Literature DB >> 20467451

Enhanced efficiency of prodrug activation therapy by tumor-selective replicating retrovirus vectors armed with the Escherichia coli purine nucleoside phosphorylase gene.

C-K Tai1, W Wang, Y-H Lai, C R Logg, W B Parker, Y-F Li, J S Hong, E J Sorscher, T C Chen, N Kasahara.   

Abstract

Gene transfer of the Escherichia coli purine nucleoside phosphorylase (PNP) results in potent cytotoxicity after administration of the prodrug fludarabine phosphate (F-araAMP). Here, we have tested whether application of this strategy in the context of replication-competent retrovirus (RCR) vectors, which can achieve highly efficient tumor-restricted transduction as well as persistent expression of transgenes, would result in effective tumor inhibition, or, alternatively, would adversely affect viral replication. We found that RCR vectors could achieve high levels of PNP expression concomitant with the efficiency of their replicative spread, with significant cell killing activity in vitro and potent therapeutic effects in vivo. In U-87 xenograft models, replicative spread of the vector resulted in progressive transmission of the PNP transgene, as evidenced by increasing PNP enzyme activity with time after vector inoculation. On F-araAMP administration, high efficiency gene transfer of PNP by the RCR vector resulted in significant suppression of tumor growth and extended survival time. As the RCR mediates stable integration of the PNP gene and continuous expression, an additional round of F-araAMP administration resulted in further survival benefit. RCR-mediated PNP suicide gene therapy thus represents a highly efficient form of intracellular chemotherapy, and may achieve effective antitumor activity with less systemic toxicity.

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Year:  2010        PMID: 20467451      PMCID: PMC2938767          DOI: 10.1038/cgt.2010.17

Source DB:  PubMed          Journal:  Cancer Gene Ther        ISSN: 0929-1903            Impact factor:   5.987


  35 in total

1.  In vivo gene therapy of cancer with E. coli purine nucleoside phosphorylase.

Authors:  W B Parker; S A King; P W Allan; L L Bennett; J A Secrist; J A Montgomery; K S Gilbert; W R Waud; A H Wells; G Y Gillespie; E J Sorscher
Journal:  Hum Gene Ther       Date:  1997-09-20       Impact factor: 5.695

2.  No retroviremia or pathology in long-term follow-up of monkeys exposed to a murine amphotropic retrovirus.

Authors:  K Cornetta; R A Morgan; A Gillio; S Sturm; L Baltrucki; R O'Reilly; W F Anderson
Journal:  Hum Gene Ther       Date:  1991       Impact factor: 5.695

3.  Amphotropic murine leukemia retrovirus is not an acute pathogen for primates.

Authors:  K Cornetta; R C Moen; K Culver; R A Morgan; J R McLachlin; S Sturm; J Selegue; W London; R M Blaese; W F Anderson
Journal:  Hum Gene Ther       Date:  1990       Impact factor: 5.695

4.  Analysis of mutation in human cells by using an Epstein-Barr virus shuttle system.

Authors:  R B DuBridge; P Tang; H C Hsia; P M Leong; J H Miller; M P Calos
Journal:  Mol Cell Biol       Date:  1987-01       Impact factor: 4.272

5.  Purified herpes simplex thymidine kinase Retrovector particles. I. In vitro characterization, in situ transduction efficiency, and histopathological analyses of gene therapy-treated brain tumors.

Authors:  C A Kruse; M D Roper; B K Kleinschmidt-DeMasters; S J Banuelos; W R Smiley; J M Robbins; F J Burrows
Journal:  Cancer Gene Ther       Date:  1997 Mar-Apr       Impact factor: 5.987

6.  A neutralizable epitope common to the envelope glycoproteins of ecotropic, polytropic, xenotropic, and amphotropic murine leukemia viruses.

Authors:  L H Evans; R P Morrison; F G Malik; J Portis; W J Britt
Journal:  J Virol       Date:  1990-12       Impact factor: 5.103

7.  Preclinical evaluation of a prostate-targeted gene-directed enzyme prodrug therapy delivered by ovine atadenovirus.

Authors:  X Y Wang; R Martiniello-Wilks; J M Shaw; T Ho; N Coulston; C Cooke-Yarborough; P L Molloy; F Cameron; M Moghaddam; T J Lockett; L K Webster; I K Smith; G W Both; P J Russell
Journal:  Gene Ther       Date:  2004-11       Impact factor: 5.250

8.  Excellent in vivo bystander activity of fludarabine phosphate against human glioma xenografts that express the escherichia coli purine nucleoside phosphorylase gene.

Authors:  Jeong S Hong; William R Waud; Dana N Levasseur; Tim M Townes; Hui Wen; Sylvia A McPherson; Bryan A Moore; Zsuzsa Bebok; Paula W Allan; John A Secrist; William B Parker; Eric J Sorscher
Journal:  Cancer Res       Date:  2004-09-15       Impact factor: 12.701

9.  Tumor cell bystander killing in colonic carcinoma utilizing the Escherichia coli DeoD gene to generate toxic purines.

Authors:  E J Sorscher; S Peng; Z Bebok; P W Allan; L L Bennett; W B Parker
Journal:  Gene Ther       Date:  1994-07       Impact factor: 5.250

10.  Helper virus induced T cell lymphoma in nonhuman primates after retroviral mediated gene transfer.

Authors:  R E Donahue; S W Kessler; D Bodine; K McDonagh; C Dunbar; S Goodman; B Agricola; E Byrne; M Raffeld; R Moen
Journal:  J Exp Med       Date:  1992-10-01       Impact factor: 14.307
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  21 in total

Review 1.  Gene therapy and virotherapy: novel therapeutic approaches for brain tumors.

Authors:  Kurt M Kroeger; A K M Ghulam Muhammad; Gregory J Baker; Hikmat Assi; Mia K Wibowo; Weidong Xiong; Kader Yagiz; Marianela Candolfi; Pedro R Lowenstein; Maria G Castro
Journal:  Discov Med       Date:  2010-10       Impact factor: 2.970

Review 2.  Intratumoral generation of 2-fluoroadenine to treat solid malignancies of the head and neck.

Authors:  Turang E Behbahani; Eben L Rosenthal; William B Parker; Eric J Sorscher
Journal:  Head Neck       Date:  2019-01-11       Impact factor: 3.147

3.  Retroviral replicating vectors in cancer.

Authors:  Christopher R Logg; Joan M Robbins; Douglas J Jolly; Harry E Gruber; Noriyuki Kasahara
Journal:  Methods Enzymol       Date:  2012       Impact factor: 1.600

Review 4.  Enzymes to die for: exploiting nucleotide metabolizing enzymes for cancer gene therapy.

Authors:  Andressa Ardiani; Adam J Johnson; Hongmei Ruan; Marilyn Sanchez-Bonilla; Kinta Serve; Margaret E Black
Journal:  Curr Gene Ther       Date:  2012-04-01       Impact factor: 4.391

5.  PRE-CLINICAL AND CLINICAL VALIDATION OF AN ANTI-CANCER MODALITY THAT ABLATES REFRACTORY, LOW GROWTH FRACTION TUMORS.

Authors:  Eric J Sorscher; Jeong S Hong; William B Parker
Journal:  Trans Am Clin Climatol Assoc       Date:  2016

6.  Promotion of metastasis of thyroid cancer cells via NRP-2-mediated induction.

Authors:  Dom-Gene Tu; Wen-Wei Chang; Ming-Shiou Jan; Chi-Wen Tu; Yin-Che Lu; Chien-Kuo Tai
Journal:  Oncol Lett       Date:  2016-09-20       Impact factor: 2.967

7.  Thermus thermophilus nucleoside phosphorylases active in the synthesis of nucleoside analogues.

Authors:  Marcos Almendros; José Berenguer; Jose-Vicente Sinisterra
Journal:  Appl Environ Microbiol       Date:  2012-02-17       Impact factor: 4.792

Review 8.  Gene therapy and targeted toxins for glioma.

Authors:  Maria G Castro; Marianela Candolfi; Kurt Kroeger; Gwendalyn D King; James F Curtin; Kader Yagiz; Yohei Mineharu; Hikmat Assi; Mia Wibowo; A K M Ghulam Muhammad; David Foulad; Mariana Puntel; Pedro R Lowenstein
Journal:  Curr Gene Ther       Date:  2011-06       Impact factor: 4.391

9.  Current status of gene therapy for brain tumors.

Authors:  Andrea M Murphy; Samuel D Rabkin
Journal:  Transl Res       Date:  2012-12-11       Impact factor: 7.012

10.  Use of E. coli Purine Nucleoside Phosphorylase in the Treatment of Solid Tumors.

Authors:  William B Parker; Eric J Sorscher
Journal:  Curr Pharm Des       Date:  2017-11-08       Impact factor: 3.116
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