MB-231 (breast cancer cell lines), and Hela (cervical cancer cell line) were employed, and the mechanistic underpinning of MASM-induced apoptosis was investigated using flow cytometry, western blot and immunofluorescence. Results MASM, induced apoptosis via caspase 3 dependent and independent pathways, and autophagy in all the four cancer cell lines, but post-EMT (epithelial mesenchymal transition) cells showed greater sensitivity to MASM. Scavenging reactive oxygen species using N-acetylcysteine rescued all cancer cell lines from apoptosis and autophagy. Mechanistic analysis revealed that MASM induced autophagy involves inhibition of Akt signaling and the activation of Erk and p38 signaling, and inhibition of autophagy further enhanced the apoptosis induced by MASM. Conclusions These results indicate that MASM possesses potency against cancer cells and modulating autophagy during MASM administration could be used to further enhance its therapeutic effects.http://link.springer.com/article/10.1186/s12885-019-6199-7MatrineMatrine derivateAutophagyApoptosisAnti-cancerReactive oxygen species
collection DOAJ
language English
format Article
sources DOAJ
author Yuming Zou
Melika Sarem
Shengnan Xiang
Honggang Hu
Weidong Xu
V. Prasad Shastri
spellingShingle Yuming Zou
Melika Sarem
Shengnan Xiang
Honggang Hu
Weidong Xu
V. Prasad Shastri
Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling
BMC Cancer
Matrine
Matrine derivate
Autophagy
Apoptosis
Anti-cancer
Reactive oxygen species
author_facet Yuming Zou
Melika Sarem
Shengnan Xiang
Honggang Hu
Weidong Xu
V. Prasad Shastri
author_sort Yuming Zou
title Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling
title_short Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling
title_full Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling
title_fullStr Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling
title_full_unstemmed Autophagy inhibition enhances Matrine derivative MASM induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated PI3K/Akt/mTOR and Erk/p38 signaling
title_sort autophagy inhibition enhances matrine derivative masm induced apoptosis in cancer cells via a mechanism involving reactive oxygen species-mediated pi3k/akt/mtor and erk/p38 signaling
publisher BMC
series BMC Cancer
issn 1471-2407
publishDate 2019-10-01
description Abstract Background In the quest for new anti-cancer drugs, the drug discovery process has shifted to screening of active ingredients in traditional eastern medicine. Matrine is an active alkaloid isolated from plants of the Sophora genus used in traditional Chinese herbal medicine that exhibits a wide spectrum of biological properties and has a potential as an anti-proliferative agent. In this study, we investigated the anticancer property of MASM, ([(6aS, 10S, 11aR, 11bR, 11cS)210-Methylamino-dodecahydro-3a, 7a-diaza-benzo (de)anthracene-8-thione]), a potent derivative of matrine. Methods Four epithelial cancer cell lines representing the dominant cancers, namely: A549 (non-small-cell lung cancer cell line), MCF-7 and MDA-MB-231 (breast cancer cell lines), and Hela (cervical cancer cell line) were employed, and the mechanistic underpinning of MASM-induced apoptosis was investigated using flow cytometry, western blot and immunofluorescence. Results MASM, induced apoptosis via caspase 3 dependent and independent pathways, and autophagy in all the four cancer cell lines, but post-EMT (epithelial mesenchymal transition) cells showed greater sensitivity to MASM. Scavenging reactive oxygen species using N-acetylcysteine rescued all cancer cell lines from apoptosis and autophagy. Mechanistic analysis revealed that MASM induced autophagy involves inhibition of Akt signaling and the activation of Erk and p38 signaling, and inhibition of autophagy further enhanced the apoptosis induced by MASM. Conclusions These results indicate that MASM possesses potency against cancer cells and modulating autophagy during MASM administration could be used to further enhance its therapeutic effects.
topic Matrine
Matrine derivate
Autophagy
Apoptosis
Anti-cancer
Reactive oxygen species
url http://link.springer.com/article/10.1186/s12885-019-6199-7
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AT melikasarem autophagyinhibitionenhancesmatrinederivativemasminducedapoptosisincancercellsviaamechanisminvolvingreactiveoxygenspeciesmediatedpi3kaktmtoranderkp38signaling
AT shengnanxiang autophagyinhibitionenhancesmatrinederivativemasminducedapoptosisincancercellsviaamechanisminvolvingreactiveoxygenspeciesmediatedpi3kaktmtoranderkp38signaling
AT hongganghu autophagyinhibitionenhancesmatrinederivativemasminducedapoptosisincancercellsviaamechanisminvolvingreactiveoxygenspeciesmediatedpi3kaktmtoranderkp38signaling
AT weidongxu autophagyinhibitionenhancesmatrinederivativemasminducedapoptosisincancercellsviaamechanisminvolvingreactiveoxygenspeciesmediatedpi3kaktmtoranderkp38signaling
AT vprasadshastri autophagyinhibitionenhancesmatrinederivativemasminducedapoptosisincancercellsviaamechanisminvolvingreactiveoxygenspeciesmediatedpi3kaktmtoranderkp38signaling
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