Venom proteomes of South and North American opisthoglyphous (Colubridae and Dipsadidae) snake species: A preliminary approach to understanding their biological roles

Opisthoglyphous snake venoms remain under-explored despite being promising sources for ecological, evolutionary and biomedical/biotechnological research. Herein, we compared the protein composition and enzymatic properties of the venoms of Philodryas baroni (PbV), Philodryas olfersii olfersii (PooV) and Philodryas patagoniensis (PpV) from South America, and Hypsiglena torquata texana (HttV) and Trimorphodon biscutatus lambda (TblV) from North America. All venoms degraded azocasein, and this metalloproteinase activity was significantly inhibited by EDTA. PooV exhibited the highest level of catalytic activity towards synthetic substrates for serine proteinases. All venoms hydrolyzed acetylthiocholine at low levels, and only TblV showed phospholipase A2 activity. 1D and 2D SDS-PAGE profile comparisons demonstrated species-specific components as well as several shared components. Size exclusion chromatograms from the three Philodryas venoms and HttV were similar, but TblV showed a notably different pattern. MALDI-TOF MS of crude venoms revealed as many as 49 distinct protein masses, assigned to six protein families. MALDI-TOF/TOF MS analysis of tryptic peptides confirmed the presence of cysteine-rich secretory proteins in all venoms, as well as a phospholipase A2 and a three-finger toxin in TblV. Broad patterns of protein composition appear to follow phylogenetic lines, with finer scale variation likely influenced by ecological factors such as diet and habitat.Fil: Peichoto, María Elisa. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; Brasil. Univeristy of Northern Colorado; Estados Unidos. Administración Nacional de Laboratorios e Institutos de Salud "Dr. Carlos G. Malbrán". Instituto Nacional de Medicina Tropical; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste; ArgentinaFil: Tavares, Flávio Luiz. Univeristy of Northern Colorado; Estados UnidosFil: Santoro, Marcelo Larami. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; BrasilFil: Mackessy, Stephen. Univeristy of Northern Colorado; Estados Unido

Loxosceles gaucho spider venom and its sphingomyelinase fraction trigger the main functions of human and rabbit platelets

Loxosceles venoms can promote severe local and systemic damages. We have previously reported that Loxosceles gaucho spider venom causes a severe early thrombocytopenia in rabbits. Herein, we investigated the in vitro effects of this venom and its sphingomyelinase fraction on the main functions of platelets. Whole venom and its fraction induced aggregation of both human and rabbit platelets. Aggregation was dependent of plasma component(s) but independent of venom-induced lysophosphatidic acid generation. There was no increase in the levels of lactate dehydrogenase during platelet aggregation, ruling out the possibility of platelet lysis. The increased expression of ligand-induced binding site 1 (LIBS1) induced by L. gaucho venom and its sphingomyelinase fraction, as well as of P-selectin by the whole venom, evidenced the activation state of both human and rabbit platelets. Adhesion assays showed an irregular response when platelets were exposed to the whole venom, whereas the sphingomyelinase fraction induced a dose-dependent increase in the platelet adhesion to collagen. These findings evidence that L. gaucho venom and its sphingomyelinase fraction trigger adhesion, activation, and aggregation of both human and rabbit platelets. Thus, this work justifies the use of rabbits to investigate Loxosceles venom-induced platelet disturbances, and it also supports research on the role of platelets in the pathogenesis of loxoscelism.Fil: Tavares, Flávio L.. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; BrasilFil: Peichoto, María Elisa. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste; Argentina. Universidad Nacional del Nordeste. Facultad de Ciencias Veterinarias; ArgentinaFil: Rangel, Danieli de Morais. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; BrasilFil: Barbaro, Kátia Cristina. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; BrasilFil: Cirillo, Maria Cristina. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; BrasilFil: Santoro, Marcelo Larami. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; BrasilFil: Sano Martins, Ida S.. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; Brasi

Contribution to the investigation of hemostatic disturbances induced by Bothrops jararaca snake venom in rabbits: study of platelet membrane glycoproteins, function, secretion and survival.

Que o envenenamento pela serpente Bothrops jararaca causa distúrbios hemorrágicos sistêmicos, com alteração da coagulação e fibrinólise sangüíneas, é notório. Contudo, pouco se sabe sobre a ação in vivo desse veneno sobre as plaquetas. Em estudos recentes, demonstrou-se que esse veneno causa trombocitopenia, distúrbios da agregação e diminuição do número de corpos densos plaquetários, que, dessarte, sugeriam a ativação das plaquetas circulantes. Com o escopo de comprovar esta hipótese e melhor caracterizar as ações in vivo desse veneno sobre as plaquetas, serviu-se de um modelo experimental que empregava coelhos para o envenenamento pela B. jararaca. No grupo experimental, os animais foram injetados i.v. com o veneno da B. jararaca (60 µg/kg) e no grupo controle com salina. Previamente à administração de salina ou veneno, os coelhos tiveram suas plaquetas marcadas ex vivo com NHS-biotina. Para a avaliação das alterações plaquetárias, amostras de sangue foram coletadas seqüencialmente, em intervalos de tempo que variaram de 1 a 144 horas após a administração do veneno ou salina. Durante o envenenamento, houve trombocitopenia, hipofibrinogenemia, elevação dos níveis plasmáticos do fator de von Willebrand, diminuição da função plaquetária no sangue total induzida pela botrocetina e pelo colágeno e diminuição da secreção de ATP. Não obstante, os níveis plasmáticos de fator plaquetário 4, um marcador específico da ativação plaquetária in vivo, e os níveis intraplaquetários de serotonina se mantiveram constantes. Pela citometria de fluxo, observou-se um decréscimo significativo da expressão do epítopo da GPIIb-IIIa reconhecido pelo anticorpo monoclonal P2, porém isso não foi observado ao utilizar-se anticorpos policlonais. A expressão de fibrinogênio ou dos produtos de degradação do fibrinogênio/fibrina (PDF) na membrana plaquetária também não sofreu alteração significativa ao longo do tempo. Houve, todavia, elevações significativas da P-selectina plaquetária, um receptor cuja expressão é indicativa de ativação plaquetária, e do epítopo induzido por ligantes (LIBS1) da GPIIIa. A porcentagem de plaquetas reticuladas na circulação, assim como os tempos de sobrevivência plaquetária, não foram estatisticamente diferentes entre os dois grupos. As análises histológicas e imuno-histoquímicas dos órgãos dos coelhos mostraram que as plaquetas circulantes são retidas entre redes de fibrina nos capilares pulmonares. Os resultados obtidos sugerem que a trombina engendrada pelos componentes pró-coagulantes deste veneno desempenha uma função essencial na patogenia dos distúrbios da coagulação e plaquetários observados neste modelo de envenenamento. O aumento da expressão de P-selectina no grupo experimental comprovou a hipótese inicial de que as plaquetas dos coelhos envenenados são verdadeiramente ativadas na circulação. Os dados ora apresentados demonstram definitivamente que a diminuição do fibrinogênio ou o aumento dos PDF não são a causa fundamental da disfunção plaquetária observada no envenenamento botrópico e que outro(s) composto(s) parece(m) estar envolvido(s) com estes distúrbios plaquetários.In spite of being well established that Bothrops jararaca snake venom causes blood coagulation and fibrinolysis disturbances in patients, scant information about blood platelet disorders during envenomation is available. In recent investigations, thrombocytopenia, platelet aggregation disturbances and decreased numbers of platelet dense bodies were observed following venom administration, suggesting that circulating platelets had been activated. In order to prove this hypothesis and to gain a better characterization of the in vivo role of this venom on platelets, an experimental model of B. jararaca envenomation was utilized. Rabbits were injected i.v. either with B. jararaca venom (60 µg/kg) (experimental group) or saline (control group). Previously to saline or venom administration, rabbit platelets were labeled ex vivo with NHS-biotin. To evaluate platelet disturbances, blood samples were collected consecutively, at time intervals that varied from 1 to 144 hours after venom or saline administration. During envenomation, there were thrombocytopenia, hypofibrinogenemia, elevation of von Willebrand factor plasma levels, reduced botrocetin- and collagen-induced platelet aggregation in whole blood, and decreased ATP secretion. However, plasma levels of platelet factor 4, a specific marker of in vivo platelet activation, and intraplatelet serotonin levels remained constant. By flow cytometry, a significant decrease on the expression of GPIIb-IIIa epitope recognized by P2 monoclonal antibody was observed; however, this was not observed when polyclonal antibodies were employed. Fibrinogen or fibrin(ogen) degradation product (FDP) expression on platelet surface showed no significant alteration. Nonetheless, significant elevations of platelet P-selectin, a receptor whose expression is indicative of platelet activation, and of ligand-induced binding sites (LIBS1) of GPIIIa were noted. The percentage of circulating reticulated platelets, as well as platelet survival times, were not statistically different between the two groups. Histopathological and immunohistochemical analyses of rabbit organs demonstrated that circulating platelets were sequestered among fibrin deposits in pulmonary capillaries. These results suggest that thrombin generated by procoagulating components of B. jararaca venom has an essential role in the pathogenesis of platelet and coagulation disorders in this experimental model. Increased expression of P-selectin in the experimental group proves the initial hypothesis that platelets of envenomed rabbits are indeed activated in the circulation. The data presented herein demonstrate definitively that decreased fibrinogen or increased FDP levels are not the primary cause of the platelet dysfunction observed in bothropic envenomation, but other substances seem to be responsible for it

Contribution to the investigation of hemostatic disturbances induced by Bothrops jararaca snake venom in rabbits: study of platelet membrane glycoproteins, function, secretion and survival.

Que o envenenamento pela serpente Bothrops jararaca causa distúrbios hemorrágicos sistêmicos, com alteração da coagulação e fibrinólise sangüíneas, é notório. Contudo, pouco se sabe sobre a ação in vivo desse veneno sobre as plaquetas. Em estudos recentes, demonstrou-se que esse veneno causa trombocitopenia, distúrbios da agregação e diminuição do número de corpos densos plaquetários, que, dessarte, sugeriam a ativação das plaquetas circulantes. Com o escopo de comprovar esta hipótese e melhor caracterizar as ações in vivo desse veneno sobre as plaquetas, serviu-se de um modelo experimental que empregava coelhos para o envenenamento pela B. jararaca. No grupo experimental, os animais foram injetados i.v. com o veneno da B. jararaca (60 µg/kg) e no grupo controle com salina. Previamente à administração de salina ou veneno, os coelhos tiveram suas plaquetas marcadas ex vivo com NHS-biotina. Para a avaliação das alterações plaquetárias, amostras de sangue foram coletadas seqüencialmente, em intervalos de tempo que variaram de 1 a 144 horas após a administração do veneno ou salina. Durante o envenenamento, houve trombocitopenia, hipofibrinogenemia, elevação dos níveis plasmáticos do fator de von Willebrand, diminuição da função plaquetária no sangue total induzida pela botrocetina e pelo colágeno e diminuição da secreção de ATP. Não obstante, os níveis plasmáticos de fator plaquetário 4, um marcador específico da ativação plaquetária in vivo, e os níveis intraplaquetários de serotonina se mantiveram constantes. Pela citometria de fluxo, observou-se um decréscimo significativo da expressão do epítopo da GPIIb-IIIa reconhecido pelo anticorpo monoclonal P2, porém isso não foi observado ao utilizar-se anticorpos policlonais. A expressão de fibrinogênio ou dos produtos de degradação do fibrinogênio/fibrina (PDF) na membrana plaquetária também não sofreu alteração significativa ao longo do tempo. Houve, todavia, elevações significativas da P-selectina plaquetária, um receptor cuja expressão é indicativa de ativação plaquetária, e do epítopo induzido por ligantes (LIBS1) da GPIIIa. A porcentagem de plaquetas reticuladas na circulação, assim como os tempos de sobrevivência plaquetária, não foram estatisticamente diferentes entre os dois grupos. As análises histológicas e imuno-histoquímicas dos órgãos dos coelhos mostraram que as plaquetas circulantes são retidas entre redes de fibrina nos capilares pulmonares. Os resultados obtidos sugerem que a trombina engendrada pelos componentes pró-coagulantes deste veneno desempenha uma função essencial na patogenia dos distúrbios da coagulação e plaquetários observados neste modelo de envenenamento. O aumento da expressão de P-selectina no grupo experimental comprovou a hipótese inicial de que as plaquetas dos coelhos envenenados são verdadeiramente ativadas na circulação. Os dados ora apresentados demonstram definitivamente que a diminuição do fibrinogênio ou o aumento dos PDF não são a causa fundamental da disfunção plaquetária observada no envenenamento botrópico e que outro(s) composto(s) parece(m) estar envolvido(s) com estes distúrbios plaquetários.In spite of being well established that Bothrops jararaca snake venom causes blood coagulation and fibrinolysis disturbances in patients, scant information about blood platelet disorders during envenomation is available. In recent investigations, thrombocytopenia, platelet aggregation disturbances and decreased numbers of platelet dense bodies were observed following venom administration, suggesting that circulating platelets had been activated. In order to prove this hypothesis and to gain a better characterization of the in vivo role of this venom on platelets, an experimental model of B. jararaca envenomation was utilized. Rabbits were injected i.v. either with B. jararaca venom (60 µg/kg) (experimental group) or saline (control group). Previously to saline or venom administration, rabbit platelets were labeled ex vivo with NHS-biotin. To evaluate platelet disturbances, blood samples were collected consecutively, at time intervals that varied from 1 to 144 hours after venom or saline administration. During envenomation, there were thrombocytopenia, hypofibrinogenemia, elevation of von Willebrand factor plasma levels, reduced botrocetin- and collagen-induced platelet aggregation in whole blood, and decreased ATP secretion. However, plasma levels of platelet factor 4, a specific marker of in vivo platelet activation, and intraplatelet serotonin levels remained constant. By flow cytometry, a significant decrease on the expression of GPIIb-IIIa epitope recognized by P2 monoclonal antibody was observed; however, this was not observed when polyclonal antibodies were employed. Fibrinogen or fibrin(ogen) degradation product (FDP) expression on platelet surface showed no significant alteration. Nonetheless, significant elevations of platelet P-selectin, a receptor whose expression is indicative of platelet activation, and of ligand-induced binding sites (LIBS1) of GPIIIa were noted. The percentage of circulating reticulated platelets, as well as platelet survival times, were not statistically different between the two groups. Histopathological and immunohistochemical analyses of rabbit organs demonstrated that circulating platelets were sequestered among fibrin deposits in pulmonary capillaries. These results suggest that thrombin generated by procoagulating components of B. jararaca venom has an essential role in the pathogenesis of platelet and coagulation disorders in this experimental model. Increased expression of P-selectin in the experimental group proves the initial hypothesis that platelets of envenomed rabbits are indeed activated in the circulation. The data presented herein demonstrate definitively that decreased fibrinogen or increased FDP levels are not the primary cause of the platelet dysfunction observed in bothropic envenomation, but other substances seem to be responsible for it

Reptile venom cysteine-rich secretory proteins

Cysteine-Rich Secretory Proteins (CRiSPs) are single chain proteins, with molecular masses ranging from 20 to 30 kDa, and 16 absolutely conserved cysteine residues. Most reptile venoms appear to contain at least one isoform; CRiSPs are also found in a wide variety of animal tissues, in glycosylated or non-glycosylated forms. This review presents a broad description of the compiled knowledge about CRiSPs in venoms from venomous snakes and lizards, mainly focusing on their structural features and biochemical/biological properties. Like phospholipases A2 and three-finger toxins, CRiSPs exhibit a diverse array of biological activities with a high level of structural conservatism. Thus, they are an excellent protein family for structure-activity studies. However, as several venom CRiSPs have not yet been assigned specific functions, much effort still need to be undertaken to improve the knowledge on these molecules, in particular that related to deciphering their role(s) in envenomation.Fil: Peichoto, María Elisa. Ministerio de Salud. Instituto Nacional de Medicina Tropical; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste; ArgentinaFil: Santoro, Marcelo Larami. Governo do Estado de Sao Paulo. Secretaria da Saude. Instituto Butantan; Brasi

Rutin (quercetin-3-rutinoside) modulates the hemostatic disturbances and redox imbalance induced by Bothrops jararaca snake venom in mice.

Snakebites are a major Collective Health problem worldwide. In Brazil, Bothrops jararaca snake venom (BjV) evokes hemostatic disturbances, bleeding manifestations, and redox status imbalance. Specific antivenom therapy, although efficacious to revert most snakebite-induced manifestations, is incapable of treating secondary manifestations, such as oxidative/nitrosative stress. Searching for new complementary therapies that could attenuate physiological derangements triggered by envenomation, we elected to test quercetin-3-rutinoside (rutin) by its potential as both a potent antioxidant and a hemostasis modulatory compound. The activity of rutin was evaluated both on the biological activities of crude BjV in vitro, and in vivo by the ability of rutin (14.4 mg/kg b.w.) to modulate hematological, hemostatic and redox status markers altered by BjV injection (1.6 mg/kg b.w., s.c.) in mice. In vitro, rutin failed to inhibit BjV-induced platelet aggregation and biological activities of major BjV enzymes (metalloproteinases, phospholipases A2, serine proteases, and L-amino acid oxidases). On the other hand, rutin attenuated local hemorrhage, and the increase in reactive species, prevented the fall in RBC counts and fibrinogen levels, diminished tail bleeding and shortened prothrombin time (PT) evoked by envenomation. Furthermore, rutin reduced tissue factor (TF) activity and altered the protein expression of TF in liver, lungs, heart and skin. In conclusion, the disturbances in redox status and hemostatic system induced by B. jararaca envenomation were modulated by rutin, suggesting it has a great potential to be used as an ancillary therapeutic agent for snakebites

Two-Dimensional Blue Native/SDS Polyacrylamide Gel Electrophoresis for Analysis of Brazilian <i>Bothrops</i> Snake Venoms

Viperidae snakes are the most important agents of snakebites in Brazil. The protein composition of snake venoms has been frequently analyzed by means of electrophoretic techniques, but the interaction of proteins in venoms has barely been addressed. An electrophoretic technique that has gained prominence to study this type of interaction is blue native polyacrylamide gel electrophoresis (BN-PAGE), which allows for the high-resolution separation of proteins in their native form. These protein complexes can be further discriminated by a second-dimension gel electrophoresis (SDS-PAGE) from lanes cut from BN-PAGE. Once there is no study on the use of bidimensional BN/SDS-PAGE with snake venoms, this study initially standardized the BN/SDS-PAGE technique in order to evaluate protein interactions in Bothrops atrox, Bothrops erythromelas, and Bothrops jararaca snake venoms. Results of BN/SDS-PAGE showed that native protein complexes were present, and that snake venom metalloproteinases and venom serine proteinases maintained their enzymatic activity after BN/SDS-PAGE. C-type lectin-like proteins were identified by Western blotting. Therefore, bidimensional BN/SDS-PAGE proved to be an easy, practical, and efficient method for separating functional venom proteins according to their assemblage in complexes, as well as to analyze their biological activities in further details