In vivo detection of involvement of endogenous BM progenitor cells in glioma

Project: Research project

Project Details

Description

DESCRIPTION (provided by applicant): Because of hypervascular nature of glioblastoma (GBM) and associated active angiogenesis, investigators have added anti-angiogenic treatment as an adjuvant to normalize blood vessels and control abnormal angiogenesis. Antiangiogenic therapy disturbs tumor vasculature, leading to marked hypoxia. In GBM, hypoxia leads to up-regulation of hypoxia inducible factor 1-alpha (HIF-1). HIF-1 up-regulates SDF-1, which in turn may recruit various pro-angiogenic bone marrow-derived cells. Any therapy that invites more EPCs might promote neovascularization and pro growth, a paradoxical effect of anti-angiogenic therapy. Therefore, we hypothesize that anti-angiogenic treatment using VEGFR inhibitors would initiate the release of pro-angiogenic factors, causing migration and accumulation of endothelial progenitor cells (EPCs) or bone marrow progenitor cells (BMPCs) (different types of stem cells), and enhanced angiogenesis in refractory tumors. The goal of this study is to elucidate neovascularization mechanisms in refractory glioma by making chimeric mouse model and applying novel non-invasive, state of the art MRI and optical imaging approach to monitor tumor progression and associated exogenous and endogenous EPCs' migration. We will conduct the research in three phases: (1) we will establish chimeric mouse model where bone marrow of sub-lethally irradiated athymic mouse will be replaced by bone marrow cells collected from bone marrow of transgenic mouse (C57BL/6-Tg(UBC-GFP)30Scha/J) that express GFP protein under the control of human ubiquitin C promoter. These chimeric mice will be used to generate orthotopic human glioma. (2) we'll determine the changes in tumor vascular permeability, enhancement patterns, distribution volume, and diffusion parameters by MRI, and changes in different angiogenic factors and their associated receptors in the tumor and surrounding tissues following the treatment with vetanalib or AMD3100 (or a newer potent CXCR4 inhibitor), separately or in combination; (3) we'll determine the involvement of endogenous BMPCs and exogenous EPCs by optical imaging and cellular MRI, respectively, during antiangiogenic treatments with vetanalib or AMD3100 (or a newer potent CXCR4 inhibitor), separately or in combination, and the findings will be correlated with the expression o angiogenic factors and receptors. Involvement of endogenous BMPCs and exogenous EPCs in tumor neovascularization will also be compared and correlated. It is anticipated that there is a strong role of stem cells during anti-angiogenic therapy. Differences in accumulation of the endogenous or administered stem cells following different treatment schedule will prove our hypothesis that there is a role for stem cells during anti-angiogenic treatment. Correlation of the accumulated administered stem cells with MRI findings and the expression of different angiogenic receptors will help clinicians to modify treatment strategy when anti-angiogenic therapy is considered.
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