The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy

Due to an increasing concern about radiation-induced cognitive deficits for brain tumor patients receiving radiation therapy, developing and evaluating countermeasures has become inevitable. Our previous study has found that minocycline, a clinical available antibiotics that can easily cross the blo...

Descripción completa

Detalles Bibliográficos
Autores principales: Zhang, Liyuan, Huang, Ping, Chen, Hui, Tan, Wen, Lu, Jiawei, Liu, Wei, Wang, Jingdong, Zhang, Shuyu, Zhu, Wei, Cao, Jianping, Tian, Ye, Yang, Hongying
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5703722/
https://www.ncbi.nlm.nih.gov/pubmed/29180765
http://dx.doi.org/10.1038/s41598-017-16693-8
_version_ 1783281735471988736
author Zhang, Liyuan
Huang, Ping
Chen, Hui
Tan, Wen
Lu, Jiawei
Liu, Wei
Wang, Jingdong
Zhang, Shuyu
Zhu, Wei
Cao, Jianping
Tian, Ye
Yang, Hongying
author_facet Zhang, Liyuan
Huang, Ping
Chen, Hui
Tan, Wen
Lu, Jiawei
Liu, Wei
Wang, Jingdong
Zhang, Shuyu
Zhu, Wei
Cao, Jianping
Tian, Ye
Yang, Hongying
author_sort Zhang, Liyuan
collection PubMed
description Due to an increasing concern about radiation-induced cognitive deficits for brain tumor patients receiving radiation therapy, developing and evaluating countermeasures has become inevitable. Our previous study has found that minocycline, a clinical available antibiotics that can easily cross the blood brain barrier, mitigates radiation-induced long-term memory loss in rats, accompanied by decreased hippocampal neuron apoptosis. Thus, in the present study, we report an unknown mechanism underlying the neuroprotective effect of minocycline. We demonstrated that minocycline prevented primary neurons from radiation-induced apoptosis and promoted radiation-induced autophagy in vitro. Moreover, using an immortalized mouse hippocampal neuronal cell line, HT22 cells, we found that the protective effect of minocycline on irradiated HT22 cells was not related to DNA damage repair since minocycline did not facilitate DNA DSB repair in irradiated HT22 cells. Further investigation showed that minocycline significantly enhanced X-irradiation-induced AMPKα1 activation and autophagy, thus resulting in decreased apoptosis. Additionally, although the antioxidant potential of minocycline might contribute to its apoptosis-inhibitory effect, it was not involved in its enhancive effect on radiation-induced AMPKα1-mediated autophagy. Taken together, we have revealed a novel mechanism for the protective effect of minocycline on irradiated neurons, e.g. minocycline protects neurons from radiation-induced apoptosis via enhancing radiation-induced AMPKα1-mediated autophagy.
format Online
Article
Text
id pubmed-5703722
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-57037222017-11-30 The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy Zhang, Liyuan Huang, Ping Chen, Hui Tan, Wen Lu, Jiawei Liu, Wei Wang, Jingdong Zhang, Shuyu Zhu, Wei Cao, Jianping Tian, Ye Yang, Hongying Sci Rep Article Due to an increasing concern about radiation-induced cognitive deficits for brain tumor patients receiving radiation therapy, developing and evaluating countermeasures has become inevitable. Our previous study has found that minocycline, a clinical available antibiotics that can easily cross the blood brain barrier, mitigates radiation-induced long-term memory loss in rats, accompanied by decreased hippocampal neuron apoptosis. Thus, in the present study, we report an unknown mechanism underlying the neuroprotective effect of minocycline. We demonstrated that minocycline prevented primary neurons from radiation-induced apoptosis and promoted radiation-induced autophagy in vitro. Moreover, using an immortalized mouse hippocampal neuronal cell line, HT22 cells, we found that the protective effect of minocycline on irradiated HT22 cells was not related to DNA damage repair since minocycline did not facilitate DNA DSB repair in irradiated HT22 cells. Further investigation showed that minocycline significantly enhanced X-irradiation-induced AMPKα1 activation and autophagy, thus resulting in decreased apoptosis. Additionally, although the antioxidant potential of minocycline might contribute to its apoptosis-inhibitory effect, it was not involved in its enhancive effect on radiation-induced AMPKα1-mediated autophagy. Taken together, we have revealed a novel mechanism for the protective effect of minocycline on irradiated neurons, e.g. minocycline protects neurons from radiation-induced apoptosis via enhancing radiation-induced AMPKα1-mediated autophagy. Nature Publishing Group UK 2017-11-27 /pmc/articles/PMC5703722/ /pubmed/29180765 http://dx.doi.org/10.1038/s41598-017-16693-8 Text en © The Author(s) 2017 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Zhang, Liyuan
Huang, Ping
Chen, Hui
Tan, Wen
Lu, Jiawei
Liu, Wei
Wang, Jingdong
Zhang, Shuyu
Zhu, Wei
Cao, Jianping
Tian, Ye
Yang, Hongying
The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy
title The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy
title_full The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy
title_fullStr The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy
title_full_unstemmed The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy
title_short The inhibitory effect of minocycline on radiation-induced neuronal apoptosis via AMPKα1 signaling-mediated autophagy
title_sort inhibitory effect of minocycline on radiation-induced neuronal apoptosis via ampkα1 signaling-mediated autophagy
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5703722/
https://www.ncbi.nlm.nih.gov/pubmed/29180765
http://dx.doi.org/10.1038/s41598-017-16693-8
work_keys_str_mv AT zhangliyuan theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT huangping theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT chenhui theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT tanwen theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT lujiawei theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT liuwei theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT wangjingdong theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT zhangshuyu theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT zhuwei theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT caojianping theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT tianye theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT yanghongying theinhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT zhangliyuan inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT huangping inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT chenhui inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT tanwen inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT lujiawei inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT liuwei inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT wangjingdong inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT zhangshuyu inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT zhuwei inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT caojianping inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT tianye inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy
AT yanghongying inhibitoryeffectofminocyclineonradiationinducedneuronalapoptosisviaampka1signalingmediatedautophagy

Ejemplares similares