Identification of a cardiac sodium channel insensitive to synthetic modulators.

BACKGROUND: DPI 201-106 (DPI) was the first synthetic compound showing cardioselective modulation of voltage-gated sodium channels (VGSCs) resulting in a positive inotropic effect. Currently, the exact mode of action for this class of compounds is not known. METHODS: Effects of different natural and synthetic sodium channel modulators were investigated in cardiac tissue of several species with conventional electrophysiologic methods. RESULTS: In electrically driven cardiac tissues, all compounds investigated increased force of contraction (FC) and action potential duration (APD) with increasing concentrations except for DPI in cattle trabecular muscle, which demonstrated no effect. Interestingly, calculation of EC50 levels at 30% repolarization demonstrates that natural VGSC-ligands were highly potent in prolonging the APD in cattle whereas no positive trends could be obtained for DPI and SDZ 211-939 (SDZ) in cattle. CONCLUSIONS: These results demonstrate that the binding site for DPI and SDZ is distinct from sites 2 or 3 of the VGSC alpha-subunit. Moreover, this is the first time that these compounds show no effect or even shortening of APD. This finding will enable the characterization of the mode of action and probably the binding site for synthetic VGSC-modulators.

Structure, function and pharmacology of voltage-gated sodium channels.

Voltage-gated sodium channels (VGSCs) are responsible for the initial inwards current during the depolarisation phase of action potential in excitable cells. Therefore, VGSCs are crucial for cardiac and nerve function, since the action potential of nerves and muscle cannot occur without them. Their importance in generation and transmission of signals has been known for more than 40 years but the more recent introduction of new electrophysiological methods and application of molecular biology techniques has led to an explosion of research on many different ion channels, including VGSCs. Their extraordinary biological importance makes them logical and obvious targets for toxins produced by animals and plants for attack or defence. The action of these and similar substances modulating the function of the VGSCs is interesting with respect to their possible use in medicine or use as tools in the study of these molecules. This review summarises recent progress in this research field and, in particular, considers what is known about the relationship of the structure to function, including a current understanding of the pharmacological modulation of VGSCs.

An indirect ELISA for the detection of antibodies against porcine reproductive and respiratory syndrome virus using recombinant nucleocapsid protein as antigen.

An indirect enzyme-linked immunosorbent assay termed rnPRRS ELISA using baculovirus-expressed and affinity-purified viral nucleocapsid protein (rNC) antigen was developed for detecting antibodies against porcine reproductive and respiratory syndrome virus (PRRSV) in swine sera. Sera (1395) originating from different European countries were used for the validation of this assay. The rnPRRS ELISA was capable of detecting antibodies in all sera known to contain anti-PRRSV antibodies, resulting in 100% sensitivity. The specificity was 95.8%. The rnPRRS ELISA was more sensitive compared to the most widely used tests for the diagnosis of porcine reproductive and respiratory syndrome (PRRS) (i) a commercially available ELISA; (ii) the indirect immunofluorescence assay (IIFA); and (iii) the immunoperoxidase monolayer assay (IPMA). The main advantage of the rnPRRS ELISA compared to an ELISA using whole virus antigen is the use of a single immunogenic protein instead of infectious PRRSV. The rnPRRS ELISA is suitable for routine diagnosis of PRRS and also for epidemiological surveys since it allows highly reliable testing of a large number of sera within a short period of time.