Abstract

Glioblastoma multiforme (GBM) is the most aggressive brain tumor and kills through intracranial growth and spread. We have previously shown (i) the efficiency of the herpes simplex virus type 1 thymidine kinase (HSV1-TK) and systemic ganciclovir (GCV) in eradicating an experimental syngeneic glioma model, (ii) 2-3 fold higher astrocyte- and glioma-specific high-level expression from the powerful 1.4kb major immediate early routine cytomegalovirus promoter (mCMV) compared to the human CMV equivalent, and (iii) unexpected long-term presence (12 months) of HSV1-TK in the brain. Although the efficiency of HSV 1-TK and GCV has been shown in a large variety of experimental models, the clinical results, while encouraging, remain inconclusive. The main reason thought to underlie this difference is the low levels of HSV1-TK expression from currently available vectors. Our experiments will address this issue by vastly increasing therapeutic transgene expression (through the use of a novel promoter) and reducing the viral vector toxicity (through the use of novel safer vectors of reduced toxicity). These findings will have important clinical implications and provide a blueprint for the implementation and design of Phase I clinical trials of gene therapy for GBM. We will validate the efficiency of a novel, safe, high capacity, helper dependent adenoviral vector (HC-Ad) expressing HSV1-TK under the control of the powerful mCMV promoter in a clinically relevant syngeneic experimental glioma model. HSV1-TK induces glioma cell death by phosphorylating the prodrug GCV, and killing both transduced and adjacent non-transduced, actively dividing cells. Killing of non-transduced cells, the 'bystander effect', amplifies this strategy's efficiency through cell-cell diffusion of cytotoxic intermediates (e.g. phosphorylated GCV), release of pro-apoptotic molecules, and immune stimulation. We hypothesize that our novel anti-tumor strategy will deliver high intra- and peritumoral expression of the therapeutic transgene that, combined with systemic dosing of GCV, will lead to sustained and effective anti-tumor effect. Our long term aim is to translate this novel therapeutic approach into a Phase I clinical trial for GBM.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Exploratory/Developmental Grants (R21)
Project #
1R21NS047298-01
Application #
6707021
Study Section
National Institute of Neurological Disorders and Stroke Initial Review Group (NSD)
Program Officer
Finkelstein, Robert
Project Start
2003-09-30
Project End
2005-05-31
Budget Start
2003-09-30
Budget End
2004-05-31
Support Year
1
Fiscal Year
2003
Total Cost
$176,906
Indirect Cost

  Institution

Name
Cedars-Sinai Medical Center
Department
Type
DUNS #
075307785
City
Los Angeles
State
CA
Country
United States
Zip Code
90048

  Publications

Lowenstein, P R; Yadav, Viveka Nand; Chockley, Peter et al. (2014) There must be a way out of here: identifying a safe and efficient combination of promoter, transgene, and vector backbone for gene therapy of neurological disease. Mol Ther 22:246-247
Mineharu, Yohei; Castro, Maria G; Lowenstein, Pedro R et al. (2013) Dendritic cell-based immunotherapy for glioma: multiple regimens and implications in clinical trials. Neurol Med Chir (Tokyo) 53:741-54
Yang, J; Sanderson, N S R; Wawrowsky, K et al. (2010) Kupfer-type immunological synapse characteristics do not predict anti-brain tumor cytolytic T-cell function in vivo. Proc Natl Acad Sci U S A 107:4716-21
Puntel, Mariana; Kroeger, Kurt M; Sanderson, Nicholas S R et al. (2010) Gene transfer into rat brain using adenoviral vectors. Curr Protoc Neurosci Chapter 4:Unit 4.24
Curtin, James F; Liu, Naiyou; Candolfi, Marianela et al. (2009) HMGB1 mediates endogenous TLR2 activation and brain tumor regression. PLoS Med 6:e10
Candolfi, Marianela; Yagiz, Kader; Foulad, David et al. (2009) Release of HMGB1 in response to proapoptotic glioma killing strategies: efficacy and neurotoxicity. Clin Cancer Res 15:4401-14
Ghulam Muhammad, A K M; Candolfi, Marianela; King, Gwendalyn D et al. (2009) Antiglioma immunological memory in response to conditional cytotoxic/immune-stimulatory gene therapy: humoral and cellular immunity lead to tumor regression. Clin Cancer Res 15:6113-27
Puntel, M; Barrett, R J; Mondkar, S et al. (2009) Herpes simplex virus type 1 thymidine kinase sequence fused to the lacz gene increases levels of {beta}-galactosidase activity per genome of high-capacity but not first-generation adenoviral vectors in vitro and in vivo. J Virol 83:2004-10
Candolfi, Marianela; Kroeger, Kurt M; Muhammad, A K M G et al. (2009) Gene therapy for brain cancer: combination therapies provide enhanced efficacy and safety. Curr Gene Ther 9:409-21
King, Gwendalyn D; Kroeger, Kurt M; Bresee, Catherine J et al. (2008) Flt3L in combination with HSV1-TK-mediated gene therapy reverses brain tumor-induced behavioral deficits. Mol Ther 16:682-90

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