Cargando…

Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals

Early studies indicated that mast cells in prostate tumor microenvironment might influence prostate cancer (PCa) progression. Their impacts to PCa therapy, however, remained unclear. Here we found PCa could recruit more mast cells than normal prostate epithelial cells then alter PCa chemotherapy and...

Descripción completa

Detalles Bibliográficos
Autores principales: Xie, Hongjun, Li, Chong, Dang, Qiang, Chang, Luke S., Li, Lei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4811464/
https://www.ncbi.nlm.nih.gov/pubmed/26625310
_version_ 1782423964907208704
author Xie, Hongjun
Li, Chong
Dang, Qiang
Chang, Luke S.
Li, Lei
author_facet Xie, Hongjun
Li, Chong
Dang, Qiang
Chang, Luke S.
Li, Lei
author_sort Xie, Hongjun
collection PubMed
description Early studies indicated that mast cells in prostate tumor microenvironment might influence prostate cancer (PCa) progression. Their impacts to PCa therapy, however, remained unclear. Here we found PCa could recruit more mast cells than normal prostate epithelial cells then alter PCa chemotherapy and radiotherapy sensitivity, leading to PCa more resistant to these therapies. Mechanism dissection revealed that infiltrated mast cells could increase p21 expression via modulation of p38/p53 signals, and interrupting p38-p53 signals via siRNAs of p53 or p21 could reverse mast cell-induced docetaxel chemotherapy resistance of PCa. Furthermore, recruited mast cells could also increase the phosphorylation of ATM at ser-1981 site, and inhibition of ATM activity could reverse mast cell-induced radiotherapy resistance. The in vivo mouse model with xenografted PCa C4-2 cells co-cultured with mast cells also confirmed that mast cells could increase PCa chemotherapy resistance via activating p38/p53/p21 signaling. Together, our results provide a new mechanism showing infiltrated mast cells could alter PCa chemotherapy and radiotherapy sensitivity via modulating the p38/p53/p21 signaling and phosphorylation of ATM. Targeting this newly identified signaling may help us better suppress PCa chemotherapy and radiotherapy resistance.
format Online
Article
Text
id pubmed-4811464
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher Impact Journals LLC
record_format MEDLINE/PubMed
spelling pubmed-48114642016-04-25 Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals Xie, Hongjun Li, Chong Dang, Qiang Chang, Luke S. Li, Lei Oncotarget Research Paper Early studies indicated that mast cells in prostate tumor microenvironment might influence prostate cancer (PCa) progression. Their impacts to PCa therapy, however, remained unclear. Here we found PCa could recruit more mast cells than normal prostate epithelial cells then alter PCa chemotherapy and radiotherapy sensitivity, leading to PCa more resistant to these therapies. Mechanism dissection revealed that infiltrated mast cells could increase p21 expression via modulation of p38/p53 signals, and interrupting p38-p53 signals via siRNAs of p53 or p21 could reverse mast cell-induced docetaxel chemotherapy resistance of PCa. Furthermore, recruited mast cells could also increase the phosphorylation of ATM at ser-1981 site, and inhibition of ATM activity could reverse mast cell-induced radiotherapy resistance. The in vivo mouse model with xenografted PCa C4-2 cells co-cultured with mast cells also confirmed that mast cells could increase PCa chemotherapy resistance via activating p38/p53/p21 signaling. Together, our results provide a new mechanism showing infiltrated mast cells could alter PCa chemotherapy and radiotherapy sensitivity via modulating the p38/p53/p21 signaling and phosphorylation of ATM. Targeting this newly identified signaling may help us better suppress PCa chemotherapy and radiotherapy resistance. Impact Journals LLC 2015-11-16 /pmc/articles/PMC4811464/ /pubmed/26625310 Text en Copyright: © 2016 Xie et al. http://creativecommons.org/licenses/by/2.5/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Paper
Xie, Hongjun
Li, Chong
Dang, Qiang
Chang, Luke S.
Li, Lei
Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals
title Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals
title_full Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals
title_fullStr Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals
title_full_unstemmed Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals
title_short Infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and ATM signals
title_sort infiltrating mast cells increase prostate cancer chemotherapy and radiotherapy resistances via modulation of p38/p53/p21 and atm signals
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4811464/
https://www.ncbi.nlm.nih.gov/pubmed/26625310
work_keys_str_mv AT xiehongjun infiltratingmastcellsincreaseprostatecancerchemotherapyandradiotherapyresistancesviamodulationofp38p53p21andatmsignals
AT lichong infiltratingmastcellsincreaseprostatecancerchemotherapyandradiotherapyresistancesviamodulationofp38p53p21andatmsignals
AT dangqiang infiltratingmastcellsincreaseprostatecancerchemotherapyandradiotherapyresistancesviamodulationofp38p53p21andatmsignals
AT changlukes infiltratingmastcellsincreaseprostatecancerchemotherapyandradiotherapyresistancesviamodulationofp38p53p21andatmsignals
AT lilei infiltratingmastcellsincreaseprostatecancerchemotherapyandradiotherapyresistancesviamodulationofp38p53p21andatmsignals