Abstract
Patients with malignant gliomas have a poor prognosis because these tumors do not respond well to conventional treatments. Studies of glioma xenografts suggest that they may be amenable to gene therapy with cytotoxic genes, such as the proapoptotic Apo2 ligand/tumor necrosis factor-related apoptosis-inducing ligand (Apo2L/TRAIL). Gene therapy of gliomas ideally employs i.v. given vectors, thus excluding viral vectors as they cannot cross the brain microvascular endothelium or blood-brain barrier. Recently, we reported the synthesis of cationic albumin-conjugated pegylated nanoparticles (CBSA-NP) and showed their accumulation in mouse brain cells upon i.v. administration. In this study, plasmid pORF-hTRAIL (pDNA) was incorporated into CBSA-NP, and the resulting CBSA-NP-hTRAIL was evaluated as a nonviral vector for gene therapy of gliomas. Thirty minutes after transfection of C6 glioma cells, CBSA-NP-hTRAIL was internalized and mostly located in the cytoplasm, whereas NP-hTRAIL was entrapped in the endolysosomal compartment. At 6 and 48 hours after transfection, respectively, released pDNA was present in the nuclei and induced apoptosis. At 30 minutes after i.v. administration of CBSA-NP-hTRAIL to BALB/c mice bearing i.c. C6 gliomas, CBSA-NP-hTRAIL colocalized with glycoproteins in brain and tumor microvasculature and, via absorptive-mediated transcytosis, accumulated in tumor cells. At 24 and 48 hours after i.v. administration of CBSA-NP-hTRAIL, respectively, hTRAIL mRNA and protein were detected in normal brain and tumors. Furthermore, repeated i.v. injections of CBSA-NP-hTRAIL induced apoptosis in vivo and significantly delayed tumor growth. In summary, this study indicates that CBSA-NP-hTRAIL is a promising candidate for noninvasive gene therapy of malignant glioma.
Highlights
Patients with malignant glioma have a poor prognosis because these brain tumors respond poorly to radiation or chemotherapy, the conventional treatments of cancer [1]
No significant differences in particle size were found between NP-hTRAIL (108.6 F 10.8 nm) and CBSA-NP-hTRAIL (115.7 F 13.9 nm), suggesting that CBSA conjugation did not affect particle size
Fluorescence techniques developed in our laboratory showed that after i.v. administration, the nonviral vector CBSA-NP-hTRAIL crossed the brain-blood barrier (BBB) and accumulated in i.c. glioma xenografts via absorptive-mediated transcytosis (AMT)
Summary
Patients with malignant glioma have a poor prognosis because these brain tumors respond poorly to radiation or chemotherapy, the conventional treatments of cancer [1]. Gene therapy with cytotoxic genes, such as the proapoptotic Apo ligand/tumor necrosis factor–related apoptosis-inducing ligand (Apo2L/TRAIL), may offer therapeutic promise. Most glioma cell lines express the agonist Apo2L/TRAIL receptors but no or undetectable levels of the antagonist receptors [2]. On the other hand, have been found to express antagonist Apo2L/TRAIL receptors [3, 4]. Apo2L/TRAIL may allow selective killing of tumor cells only. I.t. administration of Apo2L/TRAIL has induced tumor regression in a xenograft model with i.c. glioma implantation [5, 6]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
