Abstract
Glioblastoma (GBM) is a highly aggressive tumor of the brain. Despite the efforts, response to current therapies is poor and 2-years survival rate ranging from 6-12%. Here, we evaluated the preclinical efficacy of Metformin (MET) as add-on therapy to Temozolomide (TMZ) and the ability of [18F]FLT (activity of thymidine kinase 1 related to cell proliferation) and [18F]VC701 (translocator protein, TSPO) Positron Emission Tomography (PET) radiotracers to predict tumor response to therapy. Indeed, TSPO is expressed on the outer mitochondrial membrane of activated microglia/macrophages, tumor cells, astrocytes and endothelial cells. TMZ-sensitive (Gli36ΔEGFR-1 and L0627) or -resistant (Gli36ΔEGFR-2) GBM cell lines representative of classical molecular subtype were tested in vitro and in vivo in orthotopic mouse models. Our results indicate that in vitro, MET increased the efficacy of TMZ on TMZ-sensitive and on TMZ-resistant cells by deregulating the balance between pro-survival (bcl2) and pro-apoptotic (bax/bad) Bcl-family members and promoting early apoptosis in both Gli36ΔEGFR-1 and Gli36ΔEGFR-2 cells. In vivo, MET add-on significantly extended the median survival of tumor-bearing mice compared to TMZ-treated ones and reduced the rate of recurrence in the TMZ-sensitive models. PET studies with the cell proliferation radiopharmaceutical [18F]FLT performed at early time during treatment were able to distinguish responder from non-responder to TMZ but not to predict the duration of the effect. On the contrary, [18F]VC701 uptake was reduced only in mice treated with MET plus TMZ and levels of uptake negatively correlated with animals’ survival. Overall, our data showed that MET addition improved TMZ efficacy in GBM preclinical models representative of classical molecular subtype increasing survival time and reducing tumor relapsing rate. Finally, results from PET imaging suggest that the reduction of cell proliferation represents a common mechanism of TMZ and combined treatment, whereas only the last was able to reduce TSPO. This reduction was associated with the duration of treatment response. TSPO-ligand may be used as a complementary molecular imaging marker to predict tumor microenvironment related treatment effects.
Highlights
Glioblastoma (GBM) represents the most common and aggressive malignant brain neoplasm in adults with no effective treatments
We further evaluated the effect of MET used in combination with TMZ on two genetically homogeneous GBM models either sensitive (Gli36DEGFR-1) or resistant (Gli36DEGFR-2) to TMZ and carrying EGFRvIII mutation, representative of the classical molecular subgroup
The differences observed may be related to the significant reduction of sox2 levels induced by TMZ plus MET only on Gli36DEGFR-1. sox2 is a typical marker of poor differentiated cells that have been associated with Cancer Stem Cell (CSC) and tumor aggressiveness whose levels are regulated by several pathways including Epidermal Growth Factor Receptor (EGFR) [39, 41, 42]
Summary
Glioblastoma (GBM) represents the most common and aggressive malignant brain neoplasm in adults with no effective treatments. Resistance to TMZ and/or disease progression invariably occur in GBM independently of O6-methylguanine-DNA methyltransferase (MGMT) presence [2] leading to a poor clinical outcome and a median overall-survival of 14.6 months. For this reason, novel treatment approaches for GBM represent an unmet medical need [3]. MET was initially proposed as a single regimen against glioma-initiating stem cells, we and other groups demonstrated that MET is synergic with TMZ and is able to revert TMZ resistance in some mouse models of GBM [11,12,13] Another negative hallmark of glioma is represented by the high variability of molecular phenotypes. The hyper-activated EGFR phenotype favors treatment resistance and poor clinical outcome [17]
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