Abstract 2945: Cell stress during HIPEC causes heat shock protein induction and reduced chemosensitivity in human colon cancer

Background: Hyperthermic intraperitoneal chemotherapy (HIPEC) is a promising procedure for the treatment of peritoneal carcinomatosis (PC). Heat shock proteins (HSPs) and other proteins involved in cellular repair mechanisms seem to induce cytoprotective processes during HIPEC therapy. Therefore, th...

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Veröffentlicht in:Cancer research (Chicago, Ill.) Ill.), 2016-07, Vol.76 (14_Supplement), p.2945-2945
Hauptverfasser: Grimmig, Tanja, Kloos, Kerstin, Thumm, Rebecca, Moench, Romana, Germer, Christoph T., Waaga-Gasser, Ana Maria, Gasser, Martin
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Sprache:eng
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Zusammenfassung:Background: Hyperthermic intraperitoneal chemotherapy (HIPEC) is a promising procedure for the treatment of peritoneal carcinomatosis (PC). Heat shock proteins (HSPs) and other proteins involved in cellular repair mechanisms seem to induce cytoprotective processes during HIPEC therapy. Therefore, the aim of this study was to analyze the effects of HIPEC-related conditions on tumor cell proliferation and the expression of HSPs in human colon cancer. Methods: Human colon cancer cell lines HT29, SW480 and SW620 were exposed to different temperatures (37°C, 41°C, and 43°C) as well as defined cytostatic agents (Oxaliplatin, Mitomycin C, and 5-Fluorouracil). After cellular regeneration (30 min, 24 h, 48 h and 72 h) RNA isolation and whole cell extraction was performed. Gene and protein expression analysis of HSP27, 70, 72 and 90 as well as PCNA, Ki-67, BCl-2 and BCl-Xl were carried out using RT-qPCR and Western blot. Additionally, MTS cell proliferation assays were performed 24 h, 48 h, 72 h and 96 h post treatment. Moreover, AnnexinV apoptosis assays were conducted. Results: All colon cancer cells exposed to hyperthermic conditions showed initially up-regulated HSP gene expression. Highest expression was found after exposure to 43°C. Combined cytostatic and hyperthermic treatment demonstrated additional increase in HSP27 expression and in other HSPs to a lesser degree. Tumor cells exposed to cytostatic agents showed overall higher HSP gene expression compared to cells without chemotoxic treatment. Similar effects were detected for the expression of the proliferation marker PCNA and anti-apoptotic protein BCl-Xl. Apoptosis assay demonstrated decreased numbers of apoptotic cells at 43°C compared to normothermia. Additionally, proliferation assays revealed reduced chemosensitivity in cells treated with hyperthermia. Conclusion: Desired effects of hyperthermia used in HIPEC therapy to achieve anti-proliferative and apoptosis inducing effects seem to be negatively influenced by cell stress mediated repair mechanisms in colon cancer. Our in vitro findings suggest analyzed HSPs to be significantly involved in this hyperthermia and chemotoxicity mediated cellular repair mechanisms. While initial increase in HSP expression can counteract cytotoxic effects during HIPEC therapy their prolonged expression may promote lasting resistance to cellular stress. Citation Format: Tanja Grimmig, Kerstin Kloos, Rebecca Thumm, Romana Moench, Christoph T. Germer, Ana Maria Waaga-Gasse
ISSN:0008-5472
1538-7445
DOI:10.1158/1538-7445.AM2016-2945