期刊
MOLECULES
卷 26, 期 24, 页码 -出版社
MDPI
DOI: 10.3390/molecules26247582
关键词
glioblastoma; TRAIL; angiopep-2; CNS delivery; receptor-mediated transcytosis; blood-brain barrier
The study investigated the effectiveness of antibody-based fusion proteins combining hexavalent TRAIL and ANG2 for GBM treatment, demonstrating potent induction of apoptosis. However, low TRAIL receptor expression on the blood-brain barrier endothelial cells interfered with efficient transport of the fusion proteins. Therapeutic strategies may need to include combinatorial approaches, such as TRAIL-R masking, to achieve effective CNS transport.
Glioblastoma (GBM) is the most malignant and aggressive form of glioma and is associated with a poor survival rate. Latest generation Tumour Necrosis Factor Related Apoptosis-Inducing Ligand (TRAIL)-based therapeutics potently induce apoptosis in cancer cells, including GBM cells, by binding to death receptors. However, the blood-brain barrier (BBB) is a major obstacle for these biologics to enter the central nervous system (CNS). We therefore investigated if antibody-based fusion proteins that combine hexavalent TRAIL and angiopep-2 (ANG2) moieties can be developed, with ANG2 promoting receptor-mediated transcytosis (RMT) across the BBB. We demonstrate that these fusion proteins retain the potent apoptosis induction of hexavalent TRAIL-receptor agonists. Importantly, blood-brain barrier cells instead remained highly resistant to this fusion protein. Binding studies indicated that ANG2 is active in these constructs but that TRAIL-ANG2 fusion proteins bind preferentially to BBB endothelial cells via the TRAIL moiety. Consequently, transport studies indicated that TRAIL-ANG2 fusion proteins can, in principle, be shuttled across BBB endothelial cells, but that low TRAIL receptor expression on BBB endothelial cells interferes with efficient transport. Our work therefore demonstrates that TRAIL-ANG2 fusion proteins remain highly potent in inducing apoptosis, but that therapeutic avenues will require combinatorial strategies, such as TRAIL-R masking, to achieve effective CNS transport.
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