Distribution of glutamate and glutamine in tumor microenvironments of brain metastasis: Insights from biochemical analysis and molecular imaging.

Cancer neuroscience has implicated peritumoral neurons in facilitating breast-to-brain metastasis (BrBM) progression via the N-methyl-D-aspartate receptor (NMDAR), a glutamate (Glu) receptor. The Glu-glutamine (Gln) cycle converts Glu into Gln, forming the combined Glx pool. This study investigated the spatial distribution of phosphorylated GluN2B (pGluN2B), an NMDAR subunit, and Glx in BrBM. analysis revealed elevated pGluN2B expression in BrBM, particularly in tumor cores, while Glx levels were paradoxically reduced. In mouse models, glutamine-based positron emission tomography (Gln-PET) imaging revealed higher tracer uptake in BrBM than that in paired breast tumors, with uptake values correlated positively with Glx concentration and pGluN2B expression. Strong Gln-PET uptake in BrBM noninvasively indicated elevated Glx metabolism in a BrBM patient, confirmed by staining. This study highlighted the regional distribution of NMDAR and Glx, underscoring their potential as diagnostic biomarkers for BrBM. Glutamine-based molecular imaging can noninvasively visualize the tumor microenvironment relevant to cancer neuroscience.