Clinical phase I and pharmacokinetic study of S 16020, a new olivacine derivative: report on three infusion schedules.

S 16020, a new 9-OH olivacine derivative, is a novel topoisomerase II inhibitor with activity in cell lines presenting the classical multidrug resistance phenotype. This report summarizes, in addition to pharmacokinetic data, the whole phase I clinical experience of S 16020 using three different infusion schedules. Asthenia and skin toxicity were the main side effects. In an attempt to understand the skin toxicity mechanism, experiments in animals were performed, the results of which are reported. S 16020 showed rapid tumor necrotizing activity in some patients, with soft tissue metastases of epidermoïd tumors and pain at the tumor site. To document the side effects of S 16020 and tumor site reactions (pain, edema, inflammatory signs), inflammatory parameters and some cytokines were measured. In our patients there was no hemolysis and no detection of anti-S 16020 antibodies, confirming the absence of immunogenicity of the compound. Based on the overall data of the three infusion schedules of S 16020, the dose of 100 mg/m(2) over 3 h every 3 weeks was selected for phase II studies.Clinical TrialClinical Trial, Phase IJournal ArticleMulticenter Studyinfo:eu-repo/semantics/publishe

Agrobacterium rhizogenes-Mediated Transformation and Its Biotechnological Applications in Crops

The history of Agrobacterium-related plant biotechnology goes back for more than three decades with the discovery of molecular mechanisms of crown gall disease in plants. After 1980s, gene technologies began developing rapidly and today, related with the improved gene transfer methods, plant biotechnology has become one of the most important branches in science. Till now, the most important genes related with agricultural affairs have been utilized for cloning of plants with the deployment of different techniques used in genetic engineering. Especially, Agrobacterium tumefaciens was used extensively for transferring desired genetic materials to plants rapidly and effectively by the researchers to create transgenic plants. Recognition of the biology of Agrobacterium species and newly developed applications of their T-DNA systems has been a great step in plant biotechnology. This chapter provides the reader with extensive information on A. rhizogenes which is responsible for the development of hairy root disease in a wide range of dicotyledonous plants and its T-DNA system. This knowledge will be useful in improving utilization of crops and the formulation of new and up-graded transgenic based food products