De novo venom gland transcriptomics of Calliophis bivirgata flaviceps: uncovering the complexity of toxins from the Malayan blue coral snake

The Malayan blue coral snake, Calliophis bivirgata flaviceps, is a medically important venomous snake in Southeast Asia. However, the complexity and diversity of its venom genes remain little explored. Methods: To address this, we applied high-throughput next-generation sequencing to profile the venom gland cDNA libraries of C. bivirgata flaviceps. The transcriptome was de novo assembled, followed by gene annotation, multiple sequence alignment and analyses of the transcripts. Results: A total of 74 non-redundant toxin-encoding genes from 16 protein families were identified, with 31 full-length toxin transcripts. Three-finger toxins (3FTx), primarily delta-neurotoxins and cardiotoxin-like/cytotoxin-like proteins, were the most diverse and abundantly expressed. The major 3FTx (Cb_FTX01 and Cb_FTX02) are highly similar to calliotoxin, a delta-neurotoxin previously reported in the venom of C. bivirgata. This study also revealed a conserved tyrosine residue at position 4 of the cardiotoxin-like/cytotoxin-like protein genes in the species. These variants, proposed as Y-type CTX-like proteins, are similar to the H-type CTX from cobras. The substitution is conservative though, preserving a less toxic form of elapid CTX-like protein, as indicated by the lack of venom cytotoxicity in previous laboratory and clinical findings. The ecological role of these toxins, however, remains unclear. The study also uncovered unique transcripts that belong to phospholipase A2 of Groups IA and IB, and snake venom metalloproteinases of PIII subclass, which show sequence variations from those of Asiatic elapids. Conclusion: The venom gland transcriptome of C. bivirgata flaviceps from Malaysia was de novo assembled and annotated. The diversity and expression profile of toxin genes provide insights into the biological and medical importance of the species.(AU)

Qualitative and quantitative ultrastructural analysis of the mitochondria from adrenal gland cortex under the action of viperidae family snake venoms / Análisis ultrastructural cualitativo y cuantitativo de la mitocondria de la glándula adrenal bajo la acción de los venenos de serpientes de la familia viperidae

SUMMARY: The Viperidae venoms are composed of a mixture of constituents with enzymatic and non-enzymatic actions, which act on ultrastructural components of cells and tissues. Here, the number of mitochondria, mitochondrial area and the number of mitochondrial cristae from adrenal glands cortex treated with snake venoms were tested after 3, 6 and 24 hours of venom injections. The mitochondria quantitative changes showed a statistically significant decrease, in the number of mitochondria past 3, 6 and 24 h. There was an increase in the mitochondrial area after 6 h, where Crotalus vegrandis venom did not present significant differences with Crotalus pifanorum or Bothrops venezuelensis venoms. After 24 h, there was an escalation of mitochondrial area in all tested venoms. The number of mitochondrial cristae after 3 h did not present important differences with the control treatment. After 6 h, the number of mitochondrial cristae initiated to decrease under the activities of the 3 venoms action, until 24 h of observation. In the qualitative observations it was possible to witness an intense damage of the mitochondria, with loss and swelling of membranes, disappearance of cristae and the appearance of myelin figures, which started at 3 h after the Crotalus and Bothrops venoms injections. These damages probably were due to cytotoxic effects of phospholipases, metalloproteases and/or other proteolytic activities present in Viperidae snake venoms, being more evident in Crotalus venoms. As far as we know, these results define a novel finding that suggest that Viperidae snake venoms are extremely toxic to mammalian mitochondria.

RESUMEN: Los venenos de Viperidae tienen acciones enzimáticas y no enzimáticas, que actúan sobre la estructura celular. Aquí se probaron, a las 3, 6 y 24 horas de la inyección del veneno, el número de mitocondrias, el área mitocondrial y el número de crestas mitocondriales de la corteza de las glándulas adrenales. Los cambios cuantitativos de las mitocondrias mostraron una disminución en el número de mitocondrias a las 3, 6 y 24 h. Hubo un aumento en el área mitocondrial a las 6 h, donde el veneno de la serpiente Crotalus vegrandis no presentó diferencias significativas con los venenos de Crotalus pifanorum o Bothrops venezuelensis. Después de 24 h, hubo un aumento del área mitocondrial en todos los venenos. El número de crestas mitocondriales a las 3 h no presentó alteraciones o diferencias importantes con el tratamiento de control. Después de 6 h, el número de crestas mitocondriales comenzó a disminuir bajo la acción de los 3 venenos, hasta las 24 h de observación. En las observaciones cualitativas se observó un daño intenso de las mitocondrias, con pérdida y edema de las membranas, desaparición de las cristae y aparición de figuras mielínicas, que comenzó a las 3 h después de las inyecciones de veneno de Crotalus y Bothrops. Estos daños se debieron factiblemente a los efectos citotóxicos de componentes proteolíticos de los venenos. Creemos que estos resultados definen un nuevo y original hallazgo, que sugiere que los venenos de serpiente Viperidae son extremadamente tóxicos para las mitocondrias de mamíferos.

Aislamiento y caracterización de la miotoxina I del complejo Bothrops neuwiedi (yarará chica) / Isolation and characterization of myotoxin I from Bothrops neuwiedi complex (small yarará)

En Argentina, más del 97% de los accidentes ponzoñosos son producidos por serpientes del género Bothrops, siendo aquellas pertenecientes al complejo Bothrops neuwiedi unas de las de mayor incidencia. El envenenamiento por esta especie es similar al descripto para otras especies Bothrops de América, presentando en el individuo accidentado daño tisular considerable: dolor, inflamación, edema, exudación, mionecrosis, problemas en la coagulación y hemorragias importantes. Del veneno entero del complejo Bothrops neuwiedi se aisló una proteína básica por cromatografía de intercambio iónico y RP-HPLC, la que se denominó Miotoxina I. Esta proteína provocó edema, miotoxicidad local cuando se la ensayó en ratones, citotoxicidad en cultivos celulares y alteración a nivel de la coagulación sanguínea, con potencia comparable al de otros venenos del género Bothrops. Con el objeto de determinar en qué medida esta toxina era importante en el daño que provoca el veneno entero de serpientes del complejo Bothrops neuwiedi cuando se produce un accidente ofídico, se caracterizó la misma a nivel bioquímico determinando las siguientes actividades: letal, necrótica, hemorrágica, miotóxica, edematizante, desfibrinogenante, citotóxica y enzimática (fosfolipasa A2). Al inyectar dosis de hasta 4,4 mg/kg de peso de ratón por vía endovenosa, se observó que la toxina no era letal, a su vez no produjo necrosis ni hemorragia, como se observa cuando se inyecta el veneno crudo, tampoco se detectó actividad fosfolipasa A2 cuando se la ensayó sobre fosfolípidos de yema de huevo. Sin embargo, sí se observó un aumento de la enzima cretinina kinasa (CK) debido al daño producido en tejido muscular, y de la enzima lactato deshidrogenasa (LDH) cuando se la inoculó a líneas celulares endoteliales (t-END) y mioblastos (C2C12) de ratón, observándose un daño en la monocapa celular a partir de las 3H de inoculada la toxina. A nivel sanguíneo se pudo determinar que esta nueva toxina posee actividad anticoagulante en un porcentaje menor al que provoca el veneno entero cuando es inoculado. Con el fin de determinar su peso molecular se realizó una electroforesis en gel de poliacrilamida con dodecyl sulfato de sodio, donde se observó que la Miotoxina I de BnC aparecía, al colorear el gel, como un homodímero de 15 kD. Al realizar una inmunodifusión en gel de agarosa, se observó que existe un patrón de identidad antigénica parcial entre esta nueva miotoxina aislada y la miotoxina II del veneno de la especie Bothrops asper de Costa Rica. A su vez, se secuenciaron los primeros 40 residuos aminoacídicos de esta miotoxina, lo que demostró una alta homología con varias miotoxinas fosfolipasas A2 clase II, de la familia de las Lys-49, de crotálidos. Estos resultados en conjunto sugieren que esta toxina es un nuevo miembro de las fosfolipasas A2 Lys-49, con actividades: miotóxica, citolítica e inflamatoria por inducción de edema y con actividad anticoagulante probablemente por el consumo de fibrinógeno en el torrente sanguíneo.

Anti-venom potential of aqueous extract of stem bark of Mangifera indica L. against Daboia russellii (Russell’s viper) venom.

Several plant extracts rich in pharmacologically active compounds have shown to antagonize venom of several species. Mangifera indica has been used against snakebite by the traditional healers, However, there is paucity of scientific data in support. In this study, we evaluated the antivenom potential of aqueous extract of stem bark of M. indica against D. russellii venom-induced pharmacological effects such as life myotoxicity, edema, LD50 etc. The extract inhibited the phospholipase, protease, hyaluronidase, 5`nucleotidase, ATPase and alkaline phosphomonoesterase activities with varying IC50 values. It significantly inhibited both metalloproteases and serine proteases activities. Further, the extract significantly reduced the myotoxicity of the venom, as evident by the reduction of serum creatin kinase and lactate dehydrogenase activities. Though the extract completely inhibited in vitro PLA2 activity, it was unable to completely inhibit in situ hemolytic and in vivo edema-inducing activities, usually brought about by PLA2s. In lethality studies, co-injection of the venom preincubated with the extract showed higher protection than the independent injection of venom, followed by the extract in the mice. However, in both the cases the extract -a cocktail of inhibitors significantly increased the survival time, when compared to that of mice injected (i.p) with the venom alone. These results encourage further studies on the potential use of cocktail of inhibitors in improving the treatment of snake envenomation. Further, this study substantiates the use of M. indica as an antidote against snakebite by the traditional healers.

Inhibition of local effects of Indian Daboia/Vipera russelli venom by the methanolic extract of grape (Vitis vinifera L.) seeds.

Although anti-venom therapy is available for the treatment of fatal bite by snakes, it offers less or no protection against the local effects such as dermo- and myonecrosis, edema, hemorrhage and inflammation at the bitten region. The viper species are known for their violent local effects and such effects have been commonly treated with plant extracts without any scientific validation in rural India. In this investigation, the methanolic extract of grapes (Vitis vinifera L.) seed was studied against the Indian Daboia/Vipera russelli venom-induced local effects. The extract abolished the proteolytic and hyaluronidase activities and also efficiently neutralized the hemorrhage, edema-inducing and myonecrotic properties of the venom. In addition, the extract also inhibited partially the pro-coagulant activity of the venom and abolished the degradation of Aα and Bβ chains of human fibrinogen. Thus, the extract possesses potent anti-snake venom property, especially against the local effects of viper bites.

Perfil clínico e imunológico de bovinos experimentalmente inoculados com veneno bruto e iodado de Bothrops alternatus / Clinical and immunological characteristics in cattle experimentally inoculated with crude and iodinated Bothrops alternatus venom

Dez novilhas mestiças, distribuídas em dois grupos experimentais (n=5) receberam na altura média da face cranial do membro anterior direito, entre as articulações umerorradioulnar e do carpo, por via intramuscular superficial, 0,15mg/kg de veneno de Bothrops alternatus bruto ou iodado. Todos os animais foram avaliados clinicamente antes - tempo zero - e às 6 e 10h, no 2º, 3º, 4º, 5º, 8º, 11º, 18º e 25º dias após a inoculação dos venenos. Dois animais do grupo que recebeu veneno bruto foram a óbito às 53h e 78h e os sobreviventes apresentaram apatia, letargia, anorexia, postura indicativa de dor, melena, petéquias e sufusões nas mucosas, aumento do tempo de preenchimento capilar, enfartamento ganglionar regional, aumento das freqüências respiratória e cardíaca, redução da freqüência de pulsação arterial periférica, elevação da temperatura retal e diminuição da movimentação ruminal. No local da inoculação do veneno bruto houve sangramento e ulceração dérmica, além de aumento significativo na circunferência e dobra da pele do membro inoculado, revelando formação de edema. Todos os animais também foram avaliados imunologicamente no 17º, 24º, 31º, 45º, 60º e 180º dia. Somente os que receberam veneno bruto produziram anticorpos, detectados até o 45º dia. Os que receberam veneno botrópico iodado apresentaram alterações gerais e locais de menor intensidade, porém sem produção de IgG nos tempos pesquisados, demonstrando que a iodação alterou a composição bioquímica do veneno, diminuindo sua toxicidade e imunogenicidade.

The effects of bothropic envenomation in 10 crossbred heifers, randomly divided into two groups, that received 0.15mg/kg of body weight of Bothrops alternatus crude or iodinated venom were studied. Behavior; attitude; appetite; defecation; urination; mucous membranes; capillary perfusion time; lymph nodes; respiratory, cardiac and pulse frequencies; rectal temperature and rumination frequency diameter and skin fold of the foreleg on the inoculation site were observed before(zero time) and at 6 and 10h and on the 2nd, 3rd, 4th, 5th, 8th, 11th, 18th and 25th day after venom inoculation. Two cattle of Bothrops crude venom group, died at 53 and 78h and the surviving animals showed apathy, lethargy, anorexia, pain indicative attitudes, melena, hemorrhagic spots and suffusions on mucous membranes, increased capillary perfusion time, enlarged regional lymph nodes, increased respiratory and cardiac frequencies, decreased peripheric arterial pulse frequency, elevated rectal temperature and decreased of ruminal movements. Bleeding, necrotic point and increase (P< 0.05) diameter and skin fold of the foreleg were identified on the inoculated site, confirming local edema. All the animals were evaluated for Bothrops alternatus venom specific IgG on the 17th, 24th, 31st, 45th, 60th and 180th day. Only the animals receiving crude venom produced IgG specific until the 45th day. The animals inoculated with iodinated venom showed general alterations and minor local effects and did not produce specific IgG, indicating that the iodination decreased both toxicity and immunogenicity response.

Efecto proteolítico de venenos de serpientes del género bothrops (yarará) de la Argentina y su neutralización por un antiveneno bivalente / Proteolityc effect of bothrops snake venom (yarará) from Argentina and neutralization by bivalent antivenom

Se estudió la actividad proteolítica de los venenos del género Bothrops de diferentes especies que habitan el litoral argentino y su neutralización por un suero hiperinmune bivalente producido en la Argentina. Se midió la actividad proteolíticas sobre caseína y se determinó la dosis proteolítica mínima (DPM), y la dosis efectiva 50 (DE) del suero bivalente frente a cada veneno. Las actividades proteolíticas de los venenos B, alternatus, B. neuwiedii, B. jararaca, B. jararacussu y B. moojeni fueron inferiores a las que presentan otras especies de Bothrops que habitan la región de America Central. Los resultados de la DE mostraron que el suero fue efectivo para neutralizar tal actividad en todos ellos, a pesar de que el suero utilizado en estas experiencias era específico para B. alternatus y B. neuwiedii.

Lack of myocardial damage following Sri Lankan Russell's viper and hump-nosed viper bites.

INTRODUCTION: Cardiac effects following the bite of Burmese Russell's vipers and European vipers are well known. The question whether envenomation caused by Sri Lankan viper bites results in myocardial damage remains largely unanswered. The aim of this prospective study was to investigate whether myocardial damage occurs after Sri Lankan viper bites, using a highly specific and sensitive marker, troponin T. METHODS: 45 patients admitted after a definite viper bite [Russell's viper (RV), n = 13, hump-nosed viper (HNV), n = 32] were studied with regard to cardiac symptoms, ECG changes, and troponin T levels. There were no admissions with bites of other types of Sri Lankan vipers during the study period. RESULTS: Cardiac symptoms were present in a number of patients following the bite. Two patients had transient ECG changes. However, troponin T levels were not elevated in any of them. COMMENT: Myocardial damage does not seem to be an important feature of Sri Lankan Russell's and hump-nosed viper bites. This may be because of venom heterogeneity in vipers, that is based on their geographical distribution.

Renal histopathology following Russell's viper (Vipera russelli) bite.

Renal lesions in ten patients following Russell's viper bite were studied. Renal biopsies were available in six and autopsies in four patients. Autopsied tissues from two cases of traumatic death served as controls. Both qualitative and quantitative changes in the glomeruli, tubules, interstitium and blood vessels were evaluated. Tubular necrosis was detected in five, tubular degeneration in nine, glomerular changes in nine and interstitial changes in four cases. Generally tissues from expired cases had more severe and extensive renal lesions than those that survived.

Urinary fibrin (-ogen) degradation products in Russell's viper (Daboia russelii siamensis) bite victims.

Serum and urine concentrations of fibrin (-ogen) degradation products (FDP) were estimated in 20 proven Russell's viper bite (RVB) cases with severe defribination. All patients had similar degrees of high serum FDP levels. However, the ten who developed into acute renal failure (ARF) had significantly (p < 0.001) higher urinary FDP levels than those who did not. The urinary FDP levels of ARF cases increased correspondingly with high serum FDP levels but not in cases without ARF. Serial comparison of serum and urinary FDP levels in RVB cases with severe defibrination may be of value in predicting the likelihood of developing ARF. The present study favored disseminated intravascular coagulation as the main cause of ARF in Myanmar RVB cases.

Toxicities, LD50 prediction and in vivo neutralisation of some elapid and viperid venoms.

Toxicity levels of elapid (Naja naja and Naja oxiana) viperid (Vipera lebetina and Vipera russelli) venoms for mice and rat for intraperitoneal intravenous and intramuscular routes have been determined. The data have been analysed using a mathematical expression to calculate lethal venom concentrations in human snake bite cases. Further, in vivo neutralisation of snake venom potency (after experimental injection) using high voltage-low current electric shock treatment has been attempted. This treatment postponed the death further by 60-90 min in mice in case of elapid envenomation. In case of viperid envenomation such a postponement of death time was not noticed. The death postponement induced by the shock treatment probably refers to structural impairments that occur at molecular level in venom components and their consequent altered interactions with the target tissue or system.