Microenvironmental Th9 and Th17 lymphocytes induce metastatic spreading in lung cancer.

Immune microenvironment plays a critical role in lung cancer control versus progression and metastasis. In this investigation, we explored the effect of tumor-infiltrating lymphocyte subpopulations on lung cancer biology by studying in vitro cocultures, in vivo mouse models, and human lung cancer tissue. Lymphocyte conditioned media (CM) induced epithelial-mesenchymal transition (EMT) and migration in both primary human lung cancer cells and cell lines. Correspondingly, major accumulation of Th9 and Th17 cells was detected in human lung cancer tissue and correlated with poor survival. Coculturing lung cancer cells with Th9/Th17 cells or exposing them to the respective CM induced EMT in cancer cells and modulated the expression profile of genes implicated in EMT and metastasis. These features were reproduced by the signatory cytokines IL-9 and IL-17, with gene regulatory profiles evoked by these cytokines partly overlapping and partly complementary. Coinjection of Th9/Th17 cells with tumor cells in WT, Rag1-/-, Il9r-/-, and Il17ra-/- mice altered tumor growth and metastasis. Accordingly, inhibition of IL-9 or IL-17 cytokines by neutralizing antibodies decreased EMT and slowed lung cancer progression and metastasis. In conclusion, Th9 and Th17 lymphocytes induce lung cancer cell EMT, thereby promoting migration and metastatic spreading and offering potentially novel therapeutic strategies.

Lung cancer-associated pulmonary hypertension: Role of microenvironmental inflammation based on tumor cell-immune cell cross-talk.

Dyspnea is a frequent, devastating, and poorly understood symptom of advanced lung cancer. In our cohort, among 519 patients who underwent a computed tomography scan for the diagnosis of lung cancer, 250 had a mean pulmonary artery diameter of >28 mm, indicating pulmonary hypertension (PH). In human lung cancer tissue, we consistently observed increased vascular remodeling and perivascular inflammatory cell accumulation (macrophages/lymphocytes). Vascular remodeling, PH, and perivascular inflammatory cell accumulation were mimicked in three mouse models of lung cancer (LLC1, KRasLA2 , and cRaf-BxB). In contrast, NOD.Cg-PrkdcscidIl2rgtm1Wjl/SzJ immunodeficient xenograft and dominant-negative IKK2 mutant triple transgenic (Sftpc-rtTA/Tet-O-Ikk2DN) mice did not develop PH. Coculturing human lung cancer cells with macrophages and lymphocytes strongly up-regulated cytokine release, provoking enhanced migration, apoptosis resistance, and phosphodiesterase 5 (PDE5)-mediated up-regulation of human lung vascular cells, which are typical features of PH. The PDE5 inhibitor sildenafil largely suppressed PH in the LLC1 model. We conclude that lung cancer-associated PH represents a distinct PH category; targeting inflammation in the microenvironment and PDE5 offers a potential therapeutic option.