Anthony R Guastella1,2, Sharon K Michelhaugh1, Neil V Klinger1, Hassan A Fadel1, Sam Kiousis1, Rouba Ali-Fehmi2,3, William J Kupsky2,3, Csaba Juhász1,4,5,6,7, Sandeep Mittal8,9,10,11. 1. Department of Neurosurgery, Wayne State University, Detroit, MI, USA. 2. Department of Oncology, Wayne State University, Detroit, MI, USA. 3. Department of Pathology, Wayne State University, Detroit, MI, USA. 4. Department of Neurology, Wayne State University, Detroit, MI, USA. 5. Department of Pediatrics, Wayne State University, Detroit, MI, USA. 6. PET Center and Translational Imaging Laboratory, Children's Hospital of Michigan, Detroit, MI, USA. 7. Karmanos Cancer Institute, Detroit, MI, USA. 8. Department of Neurosurgery, Wayne State University, Detroit, MI, USA. smittal@med.wayne.edu. 9. Department of Oncology, Wayne State University, Detroit, MI, USA. smittal@med.wayne.edu. 10. Department of Biomedical Engineering, Wayne State University, Detroit, MI, USA. smittal@med.wayne.edu. 11. Karmanos Cancer Institute, Detroit, MI, USA. smittal@med.wayne.edu.
Abstract
INTRODUCTION: There is mounting evidence supporting the role of tryptophan metabolism via the kynurenine pathway (KP) in the pathogenesis of primary brain tumors. Under normal physiological conditions, the KP is the major catabolic pathway for the essential amino acid tryptophan. However, in cancer cells, the KP becomes dysregulated, depletes local tryptophan, and contributes to an immunosuppressive tumor microenvironment. METHODS: We examined the protein expression levels (in 73 gliomas and 48 meningiomas) of the KP rate-limiting enzymes indoleamine 2,3-dioxygenase (IDO) 1, IDO2, and tryptophan 2,3-dioxygenase (TDO2), as well as, the aryl hydrocarbon receptor (AhR), a carcinogenic transcription factor activated by KP metabolites. In addition, we utilized commercially available small-molecules to pharmacologically modulate IDO1, IDO2, TDO2, and AhR in patient-derived glioma and meningioma cell lines (n = 9 each). RESULTS: We observed a positive trend between the grade of the tumor and the average immunohistochemical staining score for IDO1, IDO2, and TDO2, with TDO2 displaying the strongest immunostaining. AhR immunostaining was present in all grades of gliomas and meningiomas, with the greatest staining intensity noted in glioblastomas. Immunocytochemical staining showed a positive trend between nuclear localization of AhR and histologic grade in both gliomas and meningiomas, suggesting increased AhR activation with higher tumor grade. Unlike enzyme inhibition, AhR antagonism markedly diminished patient-derived tumor cell viability, regardless of tumor type or grade, following in vitro drug treatments. CONCLUSIONS: Collectively, these results suggest that AhR may offer a novel and robust therapeutic target for a patient population with highly limited treatment options.
INTRODUCTION: There is mounting evidence supporting the role of tryptophan metabolism via the kynurenine pathway (KP) in the pathogenesis of primary brain tumors. Under normal physiological conditions, the KP is the major catabolic pathway for the essential amino acid tryptophan. However, in cancer cells, the KP becomes dysregulated, depletes local tryptophan, and contributes to an immunosuppressive tumor microenvironment. METHODS: We examined the protein expression levels (in 73 gliomas and 48 meningiomas) of the KP rate-limiting enzymes indoleamine 2,3-dioxygenase (IDO) 1, IDO2, and tryptophan 2,3-dioxygenase (TDO2), as well as, the aryl hydrocarbon receptor (AhR), a carcinogenic transcription factor activated by KP metabolites. In addition, we utilized commercially available small-molecules to pharmacologically modulate IDO1, IDO2, TDO2, and AhR in patient-derived glioma and meningioma cell lines (n = 9 each). RESULTS: We observed a positive trend between the grade of the tumor and the average immunohistochemical staining score for IDO1, IDO2, and TDO2, with TDO2 displaying the strongest immunostaining. AhR immunostaining was present in all grades of gliomas and meningiomas, with the greatest staining intensity noted in glioblastomas. Immunocytochemical staining showed a positive trend between nuclear localization of AhR and histologic grade in both gliomas and meningiomas, suggesting increased AhR activation with higher tumor grade. Unlike enzyme inhibition, AhR antagonism markedly diminished patient-derived tumor cell viability, regardless of tumor type or grade, following in vitro drug treatments. CONCLUSIONS: Collectively, these results suggest that AhR may offer a novel and robust therapeutic target for a patient population with highly limited treatment options.
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