IL-6 blockade in K-ras mutant lung cancer

Activating mutations of K-ras are the most common oncogenic alterations found in lung cancer. Unfortunately, attempts to target K-ras mutant lung tumors have thus far failed, clearly indicating the need for new approaches in patients with this molecular profile. We have previously shown NF-κB activation, release of IL-6, and activation of its responsive transcription factor STAT3 in K-ras mutant lung tumors, which was further amplified by the tumor enhancing effect of chronic obstructive pulmonary disease (COPD)-type airway inflammation. These findings suggest an essential role for this inflammatory pathway in K-ras mutant lung tumorigenesis and its enhancement by COPD. Therefore, here we blocked IL-6 using a monoclonal anti-IL-6 antibody in a K-ras mutant mouse model of lung cancer in the absence or presence of COPD-type airway inflammation. IL-6 blockade significantly inhibited lung cancer promotion, tumor cell intrinsic STAT3 activation, tumor cell proliferation, and angiogenesis markers. Moreover, IL-6 inhibition reduced expression of pro-tumor type 2 molecules (Arginase 1, Fizz 1, Mgl, and IDO), number of M2 type macrophages and G-MDSCs, and pro-tumor T-regulatory/T helper 17 cell responses. This was accompanied by increased expression of anti-tumor type 1 molecule (Nos2), and anti-tumor T helper 1/CD8 T cell responses. Our study demonstrates that IL-6 blockade not only has direct intrinsic inhibitory effect on tumor cells, but also re-educates the lung microenvironment toward an anti-tumor phenotype by altering the relative proportion between pro-tumor and anti-tumor immune cells. This information introduces IL-6 as a potential druggable target for prevention and treatment of K-ras mutant lung tumors.

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