Proteomic and cytokine profiling of a CTRP8-RXFP1 glioma mouse model

Glioblastoma (GB) is the most prevalent and aggressive primary brain tumor with fatal outcome due to a lack of effective treatments. We previously identified C1q-tumor necrosis factor-related protein 8 (CTRP8), a new member of the adiponectin family, as a novel agonist of the relaxin family peptide receptor 1 (RXFP1) and showed that the CTRP8-RXFP1 ligand-receptor system facilitates increased invasiveness and chemoresistance in GB cells. In the present study, we have investigated the role of the CTRP8-RXFP1 signaling axis in glioma progression using an orthotopic mouse model xenografted with human U251 glioma cells stably expressing CTRP8 and RXFP1. Our results demonstrate that this in-vivo U251-CTRP8/RXFP1 glioma model promoted the formation of aggressive, highly proliferative glioma that resulted in significantly shorter survival times of xenografted mice. CTRP8/RXFP1 xenografts showed strongly elevated mitotic activity, increased expression of cathepsin B at the migrating front and promoted a pro-inflammatory tumor microenvironment characterized by a strong upregulation of cytokines, among them eotaxin-2 and-3, interleukin (IL)-6, IL-18 and others. Proteomic analysis of xenografted mouse brain identified both human and mouse proteome signatures unique to CTRP8/RXFP1 xenografts compared to U251 xenografts. In conclusion, our results suggest that co-expression of CTRP8 and RXFP1 promotes signaling pathways that generate unique tissue proteomic and inflammatory cytokine signatures which promote glioma aggressiveness. The CTRP-RXFP1 signaling pathway may represent an effective therapeutic target for the treatment of fast-progressing and currently untreatable GB.