Standardization of anti-lethal toxin potency test of antivenoms prepared from two different Agkistrodon halys venoms

In Korea, antivenoms for the treatment of patients bitten by venomous snakes have been imported from Japan or China. Although there is cross-reactivity between these antibodies and venoms from snakes indigenous to Korea (e.g. Agkistrodon genus), protection is not optimal. Antivenoms specifically prepared to neutralize Korean snake venoms could be more effective, with fewer side effects. To this end, we established an infrastructure to develop national standards and created a standardized method to evaluate the efficacy of two horse-derived antivenoms using mouse lethal toxin test. Additionally, we determined the antivenoms neutralizing activity against lethal doses (LD50) of Agkistrodon halys (from Japan) and Jiangzhe Agkistrodon halys (from China) venoms. We also performed cross-neutralization tests using probit analysis on each pairing of venom and antivenom in order to check the possibility of using Jiangzhe A. halys venom as a substitute for A. halys venom, the current standard. Slope of A. halys venom with A. halys antivenom was 10.2 and that of A. halys venom with Jiangzhe A. halys antivenom was 9.6. However, Slope of Jiangzhe A. halys venom with A. halys antivenom was 4.7 while that of Jiangzhe A. halys venom with Jiangzhe A. halys antivenom was 11.5. Therefore, the significant difference in slope patterns suggests that Jiangzhe A. halys venom cannot be used as a substitute for the standard venom to test the anti-lethal toxin activity of antivenoms (p 0.05).

Standardization of an antihemorrhagic potency test of antivenoms prepared from two different Agkistrodon halys venoms

To establish Korea National Standards for venoms and antivenoms, it is necessary to have standardized assay methods. In this study, we standardized a method to evaluate the antihemorrhagic potency of two horse-derived antivenoms using rabbit intracutaneous injection. We expressed the capability of these antivenoms to neutralize the hemorrhagic activities triggered by the venoms of Agkistrodon halys from Japan and Jiangzhe Agkistrodon halys from China as Minimum Hemorrhagic Dose (MHD). We also performed cross-neutralization tests employing the parallel line assay on different pairings of venoms and antivenoms to check the possibility of using Jiangzhe Agkistrodon halys venom as a substitute for the standard Agkistrodon halys venom in measurements of the antihemorrhagic activity, since A. halys venom is not easily available. Slope function ratio (S.R.) was 0.957 for Agkistrodon halys venom either with Agkistrodon halys antivenom or with Jiangzhe Agkistrodon halys antivenom (p>0.05). Similarly, S.R. was 0.348 for Jiangzhe Agkistrodon halys venom either with Agkistrodon halys antivenom or with Jiangzhe Agkistrodon halys antivenom (p>0.05). Thus, in this study we established antihemorrhagic potency test methods for both Agkistrodon halys and Jiangzhe Agkistrodon halys antivenoms and we could also show it is possible to use Jiangzhe Agkistrodon halys venom as a standard.

Standardization of an antihemorrhagic potency test of antivenoms prepared from two different Agkistrodon halys venoms

To establish Korea National Standards for venoms and antivenoms, it is necessary to have standardized assay methods. In this study, we standardized a method to evaluate the antihemorrhagic potency of two horse-derived antivenoms using rabbit intracutaneous injection. We expressed the capability of these antivenoms to neutralize the hemorrhagic activities triggered by the venoms of Agkistrodon halys from Japan and Jiangzhe Agkistrodon halys from China as Minimum Hemorrhagic Dose (MHD). We also performed cross-neutralization tests employing the parallel line assay on different pairings of venoms and antivenoms to check the possibility of using Jiangzhe Agkistrodon halys venom as a substitute for the standard Agkistrodon halys venom in measurements of the antihemorrhagic activity, since A. halys venom is not easily available. Slope function ratio (S.R.) was 0.957 for Agkistrodon halys venom either with Agkistrodon halys antivenom or with Jiangzhe Agkistrodon halys antivenom (p>0.05). Similarly, S.R. was 0.348 for Jiangzhe Agkistrodon halys venom either with Agkistrodon halys antivenom or with Jiangzhe Agkistrodon halys antivenom (p>0.05). Thus, in this study we established antihemorrhagic potency test methods for both Agkistrodon halys and Jiangzhe Agkistrodon halys antivenoms and we could also show it is possible to use Jiangzhe Agkistrodon halys venom as a standard.

Standardization of anti-lethal toxin potency test of antivenoms prepared from two different Agkistrodon halys venoms

In Korea, antivenoms for the treatment of patients bitten by venomous snakes have been imported from Japan or China. Although there is cross-reactivity between these antibodies and venoms from snakes indigenous to Korea (e.g. Agkistrodon genus), protection is not optimal. Antivenoms specifically prepared to neutralize Korean snake venoms could be more effective, with fewer side effects. To this end, we established an infrastructure to develop national standards and created a standardized method to evaluate the efficacy of two horse-derived antivenoms using mouse lethal toxin test. Additionally, we determined the antivenoms neutralizing activity against lethal doses (LD50) of Agkistrodon halys (from Japan) and Jiangzhe Agkistrodon halys (from China) venoms. We also performed cross-neutralization tests using probit analysis on each pairing of venom and antivenom in order to check the possibility of using Jiangzhe A. halys venom as a substitute for A. halys venom, the current standard. Slope of A. halys venom with A. halys antivenom was 10.2 and that of A. halys venom with Jiangzhe A. halys antivenom was 9.6. However, Slope of Jiangzhe A. halys venom with A. halys antivenom was 4.7 while that of Jiangzhe A. halys venom with Jiangzhe A. halys antivenom was 11.5. Therefore, the significant difference in slope patterns suggests that Jiangzhe A. halys venom cannot be used as a substitute for the standard venom to test the anti-lethal toxin activity of antivenoms (p<0.05).(AU)

Repeated evolution of dioecy from monoecy in Siparunaceae (Laurales).

Siparunaceae comprise Glossocalyx with one species in West Africa and Siparuna with 65 species in the neotropics; all have unisexual flowers, and 15 species are monoecious, 50 dioecious. Parsimony and maximum likelihood analyses of combined nuclear ribosomal ITS and chloroplast trnL-trnF intergenic spacer sequences yielded almost identical topologies, which were used to trace the evolution of the two sexual systems. The African species, which is dioecious, was sister to all neotropical species, and the monoecious species formed a grade basal to a large dioecious Andean clade. Dioecy evolved a second time within the monoecious grade. Geographical mapping of 6,496 herbarium collections from all species sorted by sexual system showed that monoecy is confined to low-lying areas (altitude < 700 m) in the Amazon basin and southern Central America. The only morphological trait with a strong phylogenetic signal is leaf margin shape (entire or toothed), although this character also correlates with altitude, probably reflecting selection on leaf shapes by temperature and rainfall regimes. The data do not reject the molecular clock, and branch lengths suggest that the shift to dioecy in the lowlands occurred many million years after the shift to dioecy in the ancestor of the Andean clade.

Brazilin protects cultured rat hepatocytes from BrCCl3-induced toxicity.

Brazilin, the main constituent of Caesalpinia sappan, is an antioxidative substance that has catechol moiety in its chemical structure. Considering the antioxidant-activity of brazilin, it was expected to have protective effects on the toxicities of radical generating chemicals. The incubation of rat hepatocytes with BrCCl3 resulted in significant increase in lipid peroxidation, leakage of cytoplasmic enzymes and cytoplasmic glutathione depletion. The BrCCl3-induced toxicities on hepatocytes were reduced by the treatment of brazilin. Brazilin has been also proved to have a protective effect on the BrCCl3-induced depression of microsomal calcium sequestration activity. These results indicate that brazilin plays a protective role in BrCCl3-induced hepatocyte injury of the rat.