The prognostic impact of transforming growth factor beta 2 (TGFB2) mRNA levels, in conjunction with interferon-gamma receptor activation of interferon regulatory factor 5 (IRF5) and expression of CD276/B7-H3 in low-grade gliomas.

person Vuong N. Trieu Sapu Bioscience LLC., Agoura Hills, CA info_outline Vuong N. Trieu, Anthony Ernest Maida, Sanjive Qazi

Authors person Vuong N. Trieu Sapu Bioscience LLC., Agoura Hills, CA info_outline Vuong N. Trieu, Anthony Ernest Maida, Sanjive Qazi Organizations Sapu Bioscience LLC., Agoura Hills, CA, Oncotelic Therapeutics, Agoura Hills, CA Abstract Disclosures Research Funding No funding sources reported Background: Low-grade glioma (LGG) tumors are characterized by a low infiltration of immune cells, requiring therapeutic interventions to boost the immune response. Methods: We analyzed mRNA expression datasets from the UCSC Xena web platform to compare normal brain tissue with LGG tumor samples to screen for upregulated genes. We also used cBioportal to determine the relationship between mRNA expression levels of 513 LGG patients and their overall survival (OS) outcomes. Results: Tumor-associated macrophage (TAM) markers, MSR1/CD204, CD86, and CD68, exhibited a 6-fold (P<0.0001), 8.9-fold (P<0.0001), and 15.6-fold increases in mRNA expression levels, respectively in LGG tumors. Both TGFB1 (4.1-fold increase, P<0.0001) and TGFB2 (2.2-fold increase, P<0.0001) were upregulated in brain tumors, suggesting that TGFB ligands are pivotal in establishing an immunosuppressive TME. In addition, mRNA upregulation of interferon-gamma receptors, IFNGR1 and IFNGR2, and signaling molecules STAT1, IRF1, and IRF5, pointed to an essential role for IFN-γ mediated remodeling of the TME. A tumor-associated antigen, CD276/B7-H3, mRNA expression showed a significant (P<0.0001) 4.03-fold increase in tumor tissue. Multivariate Cox proportional hazards models investigating the interaction of TGFB2 and activation of IFNGR2, STAT1, IRF1, or IRF5 showed that the prognostic impact of high mRNA levels (25 percentile cut-off) of TGFB2 high was independent of IFNGR2, STAT1, IRF1, or IRF5 mRNA levels (TGFB2 high HR (95% CI) = 4.07 (2.35-7.06), 6 (3.62-10.11), 4.38 (2.67-7.17), and 4.48 (2.82-7.12) for models with IFNGR2, STAT1, IRF1, or IRF5 respectively). Patients with high levels of TGFB2 were overrepresented by LGG patients with IDH wild-type mutation status. The prognostic impact of TGFB2 high and IDH wild-type observed by the increases in hazard ratios for TGFB2 (HR (95% CI range) = 2.02 (1.05-3.89)) and IDH wild-type (HR (95% CI range) = 4.44 (1.9-10.4)) were independent predictors of survival requiring risk stratification of patients identify LGG patients with IDH wild-type and TGFB2 high in the design of clinical trials. The ratio of TGFB1:TGFB2 expression levels was also a prognostic indicator for OS, whereby patients who exhibited a 2.5-fold greater level of TGFB1 compared to TGFB2 mRNA levels experienced improved survival outcomes. A 1.8-fold higher TGFB2 levels, the mRNA expression corresponded to worse OS. Conclusions: The specific abrogation of TGFB2 and not TGFB1 by OT101, a TGFB2-specific synthetic phosphorothioate antisense oligodeoxynucleotide, is a prerequisite to employing a strategy to target TGFB pathways. IRF5 and CD276/B7-H3 as prognostic markers are potential targets for combination therapies with TGFB2 inhibitors.