S Nuyts1, J Theys, W Landuyt, L van Mellaert, P Lambin, J Anné. 1. Laboratory of Experimental Radiobiology, University Hospital Gasthuisberg, Herestraat 49, 3000 Leuven, Belgium. Sandra.Nuyts@rega.kuleuven.ac.be
Abstract
BACKGROUND: Pathogenic clostridia, genetically engineered to express therapeutic genes, will specifically target hypoxic regions in tumors. This specificity can be further improved if expression of these genes is controlled by a radio-induced promoter, leading to spatial and temporal control of gene expression. MATERIALS AND METHODS: Following administration of Clostridium spores to tumor bearing rats, normal tissue and tumoral specimens were compared for colonization. Clostridium was genetically modified to express tumor necrosis factor a or cytosine deaminase. Expression of these proteins was assayed. Northern blot hybridizations were used to detect genes which are radio-induced. RESULTS: Clostridium gave a selective colonization of tumors. The recombinant clostridia expressed in vitro and in vivo TNF alpha and cytosine deaminase. Clostridial SOS-repair genes were induced at a dose of 2 Gy. CONCLUSIONS: Pathogenic Clostridium can be used for tumor specific delivery of therapeutic genes. The specificity can be improved via radio-induced promoters. Overall, this new gene delivery system can lead to an increase of the therapeutic ratio in cancer treatment.
BACKGROUND: Pathogenic clostridia, genetically engineered to express therapeutic genes, will specifically target hypoxic regions in tumors. This specificity can be further improved if expression of these genes is controlled by a radio-induced promoter, leading to spatial and temporal control of gene expression. MATERIALS AND METHODS: Following administration of Clostridium spores to tumor bearing rats, normal tissue and tumoral specimens were compared for colonization. Clostridium was genetically modified to express tumornecrosis factor a or cytosine deaminase. Expression of these proteins was assayed. Northern blot hybridizations were used to detect genes which are radio-induced. RESULTS: Clostridium gave a selective colonization of tumors. The recombinant clostridia expressed in vitro and in vivo TNF alpha and cytosine deaminase. Clostridial SOS-repair genes were induced at a dose of 2 Gy. CONCLUSIONS: Pathogenic Clostridium can be used for tumor specific delivery of therapeutic genes. The specificity can be improved via radio-induced promoters. Overall, this new gene delivery system can lead to an increase of the therapeutic ratio in cancer treatment.
Authors: S Nuyts; L Van Mellaert; S Barbé; E Lammertyn; J Theys; W Landuyt; E Bosmans; P Lambin; J Anné Journal: Appl Environ Microbiol Date: 2001-10 Impact factor: 4.792
Authors: Shie-Chau Liu; G-One Ahn; Mitomu Kioi; Mary-Jo Dorie; Adam V Patterson; J Martin Brown Journal: Cancer Res Date: 2008-10-01 Impact factor: 12.701