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ABSTRACT: Engineered measles virus (MV) strains deriving from the vaccine lineage represent a promising oncolytic platform and are currently being tested in phase I trials. In this study, we have demonstrated that MV strains genetically engineered to express the human sodium iodide symporter (NIS) have significant antitumor activity against glioma lines and orthotopic xenografts; this compares favorably with the MV strain expressing the human carcinoembryonic antigen, which is currently in clinical testing. Expression of NIS protein in infected cells results in effective concentration of radioactive iodine, which allows for in vivo monitoring of localization of MV-NIS infection by measuring uptake of (123)I or (99m)Tc. In addition, radiovirotherapy with MV-NIS followed by (131)I administration resulted in significant increase of MV-NIS antitumor activity as compared with virus alone in both subcutaneous (p=0.0003) and orthotopic (p=0.004) glioblastoma models. In conclusion, MV-NIS-based radiovirotherapy has significant antitumor activity against glioblastoma multiforme and represents a promising candidate for clinical translation.
Human gene therapy 12/2011; 23(4):419-27. · 4.20 Impact Factor
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Alan H Bryce,
Ravi Rao, Jann Sarkaria,
Joel M Reid,
Yingwei Qi,
Rui Qin,
C David James,
Robert B Jenkins,
Joseph Boni,
Charles Erlichman,
Paul Haluska
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ABSTRACT: Purpose Activation of EGFR can stimulate proliferative and survival signaling through mTOR. Preclinical data demonstrates synergistic activity of combined EGFR and mTOR inhibition. We undertook a phase I trial of temsirolimus (T, an mTOR inhibitor) and EKB-569 (E, an EGFR inhibitor) to determine the safety and tolerability. Methods The primary aim was to determine the maximally tolerated dose (MTD) of this combination in adults with solid tumors. Following the dose-escalation phase, (Cohort A), two subsequent cohorts were used to assess any pharmacokinetic (PK) interaction between the agents. Results Forty eight patients were enrolled. The MTD of this combination was E, 35 mg daily and T, 30 mg on days 1-3 and 15-17 using a 28-day cycle. The most common toxicities were nausea, diarrhea, fatigue, anorexia, stomatitis, rash, anemia, neutropenia, thrombocytopenia, and hypertriglyceridemia. Sixteen patients (36%) had at least one grade 3 toxicity. The most frequent grade 3/4 toxicities were diarrhea, dehydration, and nausea and vomiting (19% each). No grade 5 events were seen. Four patients had a partial response and 15 had stable disease. Clinical benefit was seen across a range of tumor types and in all cohorts. PK analysis revealed no significant interaction between E and T. Conclusions This combination of agents is associated with tolerable toxicities at doses that induced responses. PK studies revealed no interaction between the drugs. Further investigations of this targeting strategy may be attractive in renal cell carcinoma, non-small cell lung cancer, alveolar sarcoma, and carcinoid tumor.
Investigational New Drugs 09/2011; 30(5):1934-41. · 3.36 Impact Factor
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ABSTRACT: Advances in molecular genetics have aided the identification of potential biomarkers with significant clinical promise in neurooncology. These advances and the evolution of targeted therapeutics necessitate the development and incorporation of innovative clinical trial designs that can effectively validate and assess the clinical utility of biomarkers. In this article, we review the use and potential of several such designs in neurooncology trials in order to support the development of personalized treatment approaches for brain tumor patients.
Current Oncology Reports 02/2011; 13(1):42-9. · 2.55 Impact Factor
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ABSTRACT: The receptor tyrosine kinase, c-Met and its ligand hepatocyte growth factor (HGF) are important regulators of malignancy in human cancer including brain tumors. c-Met is frequently activated in brain tumors and has emerged as a promising target for molecular therapies. Recently, an orally bioavailable small molecule kinase inhibitor of c-Met (SGX523) was developed by SGX Pharmaceuticals. We tested the effects of this inhibitor on c-Met brain tumor cell activation, c-Met-dependent malignancy, and in vivo glioma xenograft growth. SGX523 potently inhibited c-Met activation and c-Met-dependent signaling at nanomolar concentrations in glioma cells, primary gliomas, glioma stem cells and medulloblastoma cells. SGX523 treatment inhibited c-Met-dependent brain tumor cell proliferation and G1/S cell cycle progression. SGX523 also inhibited brain tumor cell migration and invasion. Furthermore, systemic delivery of SGX523 via oral gavage to mice bearing orthotopic human glioblastoma xenografts led to a significant decrease of in vivo tumor growth. These studies show that c-Met activation and c-Met-dependent brain tumor cell and stem cell malignancy can be inhibited by small molecules. The study also shows for the first time that oral delivery of a small molecule kinase inhibitor of c-Met inhibits intracranial tumor growth. These findings suggest that targeting c-Met with small molecule kinase inhibitors is a promising approach for brain tumor therapy.
Anti-Cancer Agents in Medicinal Chemistry (Formerly Current Medicinal Chemistry - Anti-Cancer Agents) 12/2009; 10(1):28-35. · 2.86 Impact Factor
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ABSTRACT: The receptor tyrosine kinase, c-Met and its ligand hepatocyte growth factor (HGF) are important regulators of malignancy in human cancer including brain tumors. c-Met is frequently activated in brain tumors and has emerged as a promising target for molecular therapies. Recently, an orally bioavailable small molecule kinase inhibitor of c-Met (SGX523) was developed by SGX Pharmaceuticals. We tested the effects of this inhibitor on c-Met brain tumor cell activation, c-Met-dependent malignancy, and in vivo glioma xenograft growth. SGX523 potently inhibited c-Met activation and c-Met-dependent signaling at nanomolar concentrations in glioma cells, primary gliomas, glioma stem cells and medulloblastoma cells. SGX523 treatment inhibited c-Met-dependent brain tumor cell proliferation and G1/S cell cycle progression. SGX523 also inhibited brain tumor cell migration and invasion. Furthermore, systemic delivery of SGX523 via oral gavage to mice bearing orthotopic human glioblastoma xenografts led to a significant decrease of in vivo tumor growth. These studies show that c-Met activation and c-Met-dependent brain tumor cell and stem cell malignancy can be inhibited by small molecules. The study also shows for the first time that oral delivery of a small molecule kinase inhibitor of c-Met inhibits intracranial tumor growth. These findings suggest that targeting c-Met with small molecule kinase inhibitors is a promising approach for brain tumor therapy.
Anti-cancer agents in medicinal chemistry 12/2009; 10(1):28-35.
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Gaspar J Kitange,
Brett L Carlson,
Ann C Mladek,
Paul A Decker,
Mark A Schroeder,
Wenting Wu,
Patrick T Grogan,
Caterina Giannini,
Karla V Ballman,
Jan C Buckner,
C David James, Jann N Sarkaria
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ABSTRACT: CpG methylation within the O6-methylguanine-DNA-methyltransferase (MGMT) promoter is associated with enhanced survival of glioblastoma multiforme (GBM) patients treated with temozolomide (TMZ). Although MGMT promoter is methylated in approximately 50% of GBM, several studies have reported a lack of correlation between MGMT methylation and protein expression levels and consequently inaccurate discrimination of TMZ sensitive and resistant patients. To understand the limitations of currently used assays, TMZ responsiveness of 13 GBM xenograft lines was correlated with MGMT protein expression and MGMT promoter methylation determined by (1) standard methylation-specific polymerase chain reaction (MS-PCR), (2) quantitative MS-PCR (qMS-PCR), and (3) bisulfite sequencing. For each xenograft line, mice with established intracranial xenografts were treated with vehicle control or TMZ (66 mg/kgx5 days), and TMZ response was defined as relative prolongation in median survival for TMZ-treated versus control-treated mice. The relative survival benefit with TMZ was inversely related to MGMT protein expression (r=-0.75; P=0.003) and directly correlated with qMS-PCR (r=0.72; P=0.006). There was a direct correlation between MGMT methylation signal by qMS-PCR and the number of methylated CpG sites within the region amplified by MS-PCR (r=0.78, P=0.002). However, bisulfite sequencing revealed heterogeneity in the extent of CpG methylation in those tumors with a robust qMS-PCR signal. Three of the 4 GBM lines with a qMS-PCR signal greater than 10% had at least 1 unmethylated CpG site, while only one line was fully methylated at all 12 CpG sites. These data highlight one potential limitation of the evaluation of MGMT methylation by MS-PCR assay and suggest that more detailed evaluation of methylation at individual CpG sites relative to TMZ response may be worth pursuing.
Journal of Neuro-Oncology 12/2008; 92(1):23-31. · 3.21 Impact Factor
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Fausto J Rodriguez,
Caterina Giannini,
Yan W Asmann,
Mukesh K Sharma,
Arie Perry,
Kathleen M Tibbetts,
Robert B Jenkins,
Bernd W Scheithauer,
Shrikant Anant,
Sarah Jenkins,
Charles G Eberhart, Jann N Sarkaria,
David H Gutmann
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ABSTRACT: Pilocytic astrocytomas (PAs) are World Health Organization Grade I gliomas; they most often affect children and young adults and occur in patients with neurofibromatosis type 1 (NF1). To identify genes that are differentially expressed in sporadic (S-PA) versus NF1-associated PAs (NF1-PAs) and those that might reflect differences in clinical behavior, we performed gene expression profiling using Affymetrix U133 Plus2.0 GeneChip arrays in 36 S-PAs and 11 NF1-PAs. Thirteen genes were overexpressed, and another 13 genes were underexpressed in NF1-PAs relative to S-PAs. Immunohistochemical studies performed on 103 tumors, representing 2 independently generated tissue microarrays, confirmed the differential expression of CUGBP2 (p = 0.0014), RANBP9 (p = 0.0075), ITGAV1 (p = 0.0001), and INFGR1 (p = 0.024) proteins. One of the underexpressed genes, aldehyde dehydrogenase 1 family member L1 (ALDH1L1), was also reduced in clinically aggressive compared with typical PAs (p = 0.01) and in PAs with increased cellularity and necrosis. Furthermore, in an additional independent set of tumors, weak to absent ALDH1L1 expression was found in 13 (72%) of 18 clinically aggressive PAs, in 8 (89%) of 9 PAs with pilomyxoid features, in 7 (70%) of 10 PAs with anaplastic transformation, and in 16 (76%) of 21 diffusely infiltrating astrocytomas of various grades. In summary, we have identified a molecular signature that distinguishes NF1-PA from S-PA and found that ALDH1L1 underexpression is associated with aggressive histology and/or biologic behavior.
Journal of Neuropathology and Experimental Neurology 12/2008; 67(12):1194-204. · 4.26 Impact Factor
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ABSTRACT: The majority of glioblastoma multiforme (GBM) tumors (80%) overexpress interleukin-13 receptor alpha2 (IL-13Ralpha2), but there is no expression of IL-13Ralpha2 in normal brain. Vaccine strains of measles virus have significant antitumor activity against gliomas. We tested the hypothesis that measles virus entry could be retargeted via the IL-13Ralpha2. MV-GFP-H(AA)-IL-13 was generated from the Edmonston-NSe vaccine strain, by displaying human IL-13 at the C-terminus of the H protein, and introducing CD46 and signaling lymphocyte activation molecule (SLAM)-ablating mutations in H. The IL-13 retargeted virus showed significant cytopathic effect (CPE) against IL-13Ralpha2 overexpressing glioma lines, and lack of CPE/viral replication in normal human astrocytes and normal human fibroblasts not expressing IL-13Ralpha2. In vivo treatment of orthotopically implanted GBM12 xenografts demonstrated significant prolongation of survival in mice treated with the retargeted strain (P < 0.0001), and comparable activity between the IL-13R retargeted strain and MV-GFP (P = 0.6377). In contrast to MV-GFP-treated mice, administration of the retargeted strain in the central nervous system of measles replication-permissive Ifnar(ko) CD46 Ge mice resulted in lack of neurotoxicity. Strains of measles virus retargeted against the glioma-specific IL-13Ralpha2 receptor have comparable therapeutic efficacy, and improved specificity as compared with the unmodified measles virus strain MV-GFP in vitro and in vivo.
Molecular Therapy 10/2008; 16(9):1556-64. · 6.87 Impact Factor
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ABSTRACT: Intracranial vestibular schwannoma xenografts can be successfully established and followed with bioluminescent imaging (BLI).
Transgenic and xenograft mouse models of vestibular schwannomas have been previously reported in the literature. However, none of these models replicate the intracranial location of these tumors to reflect the human disease. Additionally, traditional imaging methods (magnetic resonance imaging, computed tomography) for following tumor engraftment and growth are expensive and time consuming. BLI has been successfully used to longitudinally follow tumor treatment responses in a noninvasive manner. BLI's lower cost and labor demands make this a more feasible approach for tumor monitoring in studies involving large numbers of mice.
Patient excised vestibular schwannomas were cultured and transduced with firefly luciferase expressing lentivirus. One million cells were stereotactically injected into the right caudate nucleus of 21 nonobese diabetic/severe combined immunodeficient mice. Schwannoma engraftment and growth was prospectively followed for 30 weeks after injection with BLI. After animal sacrifice, the presence of human tumor cells was confirmed with fluorescent in situ hybridization.
Eight (38%) of 21 mice successfully engrafted the schwannoma cells. All of these mice were generated from 4 (67%) of the 6 patient excised tumors. These 8 mice could be differentiated from the nonengrafted mice at 21 weeks. The engrafted group emitted BLI of greater than 100,000 photons/s (range, 142,478-3,106,300 photons/s; average, 618,740 photons/s), whereas the nonengrafted group were all under 100,000 photons/s (range, 0-76,010 photons/s; average, 10,737 photons/s) (p < 0.001). Fluorescent in situ hybridization analysis confirmed the presence of viable human schwannoma cells in much greater numbers in those mice with stable or growing tumors compared with those whose tumors regressed.
We have successfully established an intracranial schwannoma xenograft model that can be followed with noninvasive BLI. We hope to use this model for in vivo testing of schwannoma tumor therapies.
Otology & neurotology: official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology 10/2008; 30(1):105-11. · 1.44 Impact Factor
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ABSTRACT: The effects of combining histone deacetylase (HDAC) inhibitors and proteasome inhibitors were evaluated in both established glioblastoma multiforme (GBM) cell lines and short-term cultures derived from the Mayo Clinic xenograft GBM panel. Coexposure of LBH589 and bortezomib at minimally toxic doses of either drug alone resulted in a striking induction of apoptosis in established U251, U87, and D37 GBM cell lines, as well as in GBM8, GBM10, GBM12, GBM14, and GBM56 short-term cultured cell lines. Synergism of apoptosis induction was also observed in U251 cells when coexposing cells to other HDAC inhibitors, including LAQ824 and trichostatin A, with the proteasome inhibitor MG132, thus demonstrating a class effect. In U251 cells, bortezomib alone or in combination with LBH589 decreased Raf-1 levels and suppressed Akt and Erk activation. LBH589 or bortezomib alone increased expression of the cell cycle regulators p21 and p27. Additionally, the combination, but not the individual agents, markedly enhanced JNK activation. Synergistic induction of apoptosis after exposure to LBH589 and bortezomib was partially mediated by Bax translocation from the cytosol to the mitochondria resulting from Bax conformational changes. Bax translocation precedes cytochrome c release and apoptosis, and selective down-regulation of Bax using siRNA significantly mitigates the cytotoxicity of LBH589 and bortezomib. This combination regimen warrants further preclinical and possible clinical study for glioma patients.
Neuro-Oncology 05/2008; 10(3):309-19. · 5.72 Impact Factor
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ABSTRACT: This study was undertaken to characterize preclinical cytotoxic interactions for human malignancies between the multikinase inhibitor sorafenib (BAY 43-9006) and proteasome inhibitors bortezomib or MG132. Multiple tumor cell lines of varying histiotypes, including A549 (lung adenocarcinoma), 786-O (renal cell carcinoma), HeLa (cervical carcinoma), MDA-MB-231 (breast), K562 (chronic myelogenous leukemia), Jurkat (acute T-cell leukemia), MEC-2 (B-chronic lymphocytic leukemia), and U251 and D37 (glioma), as well as cells derived from primary human glioma tumors that are likely a more clinically relevant model were treated with sorafenib or bortezomib alone or in combination. Sorafenib and bortezomib synergistically induced a marked increase in mitochondrial injury and apoptosis, reflected by cytochrome c release, caspase-3 cleavage, and poly(ADP-ribose) polymerase degradation in a broad range of solid tumor and leukemia cell lines. These findings were accompanied by several biochemical changes, including decreased phosphorylation of vascular endothelial growth factor receptor-2, platelet-derived growth factor receptor-beta, and Akt and increased phosphorylation of stress-related c-Jun NH2-terminal kinase (JNK). Inhibition of Akt was required for synergism, as a constitutively active Akt protected cells against apoptosis induced by the combination. Alternatively, the JNK inhibitor SP600125 could also protect cells from apoptosis induced by the combination, indicating that both inhibition of Akt and activation of JNK were required for the synergism. These findings show that sorafenib interacts synergistically with bortezomib to induce apoptosis in a broad spectrum of neoplastic cell lines and show an important role for the Akt and JNK pathways in mediating synergism. Further clinical development of this combination seems warranted.
Molecular Cancer Therapeutics 10/2006; 5(9):2378-87. · 5.23 Impact Factor
