Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis

Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis

Abstract Background As a relatively conservative transcriptional regulator in biological evolution, heat shock factor 1 (HSF1) is activated by, and regulates the expression of heat shock proteins (HSPs) in response to a variety of stress conditions. HSF1 also plays a key role in regulating the devel...

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Main Authors: Wenjin Liang, Yong Liao, Jing Zhang, Qi Huang, Wei Luo, Jidong Yu, Jianhua Gong, Yi Zhou, Xuan Li, Bo Tang, Songqing He, Jinghong Yang
Format: Article
Language:English
Published: BMC 2017-05-01
Series:Journal of Experimental & Clinical Cancer Research
Subjects:
Pancreatic cancer
Heat shock factor 1
Heat shock proteins
Oncogene
SMAC
Apoptosis
Online Access:http://link.springer.com/article/10.1186/s13046-017-0537-x
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spelling doaj-abf510587eca4cf2a4652fad6524b5cd2020-11-25T01:59:16ZengBMCJournal of Experimental & Clinical Cancer Research1756-99662017-05-0136111410.1186/s13046-017-0537-xHeat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesisWenjin Liang0Yong Liao1Jing Zhang2Qi Huang3Wei Luo4Jidong Yu5Jianhua Gong6Yi Zhou7Xuan Li8Bo Tang9Songqing He10Jinghong Yang11Department of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalDepartment of Hepatobiliary Surgery, Guilin Medical University, Affiliated HospitalAbstract Background As a relatively conservative transcriptional regulator in biological evolution, heat shock factor 1 (HSF1) is activated by, and regulates the expression of heat shock proteins (HSPs) in response to a variety of stress conditions. HSF1 also plays a key role in regulating the development of various tumors; however, its role in pancreatic cancer and the specific underlying mechanism are not clear. Methods We first examined HSF1 expression in pancreatic cancer tissues by immunohistochemistry, and then studied its clinical significance. We then constructed HSF1-siRNA to investigate the potential of HSF1 to regulate apoptosis, proliferation and the cell cycle of pancreatic cancer cells and the underlying mechanism both in vitro and in vivo. Protein chip analysis was used subsequently to explore the molecular regulation pathway. Finally, second mitochondria-derived activator of caspase (SMAC)-siRNA was used to validate the signaling pathway. Results HSF1 was highly expressed in pancreatic cancer tissues and the level of upregulation was found to be closely related to the degree of pancreatic cancer differentiation and poor prognosis. After HSF1-silencing, we found that pancreatic cancer cell proliferation decreased both in vitro and in vivo and the apoptotic cell ratio increased, while the mitochondrial membrane potential decreased, and the cells were arrested at the G0/G1 phase. In terms of the molecular mechanism, we confirmed that HSF1 regulated SMAC to inhibit mitochondrial apoptosis in pancreatic cancer cells, and to promote the occurrence of pancreatic tumors. SMAC silencing reversed the effects of HSF1 silencing. Conclusion Our study provides evidence that HSF1 functions as a novel oncogene in pancreatic tumors and is implicated as a target for the diagnosis and treatment of pancreatic cancer.http://link.springer.com/article/10.1186/s13046-017-0537-xPancreatic cancerHeat shock factor 1Heat shock proteinsOncogeneSMACApoptosis
collection DOAJ
language English
format Article
sources DOAJ
author Wenjin Liang
Yong Liao
Jing Zhang
Qi Huang
Wei Luo
Jidong Yu
Jianhua Gong
Yi Zhou
Xuan Li
Bo Tang
Songqing He
Jinghong Yang
spellingShingle Wenjin Liang
Yong Liao
Jing Zhang
Qi Huang
Wei Luo
Jidong Yu
Jianhua Gong
Yi Zhou
Xuan Li
Bo Tang
Songqing He
Jinghong Yang
Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
Journal of Experimental & Clinical Cancer Research
Pancreatic cancer
Heat shock factor 1
Heat shock proteins
Oncogene
SMAC
Apoptosis
author_facet Wenjin Liang
Yong Liao
Jing Zhang
Qi Huang
Wei Luo
Jidong Yu
Jianhua Gong
Yi Zhou
Xuan Li
Bo Tang
Songqing He
Jinghong Yang
author_sort Wenjin Liang
title Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
title_short Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
title_full Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
title_fullStr Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
title_full_unstemmed Heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
title_sort heat shock factor 1 inhibits the mitochondrial apoptosis pathway by regulating second mitochondria-derived activator of caspase to promote pancreatic tumorigenesis
publisher BMC
series Journal of Experimental & Clinical Cancer Research
issn 1756-9966
publishDate 2017-05-01
description Abstract Background As a relatively conservative transcriptional regulator in biological evolution, heat shock factor 1 (HSF1) is activated by, and regulates the expression of heat shock proteins (HSPs) in response to a variety of stress conditions. HSF1 also plays a key role in regulating the development of various tumors; however, its role in pancreatic cancer and the specific underlying mechanism are not clear. Methods We first examined HSF1 expression in pancreatic cancer tissues by immunohistochemistry, and then studied its clinical significance. We then constructed HSF1-siRNA to investigate the potential of HSF1 to regulate apoptosis, proliferation and the cell cycle of pancreatic cancer cells and the underlying mechanism both in vitro and in vivo. Protein chip analysis was used subsequently to explore the molecular regulation pathway. Finally, second mitochondria-derived activator of caspase (SMAC)-siRNA was used to validate the signaling pathway. Results HSF1 was highly expressed in pancreatic cancer tissues and the level of upregulation was found to be closely related to the degree of pancreatic cancer differentiation and poor prognosis. After HSF1-silencing, we found that pancreatic cancer cell proliferation decreased both in vitro and in vivo and the apoptotic cell ratio increased, while the mitochondrial membrane potential decreased, and the cells were arrested at the G0/G1 phase. In terms of the molecular mechanism, we confirmed that HSF1 regulated SMAC to inhibit mitochondrial apoptosis in pancreatic cancer cells, and to promote the occurrence of pancreatic tumors. SMAC silencing reversed the effects of HSF1 silencing. Conclusion Our study provides evidence that HSF1 functions as a novel oncogene in pancreatic tumors and is implicated as a target for the diagnosis and treatment of pancreatic cancer.
topic Pancreatic cancer
Heat shock factor 1
Heat shock proteins
Oncogene
SMAC
Apoptosis
url http://link.springer.com/article/10.1186/s13046-017-0537-x
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