Abstract
In this study, neural stem cells (NSCs)-derived enzyme/prodrug therapy (NDEPT) was used to treat primary lung cancer or metastatic lung cancer in the brain. To confirm the anti-tumor effect of NSCs expressing carboxyl esterase (CE), A549 lung cancer cells were treated with HB1.F3.CE cells and CPT-11. A significant decrease in the viability/proliferation of lung cancer cells was observed compared to negative controls or cells treated with CPT-11 alone. To produce a mouse model of primary lung cancer or lung cancer metastasis to the brain, A549 cells were implanted in the dorsal area of the mouse or right hemisphere. CM-DiI pre-stained stem cells were implanted near the primary lung cancer tumor mass or in the contralateral brain. Two days after stem cells injection, mice were inoculated with CPT-11 (13.5 kg/mouse/day) via intraperitoneal injection. In the primary lung cancer mouse models, tumor mass was 80% lower in response to HB1.F3.CE in conjunction with CPT-11, while it was only reduced by 40% in the group treated with CPT-11 alone. Additionally, therapeutic efficacy of co-treatment with stem cells and CPT-11 was confirmed by detection of apoptosis and necrosis in primary and metastatic lung cancer tissues. By secreting VEGF, tumor cells modulate Erk1/2 and Akt signaling and migration of stem cells. This further increased tumor-selectivity of stem cell/prodrug co-therapy. Overall, these results indicate that NSCs expressing the therapeutic gene may be a powerful tool for treatment of primary lung cancer or metastasis of lung cancer to the brain.
Highlights
Neural stem cells (NSCs) that have the capacity to self-renew and differentiate into neurons and glia can be grown from adult subventricular zones (SVZ) [1]
The proliferation rate of cancer cells was significantly inhibited by 60% in the co-treated group relative to the CPT-11 single treated group, in which proliferation was reduced by approximately 40% in response to high concentrations of CPT-11 (1.0 μg/ml)
We focused on the antitumor effects of therapeutic NSCs, which are known to have the ability to convert prodrugs to the active form
Summary
Neural stem cells (NSCs) that have the capacity to self-renew and differentiate into neurons and glia can be grown from adult subventricular zones (SVZ) [1]. NSCs exist in two regions, the SVZ of the lateral ventricle, and the subgranular zone of the hippocampal dentate gyrus. NSCs have been shown to migrate to areas of injury site as well as brain pathological areas, such as ischemic and neoplastic lesions [3]. Hepatocyte growth factor (HGF) activity on mouse mesenchymal stem cells (MSCs) isolated from bone marrow was investigated in terms of proliferation, migration and cell differentiation [5]. Several signal pathways such as phosphatidylinositol 3-kinase (PI3K)/Akt signaling regulate survival, proliferation, differentiation, and migration of stem cells [6]
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