Antimicrobial, toxicological, and antigenic characteristics of three scorpion venoms from Colombia: Centruroides margaritatus, Tityus pachyurus and Tityus n. sp. aff. metuendus.

The venom fractions of three buthid scorpion species from Colombia, C. margaritatus, T. pachyurus and T. n. sp. aff. metuendus, were examined for antimicrobial and toxicity toward mice and insects. The three venoms were separated into individual fractions using RP-HPLC, resulting in 85 fractions from C. margaritatus, 106 from T. pachyurus, and 70 from T. n. sp. aff. metuendus. The major fractions from the three scorpion venoms, which were eluted between 35 and 50 min, were tested for antimicrobial activity and toxicity. It was confirmed that the venom of the three species contains fractions with antimicrobial peptides that were evaluated against two bacterial strains of public health importance, Pseudomonas aeruginosa and Staphylococcus aureus. The venom of C. margaritatus had two antimicrobial fractions that showed activity against the named tested strains. The venom of T. pachyurus had three fractions that showed activity against S. aureus and two against both bacterial strains. Finally, the venom of T. n. sp. aff. metuendus had one fraction that showed activity against S. aureus, and five fractions showed activity against both bacterial strains. Also, some peptide fractions from the three venoms were toxic to mice. Last, the venoms of C. margaritatus and T. pachyurus were used as immunogens to obtain neutralizing antibodies against its respective venoms and to observe antibody recognition to related and unrelated scorpion venoms. A total of 15 mg of lyophilized antibodies were able to neutralize 1.5⋅LD50 of the venoms from T. n. sp. aff. metuendus, T. pachyurus and C. margaritatus, respectively. This information provides valuable insights into the diversity of each species' venom and their potential role in antimicrobial and venom toxicity.

Toxinological profile and histopathological alterations induced by Bothrocophias campbelli venom from Colombia.

Snakebite envenomings most frequently reported in Colombia are caused by snakes of the genera Bothrops, Bothriechis, Bothrocophias, and Porthidium. Their venoms induce local and systemic pathophysiological effects, sometimes leading to permanent sequelae such as reduced mobility of the limbs, amputations, besides the risk of death. The genus Bothrocophias includes nine species, among which B. campbelli has a distribution restricted to the department of Nariño in Colombia. In this work we determined the toxinological profile its venom, by performing assays for the lethal, hemorrhagic, edematogenic, and myotoxic activities in mouse models, as well as for in vitro coagulant activity on human plasma. The lethal toxicity of the venom was 142.7 µg venom/mouse (111.4-179.8 µg/mouse; 6.6-10.6 µg/g body weight) by intraperitoneal route. Its hemorrhagic activity (minimum hemorrhagic dose: 12.7 ± 2.3 µg) is generally weaker compared to other South American vipers, but edematogenic (minimum edematogenic dose 1.0 ± 0.3 µg), and myotoxic (minimum myotoxic dose 3.9 ± 2.5 µg) activities are very potent. Histopathological examination of the injected mouse gastrocnemius muscle showed prominent disorganization of the myofibrils, myonecrosis, and an intense inflammatory leukocyte infiltrate. In vitro, the minimal coagulant dose was 12.3 ± 0.5 µg. Overall, this toxinological profile would predict that the clinical picture of envenomings by B. campbelli might be characterized by moderate disturbances in the coagulation cascade, mild local hemorrhage, and, conversely, severe myonecrosis and edema, which could potentially lead to compartment syndrome and gangrene.

Half a century of research on Bothrops asper venom variation: biological and biomedical implications.

Snake venoms are a complex biological mixture of proteins with or without enzymatic activity, peptides, and nucleotides, among other components. It is produced in specialized secretory glands located in the maxillary region, being the result of millions of years of evolution and whose biological functions are defense, immobilization, and digestion of prey. Venoms present intraspecific (i.e., individual, ontogenetic, geographical) and interspecific (i.e., between sympatric and allopatric species) variation, and the study of this variability has become the focus of toxinological research. Bothrops asper is responsible for highest incidence, morbimortality and severe cases of envenoming in Mesoamerica and northern South America. Given its clinical importance, its venom has been characterized and compared qualitatively and quantitatively across the species range. More than 50 years of research show that B. asper venom is endowed with an interesting intraspecific variability. Knowing this variation has allowed advances in the elucidation of the biological role of the venom, a better understanding of the clinical signs and symptoms in patients envenomed by B asper, the immunological implications in the context of antivenoms production, and the generation of new ideas that could be useful to solve different biological and evolutionary questions of one of the venomous snakes with the greatest distribution and strongest public health impact in Latin America.

Comparison of the Scorpionism Caused by Centruroidesmargaritatus, Tityuspachyurus and Tityus n. sp. aff. metuendus Scorpion Venoms in Colombia.

Among other scorpion species, Colombia has two genera of the Buthidae family Centruroides and Tityus, considered to be dangerous to humans. This research shares scientific knowledge aiming to a better understanding about the pathophysiological effects of such venoms. The venom of the three species: Centruroides margaritarus, Tityus pachyurus, and T. n. sp. aff. metuendus with biomedical interest were studied. An initial pre-glycemic sample was taken from ICR mice. They were later intraperitoneally inoculated with doses of 35% and 70% of LD50 of total venom. Poisoning signs were observed during a 6-h period to determine the level of scorpionism. After observation, a second glycemic sample was taken, and a histopathological evaluation of different organs was performed. This work revealed that all three venoms showed considerably notorious histopathological alterations in main organs such as heart and lungs; and inducing multiple organ failure, in relation to the glycemia values, only C. margaritatus and T. n. sp. aff. metuendus showed significant changes through manifestation of hyperglycemia. According to the Colombian scorpionism level; signs were mild to severe affecting the autonomous nervous system.

Colombian Scorpion Centruroides margaritatus: Purification and Characterization of a Gamma Potassium Toxin with Full-Block Activity on the hERG1 Channel.

The Colombian scorpion Centruroides margaritatus produces a venom considered of low toxicity. Nevertheless, there are known cases of envenomation resulting in cardiovascular disorders, probably due to venom components that target ion channels. Among them, the humanether-à-go-go-Related gene (hERG1) potassium channels are critical for cardiac action potential repolarization and alteration in its functionality are associated with cardiac disorders. This work describes the purification and electrophysiological characterization of a Centruroides margaritatus venom component acting on hERG1 channels, the CmERG1 toxin. This novel peptide is composed of 42 amino acids with a MW of 4792.88 Da, folded by four disulfide bonds and it is classified as member number 10 of the γ-KTx1 toxin family. CmERG1 inhibits hERG1 currents with an IC50 of 3.4 ± 0.2 nM. Despite its 90.5% identity with toxin É£-KTx1.1, isolated from Centruroides noxius, CmERG1 completely blocks hERG1 current, suggesting a more stable plug of the hERG channel, compared to that formed by other É£-KTx.

Antivenomics and in vivo preclinical efficacy of six Latin American antivenoms towards south-western Colombian Bothrops asper lineage venoms.

BACKGROUND: Bothrops asper represents the clinically most important snake species in Central America and Northern South America, where it is responsible for an estimated 50-80% of snakebites. Compositional variability among the venom proteomes of B. asper lineages across its wide range mirrors clinical differences in their envenomings. Bothropic antivenoms generated in a number of Latin American countries commonly exhibit a certain degree of paraspecific effectiveness in the neutralization of congeneric venoms. Defining the phylogeographic boundaries of an antivenom's effectivity has implications for optimizing its clinical use. However, the molecular bases and impact of venom compositions on the immune recognition and neutralization of the toxic activities of across geographically disparate populations of B. asper lineages has not been comprehensively studied. METHODOLOGY/PRINCIPAL FINDINGS: Third-generation antivenomics was applied to quantify the cross-immunorecognizing capacity against the individual components of venoms of three B. asper lineages (B. asper (sensu stricto), B. ayerbei and B. rhombeatus) distributed in south-western (SW) Colombia, of six Latin American antivenoms, produced against homologous (Colombia, INS-COL and PROBIOL) and Costa Rica (ICP)), and heterologous (Argentina (BIOL), Perú (INS-PERU) and Venezuela (UCV)) bothropic venoms. In vivo neutralization assays of the lethal, hemorrhagic, coagulant, defibrinogenating, myotoxic, edematogenic, indirect hemolytic, and proteolytic activities of the three SW Colombian B. asper lineage venoms were carried to compare the preclinical efficacy of three (Colombian INS-COL and PROBIOL, and Costa Rican ICP) antivenoms frequently used in Colombia. Antivenomics showed that all the six antivenom affinity matrices efficiently immunoretained most of the B. asper lineages venom proteins and exhibited impaired binding towards the venoms' peptidomes. The neutralization profile of the INS-COL, PROBIOL and ICP antivenoms towards the biological activities of the venoms of SW Colombian B. asper (sensu stricto), B. ayerbei and B. rhombeatus lineages was coherent with the antivenomics outcome. In addition, the combination of in vitro (antivenomics) and in vivo neutralization results allowed us to determine their toxin-specific and venom neutralizing antibody content. Noteworthy, heterologous INS-PERU, BIOL, and UCV bothropic antivenoms had equal or higher binding capacity towards the venoms components of SW Colombian B. asper lineages that the homologous Colombian and Costa Rican antivenoms. CONCLUSIONS/SIGNIFICANCE: The combined in vitro and in vivo preclinical outcome showed that antivenoms manufactured in Colombia and Costa Rica effectively neutralize the major toxic activities of SW Colombian B. asper lineage venoms. The antivenomics profiles of the heterologous antivenoms manufactured in Argentina, Venezuela, and Perú strongly suggests their (pre)clinical adequacy for the treatment of B. asper lineage envenomings in SW Colombia. However, their recommendation in the clinical setting is pending on in vivo neutralization testing and clinical testing in humans. Bothrops asper is a highly adaptable snake species complex, which is considered the most dangerous snake throughout much of its distribution range from the Atlantic lowland of eastern México to northwestern Perú. Antivenoms are the only scientifically validated treatment of snakebite envenomings. Venom variation is particularly common in wide ranging species, such as B. asper, and may result in variable clinical presentations of envenomings, as is the case for the B. asper species complex, potentially undermining the efficacy of snakebite treatments depending on the immunization mixture used in the generation of the antivenom. Conversely, phylogenetic conservation of antigenic determinants confers an unpredictable degree of paraspecificity to homologous antivenoms produced for a geographic area, but also to heterologous congeneric antivenoms, towards the venom components of allopatric conspecific populations. This work aimed at comparing the preclinical profile of a panel of Latin American homologous and heterologous antivenoms against the venoms of B. asper lineages distributed in SW Colombia. The outcome of this study strongly suggests the suitability of considering the heterologous antivenoms BIOL (Argentina), UCV (Venezuela) and INS-PERU (Perú) as alternatives to homologous Colombian INS-COL and PROBIOL and Costa Rican ICP antivenoms for the treatment of envenomings by B. asper (sensu stricto) in W Colombia and Ecuador, B. ayerbei in Cauca and Nariño (Colombia), and B. rhombeatus in Cauca river valley, SW Colombia.

Venom variation in Bothrops asper lineages from North-Western South America.

Bothrops asper is a venomous pitviper that is widely distributed and of clinical importance in Mesoamerica and northern South America, where it is responsible for 50-80% of all envenomations by Viperidae species. Previous work suggests that B. asper has a complex phylogeographic structure, with the existence of multiple evolutionarily distinct lineages, particularly in the inter-Andean valleys of north South America. To explore the impact of the evolutionary history of B. asper on venom composition, we have investigated geographic variation in the venom proteome of this species from the populations from the Pacific side of Ecuador and south-western Colombia. Among the 21 classes of venom components identified, proteins from mainly four major toxin families, snake venom metalloproteases (PI- and PII-SVMP), phospholipases A2 (K49- and D49-PLA2s), serine proteinases (SVSP), and C-type lectins-like (CTL) proteins are major contributors to the geographic variability in venom. Principal component analyses demonstrate significant differences in venom composition between B. asper lineages previously identified through combination of molecular, morphological and geographical data, and provide additional insights into the selection pressures modulating venom phenotypes on a geographic scale. In particular, altitudinal zonation within the Andean mountain range stands out as a key ecological factor promoting diversification in venom. In addition, the pattern of distribution of PLA2 molecules among B. asper venoms complements phylogenetic analysis in the reconstruction of the dispersal events that account for the current biogeographic distribution of the present-day species' phylogroups. Ontogenic variation was also evident among venoms from some Ecuadorian lineages, although this age-related variation was less extreme than reported in B. asper venoms from Costa Rica. The results of our study demonstrate a significant impact of phylogenetic history on venom composition in a pitviper and show how analyses of this variation can illuminate the timing of the cladogenesis and ecological events that shaped the current distribution of B. asper lineages. BIOLOGICAL SIGNIFICANCE: Bothrops asper, called "the ultimate pitviper" due to its defensive behavior, large body size, and medical importance, represents a species complex that is widely distributed from southern México southwards across north-western South America to north-western Perú. This work reports the characterization of the venom proteomes of B. asper lineages from the Pacific sides of Ecuador and south-western Colombia. Multivariate analyses indicate that variability in venom composition among the B. asper lineages is driven by proteins from four major toxin families, presumably in response to selection pressures created by recent and historical ecological conditions created by geological and climatic events from the Pliocene-Pleistocene to the present along the Central and South American Continental Divide. The emerging biogeographic pattern of venom variation, interpreted in the context of the current phylogenetic hypotheses, support and complement previously proposed evolutionary Plio-Pleistocene dispersal events that shaped the present-day distribution range of B. asper lineages. In addition, our venomics data indicate the occurrence of genetic exchange between Colombian and Pacific Costa Rican populations, which may have occurred during the second wave of B. asper migration into Mesoamerica. Our work represents a foundation for a future broader sampling and more complete "-omics" analyses to deepen our understanding of the patterns and causes of venom variation in this medically important pitviper.

Disorders on cardiovascular parameters in rats and in human blood cells caused by Lachesis acrochorda snake venom.

In Colombia, Lachesis acrochorda causes 2-3% of all snake envenomations. The accidents promote a high mortality rate (90%) due to blood and cardiovascular complications. Here, the effects of the snake venom of L. acrochorda (SVLa) were analyzed on human blood cells and on cardiovascular parameters of rats. SVLa induced blood coagulation, as measured by the prothrombin time test, but did not reduce the cell viability of neutrophils and platelets evaluated by the 3-(4,5-dimethylthiazol-2yl)-2,5-diphenyl tetrazolium bromide (MTT) reduction assay and by the lactate dehydrogenase (LDH) enzyme assay. In fact, SVLa increased the absorbance in tests made with platelets subjected to the MTT assay. SVLa induced platelet aggregation whose magnitude was comparable to that of the positive control adenosine diphosphate (ADP), and occurred earlier with increasing SVLa concentration. Acetylsalicylic acid (ASA, a cyclooxygenase inhibitor) or clopidogrel (an ADP receptor blocker) inhibited the aggregating effect of SVLa. Inhibition of SVLa-elicited platelet aggregation also resulted from the treatment with disodium ethylenediaminetetraacetate (Na2-EDTA; metalloproteinase inhibitor) and with 4-(2-aminoethyl) benzenesulfonyl fluoride hydrochloride (AEBSF, serine protease inhibitor). In isolated right atrium of rats, SVLa increased slightly, but significantly, the magnitude of the spontaneous contractions and, in isolated rat aorta, SVLa relaxed KCl- or phenylephrine-induced contractions. In vivo, SVLa induced hypotension and bradycardia in rats, with detection of hemorrhage in pulmonary and renal tissues. Altogether, under experimental conditions, SVLa induced blood coagulation, platelet aggregation, hypotension and bradycardia. Part of the effects presented here may be explained by the presence of snake venom metalloproteinases (SVMPs) and snake venom serine proteases (SVSPs), constituents of SVLa.

Snakebite in the department of Nariño, Colombia: a retrospective analysis, 2008-2017 / Accidente ofídico en el departamento de Nariño, Colombia: análisis retrospectivo, 2008-2017

Introduction. Snakebite envenoming is a relevant public health problem, and, in Colombia, it was included as a mandatory notification event since 2004. Because it is a tropical country with great ecosystem diversity, it occupies third place in Latin America, after Mexico and Brazil, reaching the highest number of snakebites. Objective. To carry out a retrospective analysis of snakebites in the department of Nariño based on the notifications reported to the Instituto Departamental de Salud de Nariño and the Sistema de Vigilancia en Salud Pública de Colombia between the years 2008 and 2017. Materials and methods. A descriptive and retrospective analysis was carried out based on the study, and interpretation of the information contained in the notification sheets for ophidian accidents of the Instituto Departamental de Salud de Nariño between the years 2008 and 2017. The snakebite frequency at the municipal level was represented by the elaboration of a map and the responsible genus were identified. Results. A total of 1,110 cases were reported for ophidian accidents. Seventy- eight point thirteen per cent of the municipalities made some notification. A pattern of constant increase in the case number during the 10 years is evident, with exception of 2017; the sociodemographic characteristics are maintained. Conclusions. The municipality of San Andrés de Tumaco, the masculine gender and the rural areas are mostly affected by snakebites, caused mainly by the Bothrops genus and the highest snakebite incidence was seen in July.

Introducción. El ofidismo es un relevante problema de salud pública y, en Colombia, se incluyó como un evento de notificación obligatoria desde el año 2004. Por ser un país tropical con gran diversidad ecosistémica, ocupa el tercer puesto en Latinoamérica, después de México y Brasil, en presentar el mayor número de accidentes ofídicos. Objetivo. Realizar un análisis retrospectivo del accidente ofídico en el departamento de Nariño, con base en los eventos notificados entre los años 2008 y 2017 al Instituto Departamental de Salud de Nariño y al Sistema de Vigilancia en Salud Pública de Colombia. Materiales y métodos. Se hizo un análisis de tipo descriptivo y retrospectivo a partir de la recopilación e interpretación de la información consignada en las fichas de notificación para accidente ofídico del Instituto Departamental de Salud de Nariño, entre los años 2008 y 2017. Se representó la frecuencia del accidente ofídico a nivel municipal mediante la elaboración de un mapa y se identificaron los géneros responsables del mismo. Resultados. Se reporta un total de 1.110 casos. El 78,13 % de los municipios hizo alguna notificación. Se observa un patrón de aumento constante en el número de casos durante los 10 años, a excepción de 2017. Las características sociodemográficas se mantuvieron durante el periodo de estudio. Conclusiones. El municipio de San Andrés de Tumaco, el sexo masculino y las áreas rurales son los principales afectados por el ofidismo causado, en mayor medida, por el género Bothrops. La mayor incidencia se presentó en el mes de julio.

Accidente ofídico en el departamento de Nariño, Colombia: análisis retrospectivo, 2008-2017 / Snakebite in the department of Nariño, Colombia: a retrospective analysis, 2008-2017

Introducción. El ofidismo es un relevante problema de salud pública y, en Colombia, se incluyó como un evento de notificación obligatoria desde el año 2004. Por ser un país tropical con gran diversidad ecosistémica, ocupa el tercer puesto en Latinoamérica, después de México y Brasil, en presentar el mayor número de accidentes ofídicos. Objetivo. Realizar un análisis retrospectivo del accidente ofídico en el departamento de Nariño, con base en los eventos notificados entre los años 2008 y 2017 al Instituto Departamental de Salud de Nariño y al Sistema de Vigilancia en Salud Pública de Colombia. Materiales y métodos. Se hizo un análisis de tipo descriptivo y retrospectivo a partir de la recopilación e interpretación de la información consignada en las fichas de notificación para accidente ofídico del Instituto Departamental de Salud de Nariño, entre los años 2008 y 2017. Se representó la frecuencia del accidente ofídico a nivel municipal mediante la elaboración de un mapa y se identificaron los géneros responsables del mismo. Resultados. Se reporta un total de 1.110 casos. El 78,13 % de los municipios hizo alguna notificación. Se observa un patrón de aumento constante en el número de casos durante los 10 años, a excepción de 2017. Las características sociodemográficas se mantuvieron durante el periodo de estudio. Conclusiones. El municipio de San Andrés de Tumaco, el sexo masculino y las áreas rurales son los principales afectados por el ofidismo causado, en mayor medida, por el género Bothrops. La mayor incidencia se presentó en el mes de julio.

Introduction. Snakebite envenoming is a relevant public health problem, and, in Colombia, it was included as a mandatory notification event since 2004. Because it is a tropical country with great ecosystem diversity, it occupies third place in Latin America, after Mexico and Brazil, reaching the highest number of snakebites. Objective. To carry out a retrospective analysis of snakebites in the department of Nariño based on the notifications reported to the Instituto Departamental de Salud de Nariño and the Sistema de Vigilancia en Salud Pública de Colombia between the years 2008 and 2017. Materials and methods. A descriptive and retrospective analysis was carried out based on the study, and interpretation of the information contained in the notification sheets for ophidian accidents of the Instituto Departamental de Salud de Nariño between the years 2008 and 2017. The snakebite frequency at the municipal level was represented by the elaboration of a map and the responsible genus were identified. Results. A total of 1,110 cases were reported for ophidian accidents. Seventy- eight point thirteen per cent of the municipalities made some notification. A pattern of constant increase in the case number during the 10 years is evident, with exception of 2017; the sociodemographic characteristics are maintained. Conclusions. The municipality of San Andrés de Tumaco, the masculine gender and the rural areas are mostly affected by snakebites, caused mainly by the Bothrops genus and the highest snakebite incidence was seen in July.

Edematic and coagulant effects caused by the venom of Bothrops rhombeatus neutralized by the ethanolic extract of Piper auritum.

ETHNOPHARMACOLOGICAL RELEVANCE: In Colombia, the only authorized treatment to cure snakebite envenomation is with the use of antivenom. The antivenom neutralizes the systemic effects properly, but is not very effective at neutralizing local effects, thus several cases have lead to complications. On the other hand, rural communities turn to the use of plants that are easily accessible and available for basic health care. One of these plants is named Piper auritum (PA), which is traditionally highlighted in some indigenous communities of Antioquia and Chocó. AIM OF THE STUDY: The main objective of this work was to characterize the venom's toxicity by determining the Minimum Edema Dose (MED), the Minimum Coagulant Dose-Plasma (MCD-P), the Minimum Hemorrhagic Dose (MHD) and to determine the neutralizing power of the Total Ethanolic Extract (TEE) from leaves of PA on the localized and systemic effects caused by the Bothrops rhombeatus venom. MATERIALS AND METHODS: To begin, the minimum dose that causes edema-forming, coagulant and hemorrhagic activities was determined. The protocols investigated include coagulant and edematic activities caused by the venom of Bothrops rhombeatus which were neutralized by the TEE of PA. RESULTS: The MCD-P was found to be 0.206 ±â€¯0.026 µg, the MED is the same at 0.768 ±â€¯0.065 µg, and the MHD is 3.553 ±â€¯0.292 µg, which are different from the reports for Bothrops asper and Bothrops ayerbei. Next, a phytochemical screening was done to the TEE where mainly triterpenes, steroids, coumarins, saponins, and lignans were identified. Also present were 43,733 ±â€¯2106 mg AG/g ES of phenols, which are secondary metabolites that are probably responsible for the neutralization of coagulant and edematic activities at rates of 2363.870 µL and 1787.708 µL of extract/mg of venom, respectively. As a comparative parameter, the National Institute Health's (NHI) effective dose of the antivenom was used as a comparative parameter. In addition, we determined the toxicity of the TEE of PA on to Artemia salina, being moderately toxic at 6 and 24 h, while the essential oil of PA at the same observation hours is in the extremely toxic range. CONCLUSIONS: The results reflect that the extract of P. auritum has an anti-inflammatory effect similar to that of the NIH serum. It could be used as a complement of NIH antivenom, using them together so it contributes to effectively reduce inflammation and the socio-economic impact generated by the permanence of a patient victim of snakebite in health centers. CLASSIFICATIONS: Immunological products and vaccines.

Proteomic and functional profiling of the venom of Bothrops ayerbei from Cauca, Colombia, reveals striking interspecific variation with Bothrops asper venom.

Bothrops ayerbei, a pitviper inhabiting the Patía River's basin (Valle Alto del Río Patía) in the Southwestern Department of Cauca, Colombia, was considered as a variant form of Bothrops asper prior to being proposed as a new species in 2010, on the basis of subtle morphological differences. This study reports the proteomic and functional profiling of B. ayerbei venom. Its most striking feature is an almost complete absence (0.7%) of phospholipases A2 (PLA2), which is in contrast to the high proportion of these enzymes (25.3%) in the venom of B. asper from Cauca, as well as in other species of Bothrops. The predominant proteins in B. ayerbei venom are metalloproteinases (53.7%), in agreement with its higher hemorrhagic and lethal activities compared to B. asper venom. Moreover, the negligible content of PLA2s in B. ayerbei venom correlates with its weaker myotoxic effect, in contrast to B. asper venom, here shown to contain abundant Asp49- and Lys49-type PLA2s responsible for its strong myotoxic activity. Other components identified in B. ayerbei venom include bradykinin-potentiating-like peptides and proteins belonging to the C-type lectin/lectin-like, serine proteinase, l-amino acid oxidase, disintegrin, cysteine-rich secretory protein, nerve growth factor, and phosphodiesterase families. The venom composition of B. ayerbei resembles that of neonate specimens of B. asper, which shows a predominance of metalloproteinases, with only low amounts of PLA2s. Therefore, the present findings suggest that the expression of venom proteins in B. ayerbei, in contrast to B. asper, might retain a marked 'paedomorphic' condition. Altogether, the proteomic and toxicological characterization of the venom of B. ayerbei here reported argues in favor of its taxonomical separation from B. asper in Cauca, Colombia. BIOLOGICAL SIGNIFICANCE: B. ayerbei, a pitviper found in Cauca, Colombia, had been considered as a variant form of B. asper, but was recently described as a new species on the basis of subtle morphological differences. Our study provides the first detailed proteomic and functional analysis of the venom of B. ayerbei, revealing striking interspecific variation from B. asper, thus arguing in favor of their taxonomical separation. In addition, the observed composition of the venom of B. ayerbei correlates well with its functional and toxicological properties, helping to predict the main clinical manifestations in envenomings by this species, which inflicts a considerable number of snakebites in the Southwestern regions of Colombia.

Another record of significant regional variation in toxicity of Tityus serrulatus venom in Brazil: a step towards understanding the possible role of sodium channel modulators.

The scorpion Tityus serrulatus is responsible for the most severe accidents that have been registered in Brazil, mainly in the state of Minas Gerais (MG), being the lung edema (LE), the main cause of death in these accidents. Although an increased in the number of accidents caused to this species in Federal District (Distrito Federal - DF), it seems that this particular species is not responsible for severe scorpionism cases in this region. Given this observation, we tested the toxicity in mice and compared the ability of T. serrulatus venom from DF (Ts-DF) and Minas Gerais State (Ts-MG) to induce LE in rats. The LD50 of Ts-DF venom was 51.6 µg/mouse, almost twice (1.98) higher than that obtained for Ts-MG venom. The ability of venom (0.5 mg/kg) to induce LE in rats was determined by the wet weight differences between treated and untreated lungs, by pulmonary morphological analyses and by pulmonary vascular permeability (PVP) using the Evans blue protocol. Significant differences in the wet weight of lungs and changes in PVP were found in Ts-MG venom treated rats when compared to rats treated with Ts-DF venom or untreated rats (p < 0.001), but no differences occurred when comparing rats treated with Ts-DF venom and untreated rats (p < 0.05). These results were confirmed by evaluation of pulmonary morphology. Comparison of chromatographic profiles obtained from these venoms (Ts-DF and Ts-MG) using the fractal dimension (D) analysis and the molecular mass fingerprint of the chromatographic fractions showed a higher number of components between 35 and 40% acetonitrile in Ts-MG venom than in Ts-DF venom, indicating a higher diversity of sodium channel modulators in that venom.