IRAK4 mediates colitis-induced tumorigenesis and chemoresistance in colorectal cancer
Qiong Li, Yali Chen, Daoxiang Zhang, Julie Grossman, Lin Li, Namrata Khurana, Hongmei Jiang, Patrick M. Grierson, John Herndon, David G. DeNardo, Grant A. Challen, Jingxia Liu, Marianna B. Ruzinova, Ryan C. Fields, Kian-Huat Lim
Qiong Li, Yali Chen, Daoxiang Zhang, Julie Grossman, Lin Li, Namrata Khurana, Hongmei Jiang, Patrick M. Grierson, John Herndon, David G. DeNardo, Grant A. Challen, Jingxia Liu, Marianna B. Ruzinova, Ryan C. Fields, Kian-Huat Lim
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Research Article Oncology Therapeutics

IRAK4 mediates colitis-induced tumorigenesis and chemoresistance in colorectal cancer

Abstract

Aberrant activation of the NF-κB transcription factors underlies chemoresistance in various cancer types, including colorectal cancer (CRC). Targeting the activating mechanisms, particularly with inhibitors to the upstream IκB kinase (IKK) complex, is a promising strategy to augment the effect of chemotherapy. However, clinical success has been limited, largely because of low specificity and toxicities of tested compounds. In solid cancers, the IKKs are driven predominantly by the Toll-like receptor (TLR)/IL-1 receptor family members, which signal through the IL-1 receptor–associated kinases (IRAKs), with isoform 4 (IRAK4) being the most critical. The pathogenic role and therapeutic value of IRAK4 in CRC have not been investigated. We found that IRAK4 inhibition significantly abrogates colitis-induced neoplasm in APCMin/+ mice, and bone marrow transplant experiments showed an essential role of IRAK4 in immune cells during neoplastic progression. Chemotherapy significantly enhances IRAK4 and NF-κB activity in CRC cells through upregulating TLR9 expression, which can in turn be suppressed by IRAK4 and IKK inhibitors, suggesting a feed-forward pathway that protects CRC cells from chemotherapy. Lastly, increased tumor phospho-IRAK4 staining or IRAK4 mRNA expression is associated with significantly worse survival in CRC patients. Our results support targeting IRAK4 to improve the effects of chemotherapy and outcomes in CRC.

Authors

Qiong Li, Yali Chen, Daoxiang Zhang, Julie Grossman, Lin Li, Namrata Khurana, Hongmei Jiang, Patrick M. Grierson, John Herndon, David G. DeNardo, Grant A. Challen, Jingxia Liu, Marianna B. Ruzinova, Ryan C. Fields, Kian-Huat Lim

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Figure 4

IRAK4 drives NF-κB activity in human and murine CRC cells.

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IRAK4 drives NF-κB activity in human and murine CRC cells. (A) Western b...
(A) Western blots showing the effect of stable IRAK4 knockdown on the indicated markers, compared with scramble (S) control cells. (B) Western blots showing diminished nuclear p65 following IRAK4 knockdown in 2 CRC lines. Treatment with the IKKβ inhibitor IMD-0354 overnight served as control. (C) Relative quantification of soft agar colonies formed by DLD-1 and KM12 cells stably expressing scramble or 2 IRAK4 shRNAs grown over 3 weeks. Data represent 1 of 3 sets of experiments each done in triplicate and presented as mean ± SEM (ANOVA, ***P < 0.001). (D) Tumor kinetics of the indicated KM12 tumors grown subcutaneously in bilateral flanks of nude mice (n = 5 mice or 10 tumors per group). Data represent mean tumor volume ± SEM (ANOVA, ***P < 0.001). (E) Western blots showing IRAK4 protein levels in MC38 cells infected with pLentiCRISPR/Cas9 alone or with 2 sgRNAs targeting IRAK4. Two different polyclonal batches of cells were made and pooled for colony formation assay (14 days) and soft agar assay (21 days). Data represent 1 of 3 sets of soft agar experiments each done in triplicate and presented as mean ± SEM (ANOVA, ***P < 0.001). (F) Growth kinetics of the indicated MC38 cells grown in C57BL/6J mice (ANOVA, ***P < 0.001). (G) Kaplan-Meier survival analysis of the indicated MC38 cells grown in C57BL/6J mice (log-rank, ***P < 0.001).