PURPOSE: Advances in brain tumor biology indicate that transfer of p53 is an alternative therapy for human gliomas. Consequently, we undertook a phase I clinical trial of p53 gene therapy using an adenovirus vector (Ad-p53, INGN 201). MATERIALS AND METHODS: To obtain molecular information regarding the transfer and distribution of exogenous p53 into gliomas after intratumoral injection and to determine the toxicity of intracerebrally injected Ad-p53, patients underwent a two-stage approach. In stage 1, Ad-p53 was stereotactically injected intratumorally via an implanted catheter. In stage 2, the tumor-catheter was resected en bloc, and the postresection cavity was treated with Ad-p53. This protocol provided intact Ad-p53-treated biologic specimens that could be analyzed for molecular end points, and because the resection cavity itself was injected with Ad-p53, patients could be observed for clinical toxicity. RESULTS: Of fifteen patients enrolled, twelve underwent both treatment stages. In all patients, exogenous p53 protein was detected within the nuclei of astrocytic tumor cells. Exogenous p53 transactivated p21CIP/WAF and induced apoptosis. However, transfected cells resided on average within 5 mm of the injection site. Clinical toxicity was minimal and a maximum-tolerated dose was not reached. Although anti-adenovirus type 5 (Ad5) titers increased in most patients, there was no evidence of systemic viral dissemination. CONCLUSION: Intratumoral injection of Ad-p53 allowed for exogenous transfer of the p53 gene and expression of functional p53 protein. However, at the dose and schedule evaluated, transduced cells were only found within a short distance of the injection site. Although toxicity was minimal, widespread distribution of this agent remains a significant goal.
PURPOSE: Advances in brain tumor biology indicate that transfer of p53 is an alternative therapy for humangliomas. Consequently, we undertook a phase I clinical trial of p53 gene therapy using an adenovirus vector (Ad-p53, INGN 201). MATERIALS AND METHODS: To obtain molecular information regarding the transfer and distribution of exogenous p53 into gliomas after intratumoral injection and to determine the toxicity of intracerebrally injected Ad-p53, patients underwent a two-stage approach. In stage 1, Ad-p53 was stereotactically injected intratumorally via an implanted catheter. In stage 2, the tumor-catheter was resected en bloc, and the postresection cavity was treated with Ad-p53. This protocol provided intact Ad-p53-treated biologic specimens that could be analyzed for molecular end points, and because the resection cavity itself was injected with Ad-p53, patients could be observed for clinical toxicity. RESULTS: Of fifteen patients enrolled, twelve underwent both treatment stages. In all patients, exogenous p53 protein was detected within the nuclei of astrocytic tumor cells. Exogenous p53 transactivated p21CIP/WAF and induced apoptosis. However, transfected cells resided on average within 5 mm of the injection site. Clinical toxicity was minimal and a maximum-tolerated dose was not reached. Although anti-adenovirus type 5 (Ad5) titers increased in most patients, there was no evidence of systemic viral dissemination. CONCLUSION: Intratumoral injection of Ad-p53 allowed for exogenous transfer of the p53 gene and expression of functional p53 protein. However, at the dose and schedule evaluated, transduced cells were only found within a short distance of the injection site. Although toxicity was minimal, widespread distribution of this agent remains a significant goal.
Authors: Jeffrey M Zirger; Mariana Puntel; Josee Bergeron; Mia Wibowo; Rameen Moridzadeh; Niyati Bondale; Carlos Barcia; Kurt M Kroeger; Chunyan Liu; Maria G Castro; Pedro R Lowenstein Journal: Mol Ther Date: 2012-01-10 Impact factor: 11.454
Authors: S Goverdhana; M Puntel; W Xiong; J M Zirger; C Barcia; J F Curtin; E B Soffer; S Mondkar; G D King; J Hu; S A Sciascia; M Candolfi; D S Greengold; P R Lowenstein; M G Castro Journal: Mol Ther Date: 2005-08 Impact factor: 11.454
Authors: Marianela Candolfi; James F Curtin; Wei-Dong Xiong; Kurt M Kroeger; Chunyan Liu; Altan Rentsendorj; Hasmik Agadjanian; Lali Medina-Kauwe; Donna Palmer; Philip Ng; Pedro R Lowenstein; Maria G Castro Journal: Mol Ther Date: 2006-06-23 Impact factor: 11.454
Authors: Marianela Candolfi; Kurt M Kroeger; G Elizabeth Pluhar; Josee Bergeron; Mariana Puntel; James F Curtin; Elizabeth A McNiel; Andrew B Freese; John R Ohlfest; Peter Moore; Pedro R Lowenstein; Maria G Castro Journal: Neurosurgery Date: 2007-01 Impact factor: 4.654
Authors: Maria G Castro; Marianela Candolfi; Thomas J Wilson; Alexandra Calinescu; Christopher Paran; Neha Kamran; Carl Koschmann; Mariela A Moreno-Ayala; Hikmat Assi; Pedro R Lowenstein Journal: Expert Opin Biol Ther Date: 2014-04-29 Impact factor: 4.388