Abstract 6118: Tumor-derived GDF-15 promotes immune escape of tumors by functional alteration of the myeloid compartment

Background: Growth and differentiation factor 15 (GDF-15), a divergent member of the TGF-β protein superfamily, shows low physiological baseline expression. GDF-15 is, however, strongly upregulated during pregnancy. It is further induced in stressed and damaged tissues, where it limits immune infiltration and inflammation. In solid tumors, GDF-15 was shown to be a key inhibitor of T-cell infiltration. While this might already explain the strong correlation between GDF-15 overexpression and poor survival with or without checkpoint-based immunotherapy, effects of GDF-15 on dendritic cells and monocytes may further shape the tumor microenvironment. Methods: To analyze the impact of GDF-15 in murine tumor models, GDF-15 was either deleted by CRISPR/CAS9 gene editing or neutralized by administration of a blocking antibody. Effects on tumor growth were recorded and the composition of the tumor microenvironment was characterized by flow cytometry. More detailed insight into tumor-immune interactions was obtained via the CrownBio Mouse I/O RNA-Seq Panel. Specific effects on polarization of innate and on antigen-specific priming of adaptive immune cells were confirmed in cellular assays in vitro. Results: Tumor-derived GDF-15 modulates the tumor microenvironment by inhibiting infiltration and activation of myeloid cells. GDF-15 thereby impairs the induction of antitumoral immune responses. Deletion of GDF-15 enhances infiltration of innate cells into immune-excluded tumors, supports the priming of naïve T cells by dendritic cells and generates a pro-inflammatory tumor microenvironment. In vitro, GDF-15 inhibits DC maturation and synapse formation, thus preventing successful T-cell activation. Moreover, GDF-15 interferes with M1 polarization of macrophages. Conclusion: GDF-15 secretion helps tumors to generate a microenvironment that is poorly infiltrated by immune cells. GDF-15 further polarizes myeloid cells towards a tumor-promoting, anti-inflammatory phenotype. By inducing a more pro-inflammatory tumor phenotype, anti-GDF-15 antibodies may synergize with other immunotherapeutic agents. A clinical trial combining anti-GDF-15 (CTL002) with anti-PD-1 (NCT04725474) is ongoing. Citation Format: Markus Haake, Beatrice Haack, Sabrina Genßler, Julia Weigandt, Marlene Auer, Vincent Thiemann, Wahid M. Haq, Melanie Haag, Florian Wedekink, Birgitt Fischer, Kathrin Klar, Matthias Wölfl, Christine Schuberth-Wagner, Jorg Wischhusen. Tumor-derived GDF-15 promotes immune escape