ABSTRACT
The western Russell's viper (Daboia russelii) is widely distributed in South Asia, and geographical venom variation is anticipated among distant populations. Antivenoms used for Russell's viper envenomation are, however, raised typically against snakes from Southern India. The present study investigated and compared the venom proteomes of D. russelii from Sri Lanka (DrSL) and India (DrI), the immunorecognition of Indian VINS Polyvalent Antivenom (VPAV) and its efficacy in neutralizing the venom toxicity. Methods: The venoms of DrSL and DrI were decomplexed with C18 high-performance liquid chromatography and SDS-polyacrylamide gel electrophoresis under reducing conditions. The proteins fractionated were identified through nano-ESI-liquid chromatography-tandem mass spectrometry (LCMS/MS). The immunological studies were conducted with enzyme-linked immunosorbent assay. The neutralization of the venom procoagulant effect was evaluated in citrated human plasma. The neutralization of the venom lethality was assessed in vivo in mice adopting the WHO protocol. Results: DrSL and DrI venom proteomes showed comparable major protein families, with phospholipases A2 (PLA2) being the most abundant (> 60% of total venom proteins) and diverse (six protein forms identified). Both venoms were highly procoagulant and lethal (intravenous median lethal dose in mice, LD50 = 0.24 and 0.32 µg/g, for DrSL and DrI, respectively), while lacking hemorrhagic and anticoagulant activities. VPAV was immunoreactive toward DrSL and DrI venoms, indicating conserved protein antigenicity in the venoms. The high molecular weight venom proteins were, however, more effectively immunorecognized than small ones. VPAV was able to neutralize the coagulopathic and lethal effects of the venoms moderately. Conclusion: Considering that a large amount of venom can be injected by Russell's viper during envenomation, the potency of antivenom can be further improved for optimal neutralization and effective treatment. Region-specific venoms and key toxins may be incorporated into the immunization procedure during antivenom production.(AU)
Subject(s)
Animals , Poisons/toxicity , Antivenins/biosynthesis , Russell's Viper , Proteomics , Geographic LocationsABSTRACT
The cysteine-rich neurotoxins from elapid venoms are primarily responsible for human and animal envenomation; however, their low concentration in the venom may hamper the production of efficient elapid antivenoms. Therefore, the aim of the present study was to produce fully active elapid neurotoxic immunogens for elapid antivenom production. Method Cysteine-rich neurotoxins showed recombinant expression in two strains of E. coli, and were purified using affinity chromatography and reverse-phase HPLC (rpHPLC). Results The cDNA of the four disulfide-bridged peptide neurotoxin Mlat1 was cloned into a modified expression vector, pQE30, which was transfected into two different E. coli strains. The recombinant toxin (HisrMlat1) was found only in inclusion bodies in M15 strain cells, and in both inclusion bodies and cytoplasm in Origami strain cells. The HisrMlat1 from inclusion bodies from M15 cells was solubilized using guanidine hydrochloride, and then purified by rpHPLC. It showed various contiguous fractions having the same molecular mass, indicating that HisrMlat1 was oxidized after cell extraction forming different misfolded disulfide bridge arrangements without biological activity. In vitro folding conditions of the misfolded HisrMlat1 generated a biologically active HisrMlat1. On the other hand, the HisrMlat1 from the cytoplasm from Origami cells was already soluble, and then purified by HPLC. It showed a single fraction with neurotoxic activity; so, no folding steps were needed. The in vitro folded HisrMlat1 from M15 cells and the cytoplasmic soluble HisrMlat1from Origami cells were indistinguishable in their structure and neurotoxicity. Rabbit polyclonal antibodies raised up against biologically active HisrMlat1 recognized the native Mlat1 (nMlat1) from the whole venom of M. laticorallis. In addition, HisrMlat1 was recognized by horse polyclonal antibodies obtained from the immunization of elapid species from sub-Saharan Africa. Conclusion HisrMlat1 shows increased biological activities compared to the native peptide, and may be used as an immunizing agent in combination with other toxic components such phospholipases type A2 for elapid antivenom production.
Subject(s)
Animals , Antivenins/biosynthesis , Neurotoxins/classification , Neurotoxins/genetics , SnakesABSTRACT
The production of anti-snake venom from large mammal's blood has been found to be low-yielding and arduous, consequently, antivenom immunoglobulins for treatment are achieved regularly as polyvalent serum. We have standardized an undemanding technique for making purified immunoglobulin IgY antivenom consisting of polyclonal antibodies against coral snake venom in the egg yolk of immunized hens. We have adapted a reported process of antibody purification from egg yolks, and achieved 90% antibody purity. The customized technique consisted of the removal of lipids from distilled water-diluted egg yolks by a freeze–thaw sequence. The specific immunoglobulins were present in the egg yolk for up to 180 days postimmunization. Therefore, by means of small venom quantities, a significant amount of immunoglobulins were found in an adequately purified state (The obtained material contained about 90% pure IgY). The antigen binding of the immunoglobulins was detected by a double immunodiffusion test. Titers of antibodies in the yolk were estimated with a serum protection assay (Median effective dose = ED50) (ED50= 477 mg/kg). Given that breeding hens is economically feasible, egg gathering is noninvasive and the purification of IgY antibodies is quick and easy, chicken immunization is an excellent alternative for the production of polyclonal antibodies. To the best of our knowledge, this is the first coral snake antivenom prepared in birds.
La producción de antiveneno de serpiente usando sangre de grandes mamíferos se ha encontrado que es de bajo rendimiento y de trabajo arduo, en consecuencia, las inmunoglobulinas antiveneno para el tratamiento se obtienen generalmente, como suero polivalente. Hemos estandarizado una técnica poco exigente para la fabricación de inmunoglobulina purificada IgY, que consistió en generar anticuerpos policlonales contra el veneno de la serpiente coral en huevos de gallinas inmunizadas. La técnica consistió en la eliminación de lípidos de las yemas del huevo, diluidas en agua y en una secuencia de congelación-descongelación. Las inmunoglobulinas específicas estuvieron presentes en la yema de huevo hasta 180 días después de la inmunización. La unión del antígeno a las inmunoglobulinas se detectó mediante un ensayo de inmunodifusión doble. Los títulos de anticuerpos en la yema fueron estimados con un ensayo de protección (dosis efectiva media = ED50). Dado que las gallinas reproductoras son económicamente viables, la recolección de huevos es no invasiva y la purificación de anticuerpos IgY es rápida y fácil, la inmunización de la gallina es una excelente alternativa para la producción de anticuerpos policlonales. A nuestro entender, esta es el primer anti-veneno contra serpiente de coral preparado en aves.
Subject(s)
Animals , Female , Mice , Antivenins/biosynthesis , Elapidae , Egg Yolk/immunology , Immunization/methods , Immunoglobulins/biosynthesis , Antivenins/isolation & purification , Chickens , Electrophoresis, Polyacrylamide Gel , Immunoglobulins/isolation & purification , Neutralization TestsABSTRACT
Objetivos. Desarrollar un protocolo de inmunización para producir inmunoglobulinas IgY de origen aviar contra el veneno de la serpiente peruana Bothrops atrox y evaluar la capacidad neutralizante. Materiales y métodos. Se inmunizaron seis gallinas de postura de la raza hy line brown con 500 μg/dosis de veneno de B. atrox en un periodo de dos meses. Cada semana, los huevos fueron colectados para el aislamiento de inmunoglobulinas IgY a partir de la yema, usando dos pasos consecutivos con αcido caprνlico y sulfato de amonio. La detecciσn de anticuerpos se realizσ por inmunodifusiσn doble mientras que el tνtulo y reactividad cruzada se determinaron por las técnicas de ELISA y Western blot. El cálculo de DL50 y de la DE50 del antiveneno IgY producido se realizó utilizando el método de Probits. Resultados. La masa de anticuerpos aislados fue de 8,5 ± 1,35 mg de IgY/mL de yema. Asimismo, la DE50 del antiveneno aviar fue calculada en 575 μL de antiveneno/mg de veneno. Adicionalmente, los ensayos de reactividad cruzada mostraron que el veneno de B. atrox comparte mas epνtopes comunes con el veneno de B. brazili (47%) que con otros veneno del mismo género, en tanto que los venenos de Lachesis muta (19%) y Crotalus durissus (12%) mostraron una baja reactividad cruzada. Conclusiones. Se ha obtenido IgY purificada contra el veneno de B. atrox con capacidad neutralizante y se ha demostrado su utilidad como herramienta inmunoanalítica para evaluar la reactividad cruzada con venenos de otras especies.
Objectives. To develop an immunization protocol in order to produce avian IgY immunoglobulins against Bothrops atrox Peruvian snake venom and to evaluate its neutralizing capacity. Materials and methods. Six Hy Line Brown hens were immunized each two weeks using 500μg/doses of B. atrox venom in a period of two months. Each week, eggs were collected for IgY isolation from yolk using two consecutive steps with caprilic acid and ammonium sulfate. Detection of IgY anti-B. atrox were performed by double immunodiffusion, whereas title and cross-reactivity were analyzed using ELISA and Western Blot technics, respectively. Furthermore, letal dose (DL50) and Medium Effective Dose (DE50) were obtained by Probit analysis. Results. As a result of this protocol, chicken IgYs were obtained in a concentration of 8,5 ± 1,35 mg/yolk mL. DE50 from avian antivenom was 575 μL/venom mg. Cross-reactivity studies showed Bothrops atrox venom share more commom epitopes with Bothrops brazili (47%) than others Bothrops venoms showing Lachesis muta (19%) and Crotalus durissus (12%) venoms a low crossing reactivity, instead. Conclusions. Using this procedure, we could purify chicken IgY with a neutralizant capacity of B. atrox venom which is comparable to the antivenom of equine origin and demonstrate its capacity as a immunoanalitical tool to evaluate the cross reactivity with others peruvian snakes.
Subject(s)
Animals , Antivenins/biosynthesis , Antivenins/immunology , Bothrops , Crotalid Venoms/antagonists & inhibitors , Immunoglobulins/biosynthesis , Ovum/immunologyABSTRACT
Plant-antivenom is a computational Websystem about medicinal plants with anti-venom properties. The system consists of a database of these plants, including scientific publications on this subject and amino acid sequences of active principles from venomous animals. The system relates these data allowing their integration through different search applications. For the development of the system, the first surveys were conducted in scientific literature, allowing the creation of a publication database in a library for reading and user interaction. Then, classes of categories were created, allowing the use of tags and the organization of content. This database on medicinal plants has information such as family, species, isolated compounds, activity, inhibited animal venoms, among others. Provision is made for submission of new information by registered users, by the use of wiki tools. Content submitted is released in accordance to permission rules defined by the system. The database on biological venom protein amino acid sequences was structured from the essential information from National Center for Biotechnology Information (NCBI). Plant-antivenom's interface is simple, contributing to a fast and functional access to the system and the integration of different data registered on it. Plant-antivenom system is available on the Internet at http://gbi.fmrp.usp.br/plantantivenom.
Subject(s)
Animals , Antidotes/isolation & purification , Antidotes/chemical synthesis , Antidotes/therapeutic use , Antivenins/administration & dosage , Antivenins/biosynthesis , Antivenins/therapeutic use , Databases, Nucleic Acid , Venoms/adverse effects , Venoms/toxicity , Internet , Plant ExtractsABSTRACT
Crotalus durissus terrificus (C.d.t.) (South American rattlesnake) venom possesses myotoxic and neurotoxic activities, both of which are also expressed by crotoxin, the principal toxin of this venom. Crotoxin contains a basic phospholipase A2 (PLA2) and a non toxic acidic protein, crotapotin. We have produced and investigated the ability of IgG antibodies raised in rabbits against PLA2 to neutralize the lethality of the whole venom. PLA2 was isolated by gel filtration chromatography (Sephadex G-75). Specific antibodies were obtained by subcutaneous and intramuscular inoculation of PLA2 (700 µg) with Freund adjuvant. Groups of six mice (20 + 2 g) were inoculated with 0.5 ml i.p. of C. d. t. venom (4 µg) or a mixture of venom that had been preincubated with the desired volume of IgG antibodies. Mortality, recorded 24 and 48 h after inoculation, showed that IgG anti-PLA2 were more effective than anticrotalic serum in neutralizing the lethal activity. These results demonstrate that it could be possible to obtain an anti-venom made by specific antibodies with a high level of protection against the lethal component of C.d.t. venom, and/or the inclusion of these antibodies as a supplement in heterologous anti-venoms
El veneno de Crotalus durissus terrificus (C.d.t.) (Cascabel de Sud América) posee actividad miotóxica y neurotóxica, actividades que también exhibe el complejo crotoxina, principal componente tóxico de este veneno. El complejo crotoxina está constituido por una fosfolipasa A2 básica (PLA2) y una proteína acídica no tóxica, el crotapotín. En este trabajo se estudió la capacidad neutralizante de anticuerpos IgG anti-PLA2 sobre la letalidad inducida por el veneno entero. El antígeno PLA2, fue aislado por cromatografía de filtración en gel (Sephadex G-75). Se inocularon conejos machos por vía subcutánea e intramuscular, con 700 µg de PLA2 y adyuvante para la obtención de anticuerpos específicos. La capacidad neutralizante del antisuero se analizó en ratones por inoculación con diluciones de veneno entero preincubado con un volumen adecuado de anticuerpos IgG anti-PLA2. Se inocularon ratones controles con 0.5 ml i.p. de veneno (4 µg.ml-1). El número de muertes fue contabilizado a las 24 y 48 h posteriores a la inoculación, demostrándose que la capacidad neutralizante de los anticuerpos IgG anti-PLA2 fue superior a la obtenida con el antiveneno crotálico. Los resultados obtenidos demuestran la potencial aplicación de antivenenos constituidos por anticuerpos específicos contra PLA2, y/o la inclusión de estos anticuerpos como suplementos en antivenenos polivalentes
Subject(s)
Animals , Male , Mice , Rabbits , Antivenins/immunology , Crotalus/immunology , Crotoxin/immunology , Immunoglobulin G/immunology , Neutralization Tests/methods , Phospholipases A/immunology , Antibody Specificity , Antivenins/biosynthesis , Antivenins/pharmacology , Buffers , Chromatography, Agarose , Crotoxin/toxicity , Disease Models, Animal , Enzyme-Linked Immunosorbent Assay , Hemolysis/immunology , Immunoblotting , Immunoelectrophoresis , Immunoglobulin G/biosynthesis , Immunoglobulin G/pharmacology , Neuromuscular Blockade , Phospholipases A/isolation & purification , Phospholipases A/toxicityABSTRACT
Snake venoms from M. corallinus (LD5=7.1 + or - 0.83 µg), M.frontalis (LD50=19.3 + or - 3.13 µg), M. ibiboboca (LD50=19.8 + or - 2.07 µg) and M. spiixi (LD50=6.7 + or - 1.25 µg) (family Elapidae, genus Micrurus) injected into horses alone or in combination (M. corallinus with M. frontalis) elicit antibody production, as indicated in vivo by neutralization of venom lethality and in vitro by enzyme-linked immunosorbent assay (ELISA), immunoelectrophoresis (IE) and Western blotting (WB). Venom lethality was efficiently neutralized by the antisera, with the monovalent antivenoms being more efficient than the bivalent antivenom. Antibodies against venom components were detected by all artisera at different titers by ELISA. Upon IE, antisera against M. spiixi and M. frontalis venoms cross-reacted with the four types of venoms studied and recognized several molecular components, the precipitin lines obtained had distinct intensities and electrophoretic motilities, whereas the antivenom against M. corallinus only recognized components of its venom but not of the others. All antivenoms cross-reacted with all the elapid venoms in WB revealing several blands with distinct MWs in M. corallinus and M. spiixi venoms, two very sharp and separate bands in M. corallinus venom and a very sharp band of high MW together with several other smaller and faint bands in M. frontalis venom. The data indicate that snake venoms of the genus Micrurus are good immunogens that contain many cross-reactive molecules, and that their toxic components are neutralized more effectively by monovalent rather than by bivalent antivenom
Subject(s)
Animals , Antivenins/biosynthesis , Cross Reactions , Elapid Venoms/immunology , Blotting, Western , Brazil , Enzyme-Linked Immunosorbent Assay , Horses , Immunoelectrophoresis , Lethal Dose 50ABSTRACT
Se estudiaron algunos componentes sanguíneos en un grupo de seis caballos inmunizados por primera vez con venenos de serpientes para la producción de suero antiofídico polivalente en Costa Rica. No hubo cambios significativos en los valores de hematocrito y hemoglobina, aunque las proteínas totales sufrieron un pequeno pero significativo aumento en la segunda mitad del esquema de inmunización, probablemente relacionado con un aumento en la producción de globulinas. No hubo cambios significativos en los niveles de CK, mientras que las enzimas TGO y TGP aumentaron levemente, sin sobrepasar el límite superior normal. Estos resultados sugieren la ausencia de lesiones tisulares importantes en músculo esquelético, músculo cardíaco e hígado. Los caballos presentan únicamente alteraciones locales en el sitio de inoculación del veneno, caracterizadas por edema, abscesos y fístulas. No se observó ningún tipo de alteración sistémica. Se observó una gran variabilidad individual en el desarrollo de la respuesta de anticuerpos anti-fosfolipasa A2
Subject(s)
Animals , Male , Female , Antivenins/biosynthesis , Horses/immunology , Snake Venoms/immunology , Costa Rica , Creatine Kinase/blood , Hematocrit , Hemoglobins/analysis , Immunoglobulins/blood , Immunization/adverse effects , Blood Proteins/analysis , Snake Venoms/adverse effects , Time Factors , Transaminases/bloodABSTRACT
A monovalent antivenom was produced by immunozing two horses with venom of the pit viper Bothrops asper (Ophidia: Viperidae). Although development of the immune response against four toxic and enzymatic activitiesof the venom was similar in both horses during the first two thirds of the immunization schedule, antibody response in one of the horses reached much higher levels in the last part of the immunization. Immunoelectrophoretic analysis indicates that there were precipitating antibodies in the sera of these horses during all the stages of immunization. However, immunoprecipitation did not correlated with the ability of sera to neutralize toxic activities of B. asper venom. Monovalent antivenom was more effective than the commercialy available polyvalent antivenom in the neutralization of Bothrops asper venom. On the other hand, despite the fact that it neutralizes lethal and hemorrhagic activities of the venoms of Lachesia muta and Crotalus durissus, it was less effective than polyvalent antivenom in these neutralizations. Moreover, it does not neutalize defibrinating activity induced by these two venoms, whereas it neutralizes this effect in the case of B. asper venom. It is proposed that monovalent antivenom my be highly effective in the case of envenomations induced by Bothrops asper venom; its use in treating accidentsby L. muta and C. durissus would be indicated only of polyvalent antivenom is not available. Results also demonstrate that it is important to monitor antibody response individually in horses being immunized for antivenom production, due to the conspicuous variability in the response of different animals.