Induction of Cytotoxic Oxidative Stress by d-Alanine in Brain Tumor Cells Expressing Rhodotorula gracilis d-Amino Acid Oxidase: A Cancer Gene Therapy Strategy

Overview summary Gene-directed enzyme prodrug therapy (GDEPT) is an antineoplastic treatment strategy designed to overcome the systemic toxicity of chemotherapy by specifically expressing a foreign enzyme in malignant cells that converts a nontoxic prodrug into a cytotoxic metabolite. The relative inefficiency of current in situ gene transfer methodology suggests that enzyme/prodrug combinations that produce membrane permeable metabolites will elicit a more favorable therapeutic response. Ideally, the agent produced by the transduced cell “factories” would be cytotoxic toward both proliferating and quiescent cells. We describe a novel GDEPT approach using d-amino acid oxidase from the red yeast Rhodotorula gracilis and d-alanine as a substrate that generates hydrogen peroxide, a reactive metabolite of oxygen that has both these characteristics. We also demonstrate the ability to sensitize tumor cells to this GDEPT protocol by manipulating cellular antioxidant pathways.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/63220/1/hum.1998.9.2-185.pd

Response of a primary human fibroblast cell line to H2O2: Senescence-like growth arrest or apoptosis

Hydrogen peroxide has been shown to induce either apoptosis or features of senescence in different cultured cell lines. We now show that both processes can be induced in the same culture of primary human diploid fibroblasts and that the outcome of apoptosis or the senescence-like phenotype is determined by the H2O2 concentrations, At 50 and 100 mu M, H2O2 predominantly induced the senescence-like state, characterized by a reduced rate of proliferation, an increased number of cells in G(0)-G(1), typically enlarged and flattened morphology, and increased CIP1 and fibronectin expression, At 300 and 400 mu M, H2O2 mainly triggered apoptosis. At the intermediate 200 mu M H2O2, features of both senescence and apoptosis were observed in the same culture, Thus, the higher the H2O2 concentration, the higher the proportion of cells undergoing apoptosis, suggesting a key role of the level of damage in the choice of a cell population to enter apoptosis and/or the senescence-like state, Before the induction of one or the other process, cells entered a transient ''shock state'' characterized by a typical morphological change, cell cycle arrest in G(0)G(1), and the induction of CIP1 and BCL-2

Projet COPAIRNIC

National audienc

Projet COPAIRNIC

National audienc

Photosynthetic pigment concentration, organization and interconversions in a pale green Syrian landrace of barley (Hordeum vulgare L. Tadmor) adapted to harsh climatic conditions

Tadmor is a Syrian barley landrace that has adapted to semi-arid environments. Its leaves are pale green because of a 30% decrease in the chlorophyll and the carotenoid content of the chloroplasts (leading to a 7.5% decrease in light absorption) compared with barley genotypes that are not adapted to harsh Mediterranean climatic conditions (e.g. Plaisant). This difference in pigment content was attenuated during growth of the plants in strong light, but was strongly amplified when strong light was combined with a high growth temperature. The low pigment content of Tadmor leaves was not associated with significant changes in the pigment distribution between the photosystems or between the reaction centres of the photosystems and their associated chlorophyll antennae. No significant difference in the photosynthetic activity (O2 production per unit absorbed light) was observed between Tadmor and Plaisant. The conversion of violaxanthin to zeaxanthin in strong light and its reversal in darkness were much faster and operated at a higher capacity in Tadmor leaves compared with Plaisant leaves, resulting in an increased photostability of photosystem II in the former leaves. The accelerated xanthophylls inter-conversion in the Syrian landrace was associated with, and possibly related to, an increased fluidity of the thylakoid membranes. The lipid peroxide level was lower in Tadmor compared with Plaisant. In contrast, no difference was found in the non-photochemical quenching of chlorophyll fluorescence between the two barley genotypes. The data indicate that the pale green Syrian landrace is equipped to survive excessive irradiance through a passive reduction of the light absorptance of its leaves, which mitigates the heating effects of strong light, and through the active protection of its photochemical apparatus by a rapid xanthophyll cycling.SCOPUS: ar.jFLWINinfo:eu-repo/semantics/publishe