Zachary R. Barnard scite author profile

The clinicopathological heterogeneity of glioblastoma (GBM) and the various genetic and phenotypic subtypes in GBM stem cells (GSCs) are well described. However, the relationship between GSCs and the corresponding primary tumor from which they were isolated is poorly understood. We have established GSC-enriched neurosphere cultures from 15 newly diagnosed GBM specimens and examined the relationship between the histopathological and genomic features of GSC-derived orthotopic xenografts and those of the respective patient tumors. GSC-initiated xenografts recapitulate the distinctive cytological hallmarks and diverse histological variants associated with the corresponding patient GBM, including giant cell and gemistocytic GBM, and primitive neuroectodermal tumor (PNET)-like components. This indicates that GSCs generate tumors that preserve patient-specific disease phenotypes. The majority of GSC-derived intracerebral xenografts (11 of 15) demonstrated a highly invasive behavior crossing the midline, whereas the remainder formed discrete nodular and vascular masses. In some cases, GSC invasiveness correlated with preoperative MRI, but not with the status of PI3-kinase/Akt pathways or O(6)-methylguanine methyltransferase expression. Genome-wide screening by array comparative genomic hybridization and fluorescence in situ hybridization revealed that GSCs harbor unique genetic copy number aberrations. GSCs acquiring amplifications of the myc family genes represent only a minority of tumor cells within the original patient tumors. Thus, GSCs are a genetically distinct subpopulation of neoplastic cells within a GBM. These studies highlight the value of GSCs for preclinical modeling of clinically relevant, patient-specific GBM and, thus, pave the way for testing novel anti-GSC/GBM agents for personalized therapy.

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Behavioral Variant Frontotemporal Dementia as a Serious Complication of Spontaneous Intracranial Hypotension

Schievink

Maya²,

Barnard³

et al. 2018

ONSURG

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Sequential Immunotherapy by Vaccination With GM-CSF–expressing Glioma Cells and CTLA-4 Blockade Effectively Treats Established Murine Intracranial Tumors

et al. 2012

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Malignant glioma is an incurable disease with a relatively short median survival. Several clinical trials have demonstrated that immunotherapy with vaccination is a safe and possibly effective way of prolonging survival. Antibody-based blockade of CTLA-4 ligation on T lymphocytes is associated with enhanced antitumor immunity in animal models of cancer and in patients with advanced melanoma. We hypothesized that sequential therapy with GM-CSF - expressing whole glioma cell vaccination and CTLA-4 blockade is an effective strategy for treating established intracranial gliomas. GL261 glioma cells were injected into the right frontal lobes of syngeneic C57/BL6 mice. At days 3, 6, and 9 after tumor implantation, mice were treated with subcutaneous injection of irradiated GMCSF-expressing GL261 cells. Mice were also treated with intraperitoneal injection of anti-CTLA-4 monoclonal antibodies (mAbs), either at days 3, 6, and 9 or days 12, 15, and 18. Animals were followed for survival. Splenocytes were harvested at day 22 for use in ELISPOT assays. Early treatment of established intracranial gliomas with high-dose CTLA-4 blockade was associated with increased survival in GL261-bearing mice. Later treatment with anti-CTLA-4 mAbs did not significantly improve survival compared to control-treated mice. Early vaccination followed by subsequent CTLA-4 blockade was associated with significantly improved survival versus either treatment alone and intensified tumor-specific immunity as measured by interferon-gamma ELISPOT. Sequential immunotherapy with GM-CSF-expressing irradiated glioma cells and CTLA-4 blockade synergistically prolongs survival in mice bearing established intracranial gliomas.

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Hyponatremia associated with Ipilimumab-induced hypophysitis

et al. 2011

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A 75-year-old woman with a history of stage IV metastatic melanoma underwent treatment with the CTLA-4 blocking agent Ipilimumab. She presented 2 months after initiating treatment with a severe headache. Laboratories were consistent with severe hyponatremia. MRI of the brain revealed enlargement of the pituitary gland, enhancement of the infundibulum, and an enhancing, centrally necrotic foci in the anterior pituitary. Based on the clinical and radiographic findings, she was diagnosed with treatment-related syndrome of inappropriate antidiuretic hormone secretion (SIADH). Effective treatment consisted of fluid restriction, hyperosmolar therapy, and steroids.

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