RESUMEN
Ovarian cancer has the highest mortality rate among female reproductive tract malignancies. A complex network, including the interaction between tumor and immune cells, regulates the tumor microenvironment, survival, and growth. The role of mast cells (MCs) in ovarian tumor pathophysiology is poorly understood. We aimed to understand the effect of MCs on tumor cell migration and growth using in vitro and in vivo approaches. Wound healing assays using human tumor cell lines (SK-OV-3, OVCAR-3) and human MCs (HMC-1) were conducted. Murine ID8 tumor cells were injected into C57BL6/J wildtype (WT) and MC-deficient C57BL/6-KitW-sh/W-sh (KitW-sh) mice. Reconstitution of KitW-sh was performed by the transfer of WT bone marrow-derived MCs (BMMCs). Tumor development was recorded by high-frequency ultrasonography. In vitro, we observed a diminished migration of human ovarian tumor cells upon direct or indirect MC contact. In vivo, application of ID8 cells into KitW-sh mice resulted in significantly increased tumor growth compared to C57BL6/J mice. Injection of BMMCs into KitW-sh mice reconstituted MCs and restored tumor growth. Our data show that MCs have a suppressive effect on ovarian tumor growth and may serve as a new therapeutic target.
RESUMEN
Adaptive immune cells with regulatory function reportedly mediate immune escape in a variety of tumors. Little is known regarding the relevance of the most prominent regulatory cell populations, namely Foxp3+ T regulatory cells (Tregs) and CD19+IL-10+ B regulatory cells (Bregs), for neuroblastoma (NB) survival. After establishing a novel immunocompetent syngeneic NB mouse model where orthotopic tumors can be generated after intrarenal injection of NB975A cells, we studied the importance of Tregs and Bregs in Foxp3-DTR mice whose Tregs can be depleted by diphtheria toxin (DT) application as well as in CD19-specific IL-10 deficient mice that lack IL-10+ Bregs (CD19cre+/- × IL-10fl/fl mice). We observed Foxp3 Treg cells in tumors from wild type mice. On the contrary, Bregs or B cells were scarce. Specific depletion of Tregs in Foxp3-DTR mice resulted in an 85% reduction of tumor volume and weight compared to DT-treated wild type mice and untreated Foxp3-DTR mice. In contrast, NB tumor growth was not affected in CD19-specific IL-10 deficient mice. Similarly, mice lacking mature B cells (µMT mice) and CD19 deficient mice (CD19cre mice) showed no change in growth pattern of NB tumors. In Treg-depleted mice, reduced tumor growth was associated with an increased concentration of IFN-gamma, TNF-alpha, IL-4, IL-6, and IL-10 in isolated splenocytes. In summary, transient ablation of Tregs but not absence of Bregs hindered the growth of NB, strongly suggesting the therapeutic potential of targeting Tregs for this aggressive childhood tumor.