Toxinology of venoms from five Australian lesser known elapid snakes

Research into Australian elapid venoms has mainly focused on the seven genera of greatest clinical significance: Acanthophis, Hoplocephalus, Notechis, Oxyuranus, Pseudechis, Pseudonaja and Tropidechis. However, even small species represent a potential for causing severe clinical envenoming. Further, owing to taxonomic distinctiveness, these species are a potential source of novel toxins for use in drug design and development. This is the first study to characterize the venoms of Cryptophis boschmai, Denisonia devisi, Echiopsis curta, Hemiaspis signata and Vermicella annulata. MALDI analysis of each venom, over the range of 4–40 kDa, indicated components in the weight range for three finger toxins (6–8 kDa) and phospholipase A₂ (PLA₂; 12–14 kDA). Interestingly, C. boschmai venom was the only venom, which contained components > 25 kDa. All venoms (10 μg/ml) demonstrated in vitro neurotoxicity in the chick biventer cervicis nerve-muscle preparation, with a relative rank order of: H. signata ≥ D. devisi ≥ V. annulata = E. curta > C. boschmai. CSL polyvalent antivenom neutralized the inhibitory effects of C. boschmai venom but only delayed the inhibitory effect of the other venoms. All venoms displayed PLA2 activity but over a wide range (i.e. 1–621 μmol/min./mg). The venoms of C. boschmai (60 μg/kg, i.v.), D. devisi (60 μg/kg, i.v.) and H. signata (60 μg/kg, i.v.) produced hypotensive effects in vivo in an anaesthetized rat preparation. H. signata displayed moderate pro-coagulant activity while the other venoms were weakly pro-coagulant. This study demonstrated that these understudied Australian elapids have varying pharmacological activity, with notable in vitro neurotoxicity for four of the venoms, and may produce mild to moderate effects following systemic envenoming

Physical and economic consequences of sea-level rise: a coupled GIS and CGE analysis under uncertainties

This paper develops a modelling framework that links GEMINI-E3, a multi-regional, multi-sectoral computable general equilibrium model with a cost-benefit analysis approach at local level using geographical information system tools to assess the physical and economic consequences of sea-level rise (SLR) in the twenty first century. A set of future scenarios is developed spanning the uncertainties related to global warming, the parameters of semi-empirical SLR estimates, and coastal developments (cropland, urban areas and population). The importance of incorporating uncertainties regarding coastal development is highlighted. The simulation results suggest that the potential development of future coastal areas is a greater source of uncertainty than the parameters of SLR itself in terms of the economic consequences of SLR. At global level, the economic impact of SLR could be significant when loss of productive land along with loss of capital and forced displacement of populations are considered. Furthermore, highly urbanised and densely populated coastal areas of South East Asia, Australia and New Zealand are likely to suffer significantly if no protective measures are taken. Hence, it is suggested that coastal areas needs to be protected to ameliorate the overall welfare cost across various regions

The Bold and the Beautiful: a Neurotoxicity Comparison of New World Coral Snakes in the Micruroides and Micrurus Genera and Relative Neutralization by Antivenom

Coral snake envenomations are well characterized to be lethally neurotoxic. Despite this, few multispecies, neurotoxicity and antivenom efficacy comparisons have been undertaken and only for the Micrurus genus; Micruroides has remained entirely uninvestigated. As the USA's supplier of antivenom has currently stopped production, alternative sources need to be explored. The Mexican manufacturer Bioclon uses species genetically related to USA species, thus we investigated the efficacy against Micrurus fulvius (eastern coral snake), the main species responsible for lethal envenomations in the USA as well as additional species from the Americas. The use of Coralmyn® coral snake antivenom was effective in neutralizing the neurotoxic effects exhibited by the venom of M. fulvius but was ineffective against the venoms of Micrurus tener, Micrurus spixii, Micrurus pyrrhocryptus, and Micruroides euryxanthus. Our results suggest that the Mexican antivenom may be clinically useful for the treatment of M. fulvius in the USA but may be of only limited efficacy against the other species studied