AI Article Synopsis
- Diffuse intrinsic pontine gliomas (DIPGs) are deadly pediatric brain tumors with no effective treatments, and the study used genetically engineered mouse models to identify potential drugs.
- BMS-754807 emerged from high-throughput screening as a promising multi-kinase inhibitor that showed strong cytotoxic effects in vitro but did not enhance survival in vivo when given to DIPG-bearing mice.
- The failure to improve survival may be due to inadequate drug delivery to the tumor, as the concentrations in tumor tissue were below the effective levels identified in lab testing.
Article Abstract
Diffuse intrinsic pontine gliomas (DIPGs) represent a particularly lethal type of pediatric brain cancer with no effective therapeutic options. Our laboratory has previously reported the development of genetically engineered DIPG mouse models using the RCAS/tv-a system, including a model driven by PDGF-B, H3.3K27M, and p53 loss. These models can serve as a platform in which to test novel therapeutics prior to the initiation of human clinical trials. In this study, an in vitro high-throughput drug screen as part of the DIPG preclinical consortium using cell-lines derived from our DIPG models identified BMS-754807 as a drug of interest in DIPG. BMS-754807 is a potent and reversible small molecule multi-kinase inhibitor with many targets including IGF-1R, IR, MET, TRKA, TRKB, AURKA, AURKB. In vitro evaluation showed significant cytotoxic effects with an IC50 of 0.13 μM, significant inhibition of proliferation at a concentration of 1.5 μM, as well as inhibition of AKT activation. Interestingly, IGF-1R signaling was absent in serum-free cultures from the PDGF-B; H3.3K27M; p53 deficient model suggesting that the antitumor activity of BMS-754807 in this model is independent of IGF-1R. In vivo, systemic administration of BMS-754807 to DIPG-bearing mice did not prolong survival. Pharmacokinetic analysis demonstrated that tumor tissue drug concentrations of BMS-754807 were well below the identified IC50, suggesting that inadequate drug delivery may limit in vivo efficacy. In summary, an unbiased in vitro drug screen identified BMS-754807 as a potential therapeutic agent in DIPG, but BMS-754807 treatment in vivo by systemic delivery did not significantly prolong survival of DIPG-bearing mice.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4352073 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0118926 | PLOS |
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