Abstract
Although neoplastic cells exhibit relatively higher sensitivity to hyperthermia than normal cells, hyperthermia has had variable success as an anti-cancer therapy. This variable outcome might be due to the fact that cancer cells themselves have differential degrees of sensitivity to high temperature. We hypothesized that the varying sensitivity of colorectal cancer (CRC) cells to hyperthermia depends upon the differential induction of survival pathways. Screening of such pathways revealed that Extracellular Signal-Regulated Kinase (ERK) signaling is augmented by hyperthermia, and the extent of this modulation correlates with the mutation status of V-Ki-ras2 Kirsten rat sarcoma viral oncogene homolog (KRAS). Through clonal growth assays, apoptotic analyses and transcription reporter assays of CRC cells that differ only in KRAS mutation status we established that mutant KRAS cells are more sensitive to hyperthermia, as they exhibit sustained ERK signaling hyperactivation and increased Wingless/Integrated (WNT)/beta-catenin signaling. We propose that whereas increased levels of WNT and ERK signaling and a positive feedback between the two pathways is a major obstacle in anti-cancer therapy today, under hyperthermia the hyperinduction of the pathways and their positive crosstalk contribute to CRC cell death. Ascertaining the causative association between types of mutations and hyperthermia sensitivity may allow for a mutation profile-guided application of hyperthermia as an anti-cancer therapy. Since KRAS and WNT signaling mutations are prevalent in CRC, our results suggest that hyperthermia-based therapy might benefit a significant number, but not all, CRC patients.
Highlights
The association between acute infections and cancer is supported by experimental and epidemiological data [1,2]
We posited that the sensitivity of colorectal cancer (CRC) cells to hyperthermia depends upon the modulation of oncogene-deregulated cell survival signaling
Since this signaling pathway is dependent upon the mutational status of Kirsten rat sarcoma viral oncogene homolog (KRAS), a gene that is commonly mutated in CRC, we ascertained the role of KRAS in the sensitivity of cancer cells to hyperthermia
Summary
The association between acute infections and cancer is supported by experimental and epidemiological data [1,2]. In 1874 in England, Dr Campbell De Morgan presented evidence that in some cases cancer regresses after infections such as tuberculosis [3]. In 1890 in the U.S, during a review of records in the New York Memorial Hospital, Dr William Coley found a case in which erysipelas, an acute Streptococcal infection, cured a cancer patient [4]. A year later, Coley replicated this outcome by utilizing Streptococcus pyogenes and inducing erysipelas in a patient with sarcoma [5]. Coley switched to a heat-inactivated mixture of bacteria, and increased the dosage until a fever of 39 ̋ C or higher was developed by his cancer patients [4,6,7].
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