Tumors Located in the Brain Impair the Frequency and Phenotype of Dendritic Cells in Blood and Tumor

BackgroundProfessional antigen-presenting dendritic cells (DC) are critical for anti-tumor immune responses, yet patients with glioblastoma, an aggressive primary brain tumor that responds poorly to current investigational immunotherapies, appear to be deficient in DC. The extent of this deficiency, the specific DC subsets affected, and the causative mechanisms remain undefined. Furthermore, DCs in other brain tumors have not been systematically investigated. MethodsHigh-parameter flow cytometry was used to profile circulating and intra-tumoral DCs in patients with glioblastoma, low-grade gliomas, and brain metastases, and non-CNS cancers. Plasma DC growth factors were quantified using ELISA. We also evaluated single-cell RNA sequencing (scRNAseq) datasets to compare intra-tumoral DCs in brain and lung tumors, and quantified DC number and phenotype in three intracranial mouse brain tumor models. ResultsOur studies reveal a profound systemic reduction of multiple DC subsets in the blood of patients with diverse brain tumors, coupled with reduced DC activation marker expression and lower plasma levels of FLT3L and G-CSF. Furthermore, scRNAseq analyses revealed reduced intra-tumoral DCs in glioblastoma compared to lung tumors. Circulating DC numbers inversely correlated with perioperative corticosteroid dose in patients with or without a brain tumor. However, brain tumor patients not receiving corticosteroids also had reduced DCs, suggesting a direct effect of the brain tumor. This was supported by our observation of systemic DC defects in mouse brain tumor models. ConclusionsWe reveal profound DC defects in patients with brain tumors, which may contribute to current difficulties in developing effective immunotherapies for glioblastoma. SummaryWe demonstrate multiple DC defects in patients with brain tumors. This includes a profound reduction in circulating DC number, diminished activation marker expression and growth factor levels in cancer patients with brain tumors compared to those without, and reduced intra-tumoral DCs in brain compared to lung tumors. This is the first time DC subsets have been fully characterized in a range of brain tumor patients. We show that corticosteroid usage is closely associated with DC defects, highlighting the adverse effects of a standard symptomatic treatment on these critical immune cells. However, tumors located within the brain also directly contribute to DC defects. We identified several mouse brain tumor models that can be used to further the understanding of this endogenous DC deficiency and to develop approaches to restore DCs, ultimately leading to new combination immunotherapies for the treatment of brain cancers. HighlightsO_LIDCs are reduced in brain tumor patients and mice with intracranial tumors. C_LIO_LIDCs are rare within glioblastoma tumor tissue. C_LIO_LIThe presence of a brain tumor and corticosteroid use are both associated with DC defects. C_LI