OBJECTIVE: Pancreatic ductal adenocarcinoma (PDAC) is characterised by an abundant desmoplastic stroma composed of cancer-associated fibroblasts (CAF) and interspersed immune cells. A non-canonical CD8(+) T-cell subpopulation producing IL-17A (Tc17) promotes autoimmunity and has been identified in tumours. Here, we evaluated the Tc17 role in PDAC. DESIGN: Infiltration of Tc17 cells in PDAC tissue was correlated with patient overall survival and tumour stage. Wild-type (WT) or Il17ra(-/-) quiescent pancreatic stellate cells (qPSC) were exposed to conditional media obtained from Tc17 cells (Tc17-CM); moreover, co-culture of Tc17-CM-induced inflammatory (i)CAF (Tc17-iCAF) with tumour cells was performed. IL-17A/F-, IL-17RA-, RAG1-deficient and Foxn1(nu/nu) mice were used to study the Tc17 role in subcutaneous and orthotopic PDAC mouse models. RESULTS: Increased abundance of Tc17 cells highly correlated with reduced survival and advanced tumour stage in PDAC. Tc17-CM induced iCAF differentiation as assessed by the expression of iCAF-associated genes via synergism of IL-17A and TNF. Accordingly, IL-17RA controlled the responsiveness of qPSC to Tc17-CM. Pancreatic tumour cells co-cultured with Tc17-iCAF displayed enhanced proliferation and increased expression of genes implicated in proliferation, metabolism and protection from apoptosis. Tc17-iCAF accelerated growth of mouse and human tumours in Rag1(-/-) and Foxn1(nu/nu) mice, respectively. Finally, Il17ra-expressed by fibroblasts was required for Tc17-driven tumour growth in vivo. CONCLUSIONS: We identified Tc17 as a novel protumourigenic CD8(+) T-cell subtype in PDAC, which accelerated tumour growth via IL-17RA-dependent stroma modification. We described a crosstalk between three cell types, Tc17, fibroblasts and tumour cells, promoting PDAC progression, which resulted in poor prognosis for patients.
- Picard, F. S. R.
- Lutz, V.
- Brichkina, A.
- Neuhaus, F.
- Ruckenbrod, T.
- Hupfer, A.
- Raifer, H.
- Klein, M.
- Bopp, T.
- Pfefferle, P. I.
- Savai, R.
- Prinz, I.
- Waisman, A.
- Moos, S.
- Chang, H. D.
- Heinrich, S.
- Bartsch, D. K.
- Buchholz, M.
- Singh, S.
- Tu, M.
- Klein, L.
- Bauer, C.
- Liefke, R.
- Burchert, A.
- Chung, H. R.
- Mayer, P.
- Gress, T. M.
- Lauth, M.
- Gaida, M.
- Huber, M.
Keywords
- cancer immunobiology
- cytokines
- immune response
- inflammatory mechanisms
- pancreatic cancer