Irene van der Woude scite author profile

Novel, double-chained pyridinium compounds have been developed that display highly efficient DNA transfection properties. The transfection efficiency of several of these compounds is enhanced by an order of magnitude, when compared with the transfection efficiency accomplished with the widely used cationic lipid system, lipofectin. Most importantly, the pyridinium compounds were found to be essentially nontoxic toward cells. Using various reporter genes, such as ␤-galactosidase and pNEO (a gene construct that renders cells resistent to antibiotic derivatives of neomycin like G418), we demonstrate that the enhanced efficiency relates to the fact that a relative higher number of cells in the population is transfected (Ϸ50% in the case of COS cells) by the pyridinium derivatives, whereas the delivery of DNA per cell is also enhanced. Furthermore, application of the pyridinium derivatives shows little cellular preference in their ability to transfect cells. By systematically modifying the structure of the pyridinium amphiphile, i.e., by changing either the headgroup structure or the alkyl chains, some insight was obtained that may lead to unraveling the mechanism of amphiphile-mediated transfection, and thus to protocols that further optimize the carrier properties of the amphiphile. Our results reveal that unsaturated alkyl chains enhance the transfection properties of the pyridinium-based amphiphiles. Preliminary experiments suggest that the structure-dependent improvement of transfection efficiency, when comparing pyridinium derivatives with lipofectin, likely relates to the mechanism of delivery rather than the packaging of the amphiphile͞DNA complex.

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Parameters influencing the introduction of plasmid DNA into cells by the use of synthetic amphiphiles as a carrier system

Woude¹,

Visser²,

Beest³

et al. 1995

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Parameters that affect cellular transfection as accomplished by introducing DNA via carriers composed of cationic synthetic amphiphiles, have been investigated, with the aim to obtain insight into the mechanism of DNA translocation. Such insight may be exploited in optimizing carrier properties of synthetic amphiphiles for molecules other than nucleic acids. In the present work, the interaction of vesicles composed of the cationic amphiphile dioleyloxy-propyl-trimethylammonium chloride (DOTMA) with cultured cells was examined. The results show that optimal transfection is dependent on the concentration of lipid, which determines the efficiency of vesicle interaction with the target cell membrane, as well as the toxicity of the amphiphiles towards the cell. A low lipid/DNA ratio prevents the complex from interacting with the cell surface, whereas at a relatively high amphiphile concentration the complex becomes toxic. Translocation efficiency is independent of the initial vesicle size but is affected by the size of the DNA. An incubation time of the DNA/amphiphile complex and cells of approx. 2-4 h is required for obtaining efficient transfection. In conjunction with observations on DNA/amphiphile complex-induced hemolysis of erythrocytes, a mechanism of DNA-entry is proposed which involves translocation of the nucleic acids through pores across the membranes rather than delivery via fusion or endocytosis. Dioleoylphosphatidylethanolamine, a phospholipid frequently used in a mixture with DOTMA ('lipofectin') strongly facilitates this pore formation. Translocation of the DNA is effectively prevented when the cells are pretreated with Ca2+ or pronase. These observations suggest that Ca(2+)-sensitive cell surface proteins play a role in amphiphile-mediated DNA translocation.

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TAP CBRN Preparedness: Knowledge, Training and Networks

Woude¹,

Cock²,

Bierens

et al. 2008

Prehosp. Disaster med.

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The main goal of this targeted agenda program (TAP) was the establishment of an international network that would be able to advise on how to improve education and training for chemical, biological, radiological, or nuclear (CBRN)) responders. By combining the members of the TAP group, the CBRN Task Force of the World Association for Disaster and Emergency Medicine (WADEM) and the European network of the Hesculaep Group, an enthusiastic and determined group has been established to achieve the defined goal. It was acknowledged that the bottlenecks for education and training for CBRN responders are mainly awareness and preparedness. For this reason, even basic education and training on CBRN is lacking. It was advised that the focus for the future should be on the development of internationally standardized protocols and standards. The face-to-face discussions of the TAP will be continued at future Hesculaep expert meetings. The intention is that during the 16WCDEM, the achievements of the established network will be presented.

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Human biological monitoring for exposure assessment in response to an incident involving hazardous materials

et al. 2014

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