Your search keyword '"SNAKE venom"' showing total 5,840 results

1. Elusive elapids: biogeographic venom variation in Indian kraits and its repercussion on snakebite therapy.

Author

Rashmi, U., Bhatia, Siddharth, Nayak, Muralidhar, Khochare, Suyog, and Sunagar, Kartik

Abstract

Snakebite is a major public health concern in many parts of the world, including India, where over 58,000 deaths occur annually due to snake envenoming. The common krait (Bungarus caeruleus) is responsible for the second-highest number of snakebite-related mortalities in the country. However, despite its notoriety, little is known about its venom ecology, functions and compositional variation across bioclimatic zones, partly because these nocturnal snakes are highly elusive, making it difficult to find them in the wild. We aim to address this knowledge gap by characterising the venom composition and toxicity profiles of the pan-Indian populations (n = 8) of B. caeruleus using a combination of proteomics, receptor-toxin interaction assays, biochemical experiments, pharmacological tests and preclinical evaluations. We reveal considerable variation in venom composition, functions, and pharmacological activities among the geographically distinct populations of B. caeruleus. Furthermore, toxin-receptor interaction assays provide insights into their feeding ecology and prey-predator interactions. Finally, in vitro and in vivo experiments revealed the poor neutralising potencies of Indian antivenoms towards most populations of the common krait. Our findings highlight the alarming need to develop efficacious snakebite therapy in India to treat bites from this medically most important elapid snake. [ABSTRACT FROM AUTHOR]

Published

2024

2. Breaking muscle: neurotoxic and myotoxic effects of Central American snake venoms and the relative efficacies of antivenom and varespladib.

Author

Jones, Lee, Lay, Mimi, Neri-Castro, Edgar, Zarzosa, Vanessa, Hodgson, Wayne C., Lewin, Matthew, and Fry, Bryan G.

Subjects

*SNAKE venom, *PIT vipers, *VENOM, *ANTIVENINS, *ECOLOGICAL niche

Abstract

Background: The snake genera Atropoides, Cerrophidion, and Metlapilcoatlus form a clade of neotropical pit vipers distributed across Mexico and Central America. This study evaluated the myotoxic and neurotoxic effects of nine species of Atropoides, Cerrophidion, and Metlapilcoatlus, and the neutralising efficacy of the ICP antivenom from Costa Rica against these effects, in the chick biventer cervicis nerve-muscle preparation. Given the prominence of PLA2s within the venom proteomes of these species, we also aimed to determine the neutralising potency of the PLA2 inhibitor, varespladib. Results: All venoms showed myotoxic and potential neurotoxic effects, with differential intra-genera and inter-genera potency. This variation was also seen in the antivenom ability to neutralise the muscle damaging pathophysiological effects observed. Variation was also seen in the relative response to the PLA2 inhibitor varespladib. While the myotoxic effects of M. mexicanus and M. nummifer venoms were effectively neutralised by varespladib, indicating myotoxicity is PLA2 mediated, those of C. godmani and M. olmec venoms were not, revealing that the myotoxicity is driven by non-PLA2 toxin types. Conclusions: This study characterises the myotoxic and neurotoxic venom activity, as well as neutralisation of venom effects from the Atropoides, Cerrophidion, and Metlapilcoatlus clade of American crotalids. Our findings contribute significant clinical and evolutionary knowledge to a clade of poorly researched snakes. In addition, these results provide a platform for future research into the reciprocal interaction between ecological niche specialisation and venom evolution, as well as highlighting the need to test purified toxins to accurately evaluate the potential effects observed in these venoms. [ABSTRACT FROM AUTHOR]

Published

2024

3. Intraspecific venom variation in the medically important puff adder (Bitis arietans): Comparative venom gland transcriptomics, in vitro venom activity and immunological recognition by antivenom.

Author

Dawson, Charlotte A., Bartlett, Keirah E., Wilkinson, Mark C., Ainsworth, Stuart, Albulescu, Laura-Oana, Kazandijan, Taline, Hall, Steven R., Westhorpe, Adam, Clare, Rachel, Wagstaff, Simon, Modahl, Cassandra M., Harrison, Robert A., and Casewell, Nicholas R.

Subjects

*SNAKE venom, *VENOM glands, *ANTIVENINS, *VENOM, *TRANSCRIPTOMES

Abstract

Background: Variation in snake venoms is well documented, both between and within species, with intraspecific venom variation often correlated with geographically distinct populations. The puff adder, Bitis arietans, is widely distributed across sub-Saharan Africa and into the Arabian Peninsula where it is considered a leading cause of the ~310,000 annual snakebites across the region, with its venom capable of causing substantial morbidity and mortality. Despite its medical importance and wide geographic distribution, there is little known about venom variation between different B. arietans populations and the potential implications of this variation on antivenom efficacy. Methodology: We applied a range of analyses, including venom gland transcriptomics, in vitro enzymatic assays and reverse phase chromatography to comparatively analyse B. arietans venoms originating from Nigeria, Tanzania, and South Africa. Immunological assays and in vitro enzymatic neutralisation assays were then applied to investigate the impact of venom variation on the potential efficacy of three antivenom products; SAIMR Polyvalent, EchiTAb-Plus and Fav-Afrique. Findings: Through the first comparison of venom gland transcriptomes of B. arietans from three geographically distinct regions (Nigeria, Tanzania, and South Africa), we identified substantial variation in toxin expression. Findings of venom variation were further supported by chromatographic venom profiling, and the application of enzymatic assays to quantify the activity of three pathologically relevant toxin families. However, the use of western blotting, ELISA, and in vitro enzymatic inhibition assays revealed that variation within B. arietans venom does not appear to substantially impact upon the efficacy of three African polyvalent antivenoms. Conclusions: The large distribution and medical importance of B. arietans makes this species ideal for understanding venom variation and the impact this has on therapeutic efficacy. The findings in this study highlight the likelihood for considerable venom toxin variation across the range of B. arietans, but that this may not dramatically impact upon the utility of treatment available in the region. Author summary: The puff adder (Bitis arietans) is found across sub-Saharan Africa and the Arabian Peninsula and is capable of causing life threatening pathology due to its potent venom. The extensive range of B. arietans exposes populations to different ecological pressures which may impact upon the composition of venom toxins. In this study, we examined the venom composition of B. arietans from three countries separated by large geographic distance: Nigeria, Tanzania and South Africa. By integrating venom gland transcriptomes, venom chromatography, and in vitro functional assays to profile B. arietans venom composition, we uncovered extensive variation between the three locales. Given that venom variation can have a significant impact on the efficacy of antivenom treatment, we also investigated the ability of three African antivenoms to recognise and inhibit in vitro venom activity. Through these analyses, we were able to determine that venom variation did not have a substantial impact on the neutralising effect of selected antivenoms. This study has highlighted the potentially extensive venom variation found across the range of B. arietans and initiated valuable investigations into the efficacy of African antivenoms to protect human populations vulnerable to snakebite envenoming. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Toxin Diversity, Cytotoxicity, and Enzymatic Activity of Cape Cobra (Naja nivea) Venom.

Author

Lüddecke, Tim, Avella, Ignazio, Damm, Maik, Schulte, Lennart, Eichberg, Johanna, Hardes, Kornelia, Schiffmann, Susanne, Henke, Marina, Timm, Thomas, Lochnit, Günter, and Vilcinskas, Andreas

Subjects

*COBRAS, *CYTOTOXINS, *CLINICAL biochemistry, *POISONOUS snakes, *BIOLOGICAL assay, *SNAKE venom, *VENOM, *AMINO acid oxidase

Abstract

"True" cobras (genus Naja) are among the venomous snakes most frequently involved in snakebite accidents in Africa and Asia. The Cape cobra (Naja nivea) is one of the African cobras of highest medical importance, but much remains to be learned about its venom. Here, we used a shotgun proteomics approach to better understand the qualitative composition of N. nivea venom and tested its cytotoxicity and protease activity as well as its effect on intracellular Ca2+ release and NO synthesis. We identified 156 venom components representing 17 protein families, with the dominant ones being three-finger toxins, mostly of the short-chain type. Two-thirds of the three-finger toxin entries identified were assigned as cytotoxins, while the remainder were categorized as neurotoxins, including short-chain, long-chain, and ancestral three-finger toxins. We also identified snake venom metalloproteinases and members of CRISP, l-amino acid oxidase, and other families. Protease activity and its effect on intracellular Ca2+ release and NO synthesis were low. Phospholipase A2 activity was surprisingly high, despite this toxin family being marginally recovered in the analyzed venom. Cytotoxicity was relevant only at higher venom concentrations, with macrophage and neuroblastoma cell lines showing the lowest viability. These results are in line with the predominantly neurotoxic envenomation symptoms caused by Cape cobra bites. The present overview of the qualitatively complex and functionally intriguing venom of N. nivea may provide insights into the pathobiochemistry of this species' venom. [ABSTRACT FROM AUTHOR]

Published

2024

5. From Venom to Vein: Factor VII Activation as a Major Pathophysiological Target for Procoagulant Australian Elapid Snake Venoms.

Author

Chandrasekara, Uthpala, Chowdhury, Abhinandan, Seneci, Lorenzo, Zdenek, Christina N., Dunstan, Nathan, and Fry, Bryan G.

Subjects

*MOLECULAR biology, *BIOLOGICAL evolution, *BLOOD coagulation, *PROTHROMBIN, *ANTIVENINS, *SNAKE venom, *BLOOD coagulation factor X, *BLOOD coagulation factors

Abstract

Australian elapid snake venoms are uniquely procoagulant, utilizing blood clotting enzyme Factor Xa (FXa) as a toxin, which evolved as a basal trait in this clade. The subsequent recruitment of Factor Va (FVa) as a toxin occurred in the last common ancestor of taipans (Oxyuranus species) and brown snakes (Pseudonaja species). Factor II (prothrombin) activation has been stated as the primary mechanism for the lethal coagulopathy, but this hypothesis has never been tested. The additional activation of Factor VII (FVII) by Oxyuranus/Pseudonaja venoms has historically been considered as a minor, unimportant novelty. This study aimed to investigate the significance of toxic FVII activation relative to prothrombin activation by testing a wide taxonomical range of Australian elapid species with procoagulant venoms. The activation of FVII or prothrombin, with and without the Factor Va as a cofactor, was assessed, along with the structural changes involved in these processes. All procoagulant species could activate FVII, establishing this as a basal trait. In contrast, only some lineages could activate prothrombin, indicating that this is a derived trait. For species able to activate both zymogens, Factor VII was consistently more strongly activated than prothrombin. FVa was revealed as an essential cofactor for FVII activation, a mechanism previously undocumented. Species lacking FVa in their venom utilized endogenous plasma FVa to exert this activity. The ability of the human FXa:FVa complex to activate FVII was also revealed as a new feedback loop in the endogenous clotting cascade. Toxin sequence analyses identified structural changes essential for the derived trait of prothrombin activation. This study presents a paradigm shift in understanding how elapid venoms activate coagulation factors, highlighting the critical role of FVII activation in the pathophysiological effects upon the coagulation cascade produced by Australian elapid snake venoms. It also documented the novel use of Factor Va as a cofactor for FVII activation for both venom and endogenous forms of FXa. These findings are crucial for developing better antivenoms and treatments for snakebite victims and have broader implications for drug design and the treatment of coagulation disorders. The research also advances the evolutionary biology knowledge of snake venoms. [ABSTRACT FROM AUTHOR]

Published

2024

6. Exploring the Diversity and Function of Serine Proteases in Toxicofera Reptile Venoms: A Comprehensive Overview.

Author

Vidal, Julia F. D., Schwartz, Matheus F., Garay, Aisel V., Valadares, Napoleão F., Bueno, Renata V., Monteiro, Ana Carolina L., Freitas, Sônia Maria de, and Barbosa, João Alexandre R. G.

Subjects

*SNAKE venom, *SERINE proteinases, *BLOOD platelet activation, *BIOCHEMICAL substrates, *BIOTECHNOLOGY

Abstract

Toxicofera reptile venoms are composed of several toxins, including serine proteases. These proteases are glycosylated enzymes that affect the prey's hemostatic system. Their actions extend across the coagulation cascade, the kallikrein–kinin system, and platelet activation. Despite their specificity for different substrates, these enzymes are homologous across all toxicoferans and display high sequence similarity. The aim of this review is to compile decades of knowledge about venom serine proteases, showing the diversity of biochemically and biophysically characterized enzymes, their structural characteristics, advances in understanding their origin and evolution, as well as methods of obtaining enzymes and their biotechnological applications. [ABSTRACT FROM AUTHOR]

Published

2024

7. A murine experimental model of the pulmonary thrombotic effect induced by the venom of the snake Bothrops lanceolatus.

Author

Rucavado, Alexandra, Camacho, Erika, Escalante, Teresa, Lomonte, Bruno, Fernández, Julián, Solano, Daniela, Quirós-Gutiérrez, Isabel, Ramírez-Vargas, Gabriel, Vargas, Karol, Argüello, Ivette, Navarro, Alejandro, Abarca, Carlos, Segura, Álvaro, Florentin, Jonathan, Kallel, Hatem, Resiere, Dabor, Neviere, Remi, and Gutiérrez, José María

Subjects

*SNAKE venom, *DISSEMINATED intravascular coagulation, *PARTIAL thromboplastin time, *ANTIVENINS, *VENOM, *SNAKEBITES

Abstract

Background: The venom of Bothrops lanceolatus, a viperid species endemic to the Lesser Antillean Island of Martinique, induces thrombosis in a number of patients. Previous clinical observations indicate that thrombotic events are more common in patients bitten by juvenile specimens. There is a need to develop an experimental model of this effect in order to study the mechanisms involved. Methodology/Principal findings: The venoms of juvenile and adult specimens of B. lanceolatus were compared by (a) describing their proteome, (b) assessing their ability to induce thrombosis in a mouse model, and (c) evaluating their in vitro procoagulant activity and in vivo hemostasis alterations. Venom proteomes of juvenile and adult specimens were highly similar, albeit showing some differences. When injected by the intraperitoneal (i.p.) route, the venom of juvenile specimens induced the formation of abundant thrombi in the pulmonary vasculature, whereas this effect was less frequent in the case of adult venom. Thrombosis was not abrogated by the metalloproteinase inhibitor Batimastat. Both venoms showed a weak in vitro procoagulant effect on citrated mouse plasma and bovine fibrinogen. When administered intravenously (i.v.) venoms did not affect classical clotting tests (prothrombin time and activated partial thromboplastin time) but caused a partial drop in fibrinogen concentration. The venom of juvenile specimens induced partial alterations in some rotational thromboelastometry parameters after i.v. injection. When venoms were administered i.p., only minor alterations in classical clotting tests were observed with juvenile venom, and no changes occurred for either venom in rotational thromboelastometry parameters. Both juvenile and adult venoms induced a marked thrombocytopenia after i.p. injection. Conclusions/Significance: An experimental model of the thrombotic effect induced by B. lanceolatus venom was developed. This effect is more pronounced in the case of venom of juvenile specimens, despite the observation that juvenile and adult venom proteomes are similar. Adult and juvenile venoms do not induce a consumption coagulopathy characteristic of other Bothrops sp venoms. Both venoms induce a conspicuous thrombocytopenia. This experimental model reproduces the main clinical findings described in these envenomings and should be useful to understand the mechanisms of the thrombotic effect. Author summary: Envenomings by the viperid species Bothrops lanceolatus, endemic of the Caribbean Island of Martinique, are characterized by a thrombotic effect responsible for infarcts in various organs. Until now, no experimental in vivo models of this effect have been described. In this study, we developed a mouse model of thrombosis by using the intraperitoneal route of venom injection. The venom of juvenile specimens of B. lanceolatus induced the formation of abundant thrombi in the lungs, whereas the effect was much less pronounced with the venom of adult specimens. This difference in the ability of juvenile and adult venoms occurs despite both venoms having highly similar proteomic profiles. Both adult and juvenile venoms showed a weak in vitro procoagulant effect on plasma and fibrinogen, underscoring a thrombin-like (pseudo-procoagulant) activity. In vivo, the venoms did not affect the classical clotting tests (prothrombin time and activated partial thromboplastin time) but induced a partial drop in fibrinogen concentration and limited alterations in rotational thromboelastometry parameters when injected by the i.v. route. In contrast, few alterations of these parameters were observed after i.p. injection of venoms, in conditions in which thrombosis occurred, hence evidencing the lack of a consumption coagulopathy. After i.p. injection both venoms induced a pronounced thrombocytopenia. This experimental model reproduces some of the main clinical manifestations of envenoming by this species. This model can be used to identify the toxins responsible for the thrombotic effect, to study the mechanism(s) of thrombosis and to assess the preclinical efficacy of antivenoms and novel therapies. [ABSTRACT FROM AUTHOR]

Published

2024

8. A novel snake venom C-type lectin-like protein modulates blood coagulation by targeting von Willebrand factor and coagulation factor IX

Author

Fan-Yu Zeng, Ren-Sheng Ji, Xiao-Qin Yu, Ya-Nan Li, Qi-Yun Zhang, and Qian-Yun Sun

Subjects

Snake venom, C-type lectin‐like protein, Intrinsic coagulation pathway, Platelet activation, Coagulation function, Medicine, Science

Abstract

Abstract Snake venom C-type lectin-like proteins (CLPs) belong to the nonenzymatic proteins. To date, no CLP with both platelet and coagulation factors activating activities has been reported. In this study, a novel CLP, termed protocetin, with molecular weight of 29.986 kDa, was purified from the Protobothrops mucrosquamatus venom (PMV). It consists of α- and β-chains, with 67% similarity in their N-terminal sequence. Protocetin activates glycoprotein Ib (GPIb) by binding to von Willebrand factor (vWF), inducing platelet aggregation. It also activates the intrinsic coagulation pathway by binding to coagulation factor IX. After injection of protocetin into mice at dose of 0.5 µg/g or 1.5 µg/g, it resulted in activation of platelets, a notable reduction in platelet count and prolonged tail bleeding time. Additionally, the plasma activated partial thromboplastin time (APTT) was significantly extended, and the fibrinogen concentration was markedly reduced. Thrombelastogram comfirmed the anticoagulation effect of protocetin. Notably, no microthrombosis was observed in tissues of lung, liver and kidney within 1 h after injection of protocetin into the mice at dose of 0.5 µg/g. This study revealed protocetin as a novel CLP from PMV that has dual functions in activating platelet and coagulation factor IX, thereby modulates coagulation in vivo. This work contributes to a better understanding of the structure and function of snake venom CLP.

Published

2024

9. NEW ANTIVENOM KNOCKS OUT WIDE RANGE OF SNAKE TOXINS.

Author

COTTIER, CODY

Subjects

*COBRAS, *HUMAN cell culture, *SNAKEBITES, *ANTIVENINS, *RECOMBINANT antibodies, *SNAKE venom, *VENOM, *SNAKES

Abstract

A new antibody called 95Mat5 has been developed that can protect against a wide range of snake toxins, including those from cobras, mambas, and taipans. Unlike traditional antivenoms, which only work against a single species and can cause allergic reactions, 95Mat5 is derived from human cell lines and does not require horses. The antibody targets a class of venom proteins called threefinger toxins, which are present in all snakes from the elapid family. While there are still challenges to overcome, such as regulatory approval and manufacturing costs, researchers are hopeful that this new approach could lead to a universal antivenom that protects against all medically significant snakes. [Extracted from the article]

Published

2024

10. From birth to bite: the evolutionary ecology of India's medically most important snake venoms

Author

R. R. Senji Laxme, Suyog Khochare, Siddharth Bhatia, Gerard Martin, and Kartik Sunagar

Subjects

Ontogenetic shift, Evolutionary ecology, Snake venom, Prey-specific toxicity, Snakebite therapy, Biology (General), QH301-705.5

Abstract

Abstract Background Snake venoms can exhibit remarkable inter- and intraspecific variation. While diverse ecological and environmental factors are theorised to explain this variation, only a handful of studies have attempted to unravel their precise roles. This knowledge gap not only impedes our understanding of venom evolution but may also have dire consequences on snakebite treatment. To address this shortcoming, we investigated the evolutionary ecology of venoms of Russell’s viper (Daboia russelii) and spectacled cobra (Naja naja), India’s two clinically most important snakes responsible for an alarming number of human deaths and disabilities. Methodology Several individuals (n = 226) of D. russelii and N. naja belonging to multiple clutches (n = 9) and their mothers were maintained in captivity to source ontogenetic stage-specific venoms. Using various in vitro and in vivo assays, we assessed the significance of prey, ontogeny and sex in driving venom composition, function, and potency. Results Considerable ontogenetic shifts in venom profiles were observed in D. russelii, with the venoms of newborns being many times as potent as juveniles and adults against mammalian (2.3–2.5 ×) and reptilian (2–10 ×) prey. This is the first documentation of the ontogenetic shift in viperine snakes. In stark contrast, N. naja, which shares a biogeographic distribution similar to D. russelii, deployed identical biochemical cocktails across development. Furthermore, the binding kinetics of cobra venom toxins against synthetic target receptors from various prey and predators shed light on the evolutionary arms race. Conclusions Our findings, therefore, provide fascinating insights into the roles of ecology and life history traits in shaping snake venoms.

Published

2024

11. The Chinese guideline for management of snakebites.

Author

Rongde Lai, Shijiao Yan, Shijun Wang, Shuqing Yang, Zhangren Yan, Pin Lan, Yonggao Wang, Qi Li, Jinlong Wang, Wei Wang, Yuefeng Ma, Zijing Liang, Jianfeng Zhang, Ning Zhou, Xiaotong Han, Xinchao Zhang, Mao Zhang, Xiaodong Zhao, Guoqiang Zhang, and Huadong Zhu

Subjects

*NEGLECTED diseases, *SNAKE venom, *OCCUPATIONAL hazards, *DISABILITIES, *SYMPTOMS, *SNAKEBITES

Abstract

In 2009, the World Health Organization included snakebite on the list of neglected tropical diseases, acknowledging it as a common occupational hazard for farmers, plantation workers, and others, causing tens of thousands of deaths and chronic physical disabilities every year. This guideline aims to provide practical information to help clinical professionals evaluate and treat snakebite victims. These recommendations are based on clinical experience and clinical research evidence. This guideline focuses on the following topics: snake venom, clinical manifestations, auxiliary examination, diagnosis, treatments, and prevention. [ABSTRACT FROM AUTHOR]

Published

2024

12. Development, Optimization and Evaluation of a Sensitive Enzyme-Linked Immunosorbent Assay (ELISA) Prototype for Detection of Chicken-Based IgY Polyclonal Antibodies against Toxins of D. polylepis Venom.

Author

Kpordze, Stephen Wilson, Kikuvi, Gideon Mutie, Kimotho, James Hungo, and Mobegi, Victor Atunga

Subjects

*POISONOUS snakes, *HEALTH facilities, *ENZYME-linked immunosorbent assay, *SNAKE venom, *ANTIVENINS, *SNAKEBITES

Abstract

Life-threatening medical issues can result from snakebite, and hence this is a public health concern. In many tropical and subtropical nations such as Kenya, where a wide variety of poisonous snakes are prevalent, diagnosis of snakebite in health facilities is imperative. Different antivenoms are needed to treat the venom of different snake species. Nonetheless, it might be difficult for medical professionals to identify the exact snake species that envenomated a patient due to the similarities of several snake envenomations' clinical symptoms. Therefore, the necessity for an assay or technique for identifying venomous species is critical. The current study sought to develop a sensitive ELISA prototype for the detection of D. polylepis venom in Kenya using generated chicken-based IgY polyclonal antibodies. Serum samples containing specific chicken-based IgY antibodies previously raised against D. polylepis venom toxins were used in the assay development. ELISA parameters were optimized, and the developed assay was assessed for applicability. The limit of detection (LoD) of the ELISA for neurotoxic venoms was determined to be 0.01 µg/mL. Successful discrimination between neurotoxic and cytotoxic venoms was achieved by the ensuing inhibition ELISA assay. The developed assay showed the capability of identifying venoms in blood samples (from spiked and venom-challenged blood samples) of BALB/c mice, providing compelling evidence of the strategy's usefulness. This assay could help physicians diagnose and manage victims of snakebites through the evaluation of clinical samples. [ABSTRACT FROM AUTHOR]

Published

2024

13. Isolation and Pharmacological Characterisation of Pre-Synaptic Neurotoxins from Thai and Javanese Russell's Viper (Daboia siamensis) Venoms.

Author

Lay, Mimi and Hodgson, Wayne C.

Subjects

*SNAKE venom, *PHOSPHOLIPASE A2, *VENOM, *MYONEURAL junction, *ANTIVENINS

Abstract

The widespread geographical distribution of Russell's vipers (Daboia spp.) is associated with marked variations in the clinical outcomes of envenoming by species from different countries. This is likely to be due to differences in the quantity and potency of key toxins and, potentially, the presence or absence of some toxins in venoms across the geographical spectrum. In this study, we aimed to isolate and pharmacologically characterise the major neurotoxic components of D. siamensis venoms from Thailand and Java (Indonesia) and explore the efficacy of antivenom and a PLA2 inhibitor, Varespladib, against the neuromuscular activity. These data will provide insights into the link between venom components and likely clinical outcomes, as well as potential treatment strategies. Venoms were fractionated using RP-HPLC and the in vitro activity of isolated toxins assessed using the chick biventer cervicis nerve-muscle preparation. Two major PLA2 fractions (i.e., fractions 8 and 10) were isolated from each venom. Fraction 8 from both venoms produced pre-synaptic neurotoxicity and myotoxicity, whereas fraction 10 from both venoms was weakly neurotoxic. The removal of the two fractions from each venom abolished the in vitro neurotoxicity, and partially abolished myotoxicity, of the whole venom. A combination of the two fractions from each venom produced neurotoxic activity that was equivalent to the respective whole venom (10 µg/mL), but the myotoxic effects were not additive. The in vitro neurotoxicity of fraction 8 (100 nM) from each venom was prevented by the pre-administration of Thai Russell's viper monovalent antivenom (2× recommended concentration) or preincubation with Varespladib (100 nM). Additionally, the neurotoxicity produced by a combination of the two fractions was partially reversed by the addition of Varespladib (100–300 nM) 60 min after the fractions. The present study demonstrates that the in vitro skeletal muscle effects of Thai and Javanese D. siamensis venoms are primarily due to key PLA2 toxins in each venom. [ABSTRACT FROM AUTHOR]

Published

2024

14. Aligning Post-Column ESI-MS, MALDI-MS, and Coagulation Bioassay Data of Naja spp., Ophiophagus hannah , and Pseudonaja textillis Venoms Chromatographically to Assess MALDI-MS and ESI-MS Complementarity with Correlation of Bioactive Toxins to Mass Spectrometric Data

Author

Xu, Haifeng, El-Asal, Susan, Zakri, Hafsa, Mutlaq, Rama, Krikke, Natascha T. B., Casewell, Nicholas R., Slagboom, Julien, and Kool, Jeroen

Subjects

*COBRAS, *CHEMICAL properties, *BIOLOGICAL assay, *LIQUID chromatography, *BLOOD coagulation, *VENOM, *SNAKE venom

Abstract

Snakebite is a serious health issue in tropical and subtropical areas of the world and results in various pathologies, such as hemotoxicity, neurotoxicity, and local swelling, blistering, and tissue necrosis around the bite site. These pathologies may ultimately lead to permanent morbidity and may even be fatal. Understanding the chemical and biological properties of individual snake venom toxins is of great importance when developing a newer generation of safer and more effective snakebite treatments. Two main approaches to ionizing toxins prior to mass spectrometry (MS) analysis are electrospray ionization (ESI) and matrix-assisted laser desorption ionization (MALDI). In the present study, we investigated the use of both ESI-MS and MALDI-MS as complementary techniques for toxin characterization in venom research. We applied nanofractionation analytics to separate crude elapid venoms using reversed-phase liquid chromatography (RPLC) and high-resolution fractionation of the eluting toxins into 384-well plates, followed by online LC-ESI-MS measurements. To acquire clear comparisons between the two ionization approaches, offline MALDI-MS measurements were performed on the nanofractionated toxins. For comparison to the LC-ESI-MS data, we created so-called MALDI-MS chromatograms of each toxin. We also applied plasma coagulation assaying on 384-well plates with nanofractionated toxins to demonstrate parallel biochemical profiling within the workflow. The plotting of post-column acquired MALDI-MS data as so-called plotted MALDI-MS chromatograms to directly align the MALDI-MS data with ESI-MS extracted ion chromatograms allows the efficient correlation of intact mass toxin results from the two MS-based soft ionization approaches with coagulation bioassay chromatograms. This facilitates the efficient correlation of chromatographic bioassay peaks with the MS data. The correlated toxin masses from ESI-MS and/or MALDI-MS were all around 6–8 or 13–14 kDa, with one mass around 20 kDa. Between 24 and 67% of the toxins were observed with good intensity from both ionization methods, depending on the venom analyzed. All Naja venoms analyzed presented anticoagulation activity, whereas pro-coagulation was only observed for the Pseudonaja textillis venom. The data of MALDI-MS can provide complementary identification and characterization power for toxin research on elapid venoms next to ESI-MS. [ABSTRACT FROM AUTHOR]

Published

2024

15. Cardiotoxic Effects of Lachesis acrochorda Snake Venom in Anesthetized Wistar Rats.

Author

Ángel-Camilo, Karen Leonor, Bueno-Ospina, Mary Luz, Bolaños Burgos, Ivonne Carolina, Ayerbe-González, Santiago, Beltrán-Vidal, José, Acosta, Ana, Álvarez-Soler, Jaime, and Guerrero-Vargas, Jimmy Alexander

Subjects

*CREATINE kinase, *RATTUS norvegicus, *TROPICAL medicine, *LABORATORY rats, *BLOCK designs, *SNAKE venom, *VENOM

Abstract

Ophidism is a public health problem in tropical countries, occurring predominantly in rural areas. In Colombia, among the species responsible for snakebite envenomation, inflicting high mortality, is the Chocoan bushmaster, Lachesis acrochorda, better known locally by the names "verrugosa (warty)" and "pudridora (rot-causing)". In this research, the cardiotoxic effect of the venom of L. acrochorda in male Wistar rats weighing 230 ± 20 g was evaluated. A statistical design of randomized blocks was implemented with three treated groups, injected with lyophilized venom (doses of 3.22 μg/g, 6.43 μg/g, 12.86 μg/g), and a control group injected with 0.9% saline solution. Electrocardiographic (ECG) recordings were taken from the anesthetized animals, revealing an increase in the amplitude of the P and T waves and an increase in the duration of the QT intervals in the electrocardiographic recordings. These increases were not observed in the control biomodels. In the analysis of the CK and CK-MB enzyme levels, increases were also observed in the levels of cardiac isoenzymes in the injected animals, but none in the control animals. The histopathological analyses carried out reveal that the injected animals showed effects such as interfibrillar and perivascular edema, cellular shortening of the cardiomyocytes, foci with tissue destructuring, and necrosis with contraction bands. In conclusion, the venom of the Lachesis acrochorda snake increases the P and T waves and the QT interval and increases the CK and CK-MB enzymes in the blood. Additionally, it causes interfibrillar and perivascular edema in the cardiac tissue, cardiocytolysis, and contraction bands. [ABSTRACT FROM AUTHOR]

Published

2024

16. Effectiveness of the Association of Fibrin Scaffolds, Nanohydroxyapatite, and Photobiomodulation with Simultaneous Low-Level Red and Infrared Lasers in Bone Repair.

Author

Rossi, Jéssica de Oliveira, Araujo, Emilie Maria Cabral, Camargo, Maria Eduarda Côrtes, Ferreira Junior, Rui Seabra, Barraviera, Benedito, Miglino, Maria Angélica, Nogueira, Dayane Maria Braz, Reis, Carlos Henrique Bertoni, Gil, Guilherme Eugênio, Vinholo, Thaís Rissato, Soares, Thiago Pereira, Buchaim, Rogerio Leone, and Buchaim, Daniela Vieira

Subjects

*PHOTOBIOMODULATION therapy, *BONE growth, *INFRARED lasers, *BONE substitutes, *SNAKE venom

Abstract

Biomaterials and biopharmaceuticals for correcting large bone defects are a potential area of translational science. A new bioproduct, purified from snake venom and fibrinogen from buffalo blood, aroused interest in the repair of venous ulcers. Expanding potential uses, it has also been used to form biocomplexes in combination with bone grafts, associated with physical therapies or used alone. The aim of this preclinical study was to evaluate low-level laser photobiomodulation (PBM) in critical defects in the calvaria of rats filled with nanohydroxyapatite (NH) associated with the heterologous fibrin biopolymer (HFB). Sixty animals were used, divided into six groups (n = 10 each): G1 (NH); G2 (HFB); G3 (NH + HFB); G4 (NH + PBM); G5 (HFB + PBM); G6 (NH + HFB + PBM). PBM simultaneously used red (R) and infrared (IR) light emission, applied intraoperatively and twice a week, until the end of the experiment at 42 days. Microtomography, bone formation can be seen initially at the margins of the defect, more evident in G5. Microscopically, bone formation demonstrated immature and disorganized trabeculation at 14 days, with remnants of grafting materials. At 42 days, the percentage of new bone formed was higher in all groups, especially in G5 (HFB, 45.4 ± 3.82), with collagen fibers at a higher degree of maturation and yellowish-green color in the birefringence analysis with Picrosirius-red. Therefore, it is concluded that the HFB + PBM combination showed greater effectiveness in the repair process and presents potential for future clinical studies. [ABSTRACT FROM AUTHOR]

Published

2024

17. Faith healing: the threat of "Surucucu" and the local cure of Amazon floodplain dwellers.

Author

Cosendey, Beatriz Nunes and Pezzuti, Juarez Carlos Brito

Subjects

*SNAKEBITE treatment, *HEALTH services accessibility, *PHARMACOLOGY, *HOME care services, *HEALTH literacy, *TRADITIONAL medicine, *PATIENT safety, *RESEARCH funding, *SNAKEBITES, *HOSPITAL care, *INTERVIEWING, *ANIMALS, *ANTIVENINS, *EDEMA, *SNAKE venom, *COMMUNITIES, *TREATMENT effectiveness, *HOSPITALS, *NATUROPATHY, *DESCRIPTIVE statistics, *MEDICINAL plants, *RESEARCH methodology, *PAIN, *SPIRITUAL healing, *LENGTH of stay in hospitals, *NATURAL disasters, *WELL-being, *EVALUATION, *PHARMACODYNAMICS

Abstract

Background: Snakebites are considered a neglected tropical disease responsible for many accidents, some fatal, and are related to poverty. The Brazilian Amazon has the highest incidence of snakebites per inhabitant, with the state of Pará having the most reported cases. For those who have difficult access to hospitals and pharmacies, this issue is even more urgent. Methods: In this research, we worked together with the population of five riverine communities in Aritapera (Santarém-PA), a fluvial island located in the Lower Amazon floodplain (várzeas), in order to identify the species of venomous snakes and create a record of snakebites in the region and treatments carried out. Results: Dwellers reported a high frequency of encounters throughout the year and mentioned five venomous ethnospecies, although we identified only Bothrops atrox. Approximately 28.7% of the participants had already been bitten, and in 15.8% of the interviews, they mentioned deaths from snakebites. The treatments varied between hospitalization (42.8%), home treatments (23.8%), both together (25.4%) and healers (7.9%). There were cases where no treatment, or just religious treatment, was performed. In general, no serious sequelae were reported. Although home treatments were more common in the past, many people maintained the practice of using them before going to the hospital. Among the most used are Pau X and the fat of the Amazon River Dolphin. The latter appears to be a recent discovery by locals and is considered very efficient both for humans and animals. Conclusion: Difficult access to health centers, a lack of energy to store antivenom and a high rate of encounters with snake place Aritapera dwellers in a vulnerable situation regarding snakebite accidents. In this context, they discovered treatments that improved their well-being until hospitalization. As the Amazon River dolphin is an endangered species, the use of its fat requires attention. In this sense, the dissemination of this knowledge is important to encourage studies that investigate which properties of this fat act as counterpoisons. By discovering substitutes that can be incorporated in other rural and remote communities, an economic and ecologically viable option for the health of residents can be promoted, in addition to valuing traditional knowledge. [ABSTRACT FROM AUTHOR]

Published

2024

18. Metabolomic analysis of Agkistrodon haly venom poisoning mouse treatment by Jidesheng snake pill based on GC-MS.

Author

Jie Luo, Minkang Guo, Ke Xie, Ting-Li Han, and Shanmu Ai

Subjects

VASCULAR cell adhesion molecule-1, AMINO acid metabolism disorders, TUMOR necrosis factors, MULTIVARIATE analysis, GAS chromatography/Mass spectrometry (GC-MS), SNAKE venom, SNAKEBITES, VENOM

Abstract

Introduction: Snakebites are acute systemic toxic diseases caused by snake venom entering the body through wounds. Failure to use antivenom immediately and difficulty in obtaining antivenoms are frequently responsible for worsening disease. Traditional Chinese medicine is commonly used to supplement and replace antivenom in treating snakebites. The Jidesheng snake pill (JDS) is a widely used traditional Chinese medicine that has achieved good clinical therapeutic effects; however, its mechanism remains unclear. Therefore, metabolomics techniques were employed to explore the pathophysiological mechanisms of JDS treatment of Agkistrodon halys (Ah) snake venompoisoned mice. Methods: The Ah group mouse model was established by intramuscular injection of Ah venom into the hind legs of the mice. The Ah venom + JDS group model was established using JDS after the affected area was treated with Ah venom. Hematoxylin and eosin (HE) staining was used to evaluate the severity of gastrocnemius injury. Quantitative polymerase chain reaction (qPCR) was utilized to detect the mRNA expression of vascular cell adhesion molecule-1 (VCAM-1), muscle-specific creatine kinase (CKM), thrombin antithrombin complex (TAT), and tumor necrosis factor-alpha (TNF-α). Gas chromatography-mass spectrometry (GC-MS) was performed with multivariate statistical analysis to provide new insights into the global metabolic profile of Ah venom-poisoned mice. Results: HE staining revealed increased red cell necrosis, local hemorrhage, and neutrophil infiltration in the Ah venom group than in the control group. Several compounds were identified, including lipids, amino acids, peptides, and organooxygen. Eighty differential metabolites were screened between the control group and the Ah venom group, and 24 were screened between the Ah venom and JDS groups. The mechanism of Ah venom poisoning in mice may involve aminoacyl-tRNA biosynthesis, various amino acid metabolism disorders, tricarboxylic acid circulation disorders, and abnormal fatty acid metabolism. JDS may reduce symptoms by affecting longchain fatty acid and amino acid metabolism and promoting nicotinamidenicotinamide metabolism. Conclusion: Our results suggest that metabolomics has huge prospects for elucidating the pathophysiology of Agkistrodon haly venom poisoning and therapeutic mechanisms of JDS. [ABSTRACT FROM AUTHOR]

Published

2024

19. Echis ocellatus venom-induced sperm functional deficits, pro-apoptotic and inflammatory activities in male reproductive organs in rats: antagonistic role of kaempferol.

Author

Ajisebiola, Babafemi Siji, Toromade, Adesola Abigeal, Oladele, Johnson Olaleye, Mustapha, Abdur-Rahman Kolawole, Fagbenro, Olukunle Silas, and Adeyi, Akindele Oluwatosin

Subjects

SNAKE venom, GENITALIA, GLUTATHIONE peroxidase, SUPEROXIDE dismutase, LUTEINIZING hormone

Abstract

Background: Echis ocellatus envenoming is potentially toxic initiating clinical damages on male reproductive system. Kaempferol is a therapeutic agent with neutralizing potentials on snake venom toxins. This study investigated the antagonistic effect of kaempferol on E. ocellatus venom (EoV)-induced reproductive toxicities. Methods: Fifty adult male rats were sorted at random into five groups of ten rats for this study. The control rats were allotted to group 1, while rats in groups 2–5 were injected with 0.22 mg/kg bw (LD50) of EoV intraperitoneally. Rats in group 2 were not treated while groups 3–5 rats were treated with serum antivenom (0.2 ml), and 4 and 8 mg/kg bw of kaempferol post envenoming, respectively. Results: EoV actuated reproductive toxicity, significantly decreased sperm parameters, and enhanced inflammatory, oxidative stress, and apoptotic biomarkers in reproductive organs of untreated envenomed rats. However, treatment with kaempferol alleviated the venom-induced reproductive disorders with a dose dependent effect. Kaempferol significantly increased the testicular weight, organo-somatic index, sperm parameters, and normalized the levels of serum luteinizing hormone, testosterone, and follicle stimulating hormone. Kaempferol ameliorated testicular and epididymal oxidative stress as evidenced by significant decrease in malondialdehyde (MDA) levels, enhancement of reduced glutathione (GSH) levels, superoxide dismutase (SOD) and glutathione peroxidase (GPX) activities. The inflammatory biomarkers; nitric oxide (NO) levels and myeloperoxidase activity (MPO), and apoptotic biomarkers; caspase 3 and caspase 9 activities were substantially suppressed in the testis and epididymis of envenomed rats treated with kaempferol. Conclusion: Results revealed kaempferol as a potential remedial agent against reproductive toxicity that could manifest post-viper envenoming. [ABSTRACT FROM AUTHOR]

Published

2024

20. Crotoxin induces cytotoxic effects in human malignant melanoma cells in both native and detoxified forms.

Author

Almeida, Tamires Cunha, Giannotti, Karina Cristina, Ribeiro Silva, Lorena Morais, Marques-Porto, Rafael, DeOcesano-Pereira, Carlos, Camargo, Lauren, Chudzinski-Tavassi, Ana Marisa, Reid, Paul, and Picolo, Gisele

Subjects

APOPTOTIC bodies, DRUG efficacy, CELL migration, CANCER cells, SKIN cancer, SNAKE venom, VENOM

Abstract

Introduction: Melanoma, a highly aggressive skin cancer originating in melanocytes, poses a significant threat due to its metastatic potential. While progress has been made in treating melanoma with targeted therapies and immunotherapies, challenges persist. Crotoxin (CTX), the principal toxin in Crotalus durissus terrificus snake venom, exhibits various biological activities, including anti-tumoral effects across multiple cancers. However, its clinical use is limited by toxicity. Thus, exploring alternatives to mitigate adverse effects is crucial. Methods and Results: This study investigates the antitumoral potential of CTX in its native and in a detoxified form, in melanoma cells. Firstly, we demonstrated that detoxified CTX presented reduced phospholipase activity. Both forms proved to be more cytotoxic to SK-MEL-28 and MeWo melanoma cells than nontumoral cells. In SK-MEL-28 cells, where cytotoxic effects were more pronounced, native and detoxified CTX induced increased necrosis and apoptosis rates. We also confirmed the apoptosis death demonstrated by the activation of caspase-3 and 7, and the formation of apoptotic bodies. Furthermore, both CTX caused cell cycle arrest at the G2/M phase, interfering with melanoma cell proliferation. Cell migration and invasion were also suppressed by both CTX. These results confirm the antitumoral potential of CTX. Discussion: The maintenance of the antiproliferative effects in the detoxified version, with reduced enzymatic activity often liked to harm effects, supports further studies to identify active parts of the molecule responsible for the interesting effects without causing substantial toxic events, contributing to the future use of CTX-derived drugs with safety and efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

21. Phage display-derived alpaca nanobodies as potential therapeutics for Naja atra snake envenomation.

Author

Wei-Chu Wang, Jungshan Chang, Chi-Hsin Lee, Yu-Wei Chiang, Sy-Jye Leu, Yan-Chiao Mao, Jen-Ron Chiang, Chun-Kai Yang, Chao-Jung Wu, and Yi-Yuan Yang

Subjects

*COBRAS, *MONONUCLEAR leukocytes, *IMMUNOGLOBULINS, *ANTIVENINS, *SNAKE venom, *IMMUNE response, *VENOM

Abstract

Naja atra, the Chinese cobra, is a major cause of snake envenomation in Asia, causing hundreds of thousands of clinical incidents annually. The current treatment, horse serum-derived antivenom, has unpredictable side effects and presents manufacturing challenges. This study focused on developing new-generation snake venom antidotes by using microbial phage display technology to derive nanobodies from an alpaca immunized with attenuated N. atra venom. Following confirmation of the immune response in the alpaca, we amplified VHH genes from isolated peripheral blood mononuclear cells and constructed a phage display VHH library of 1.0 × 107 transformants. After four rounds of biopanning, the enriched phages exhibited increased binding activity to N. atra venom. Four nanobody clones with high binding affinities were selected: aNAH1, aNAH6, aNAH7, and aNAH9. Specificity testing against venom from various snake species, including two Southeast Asian cobra species, revealed nanobodies specific to the genus Naja. An in vivo mouse venom neutralization assay demonstrated that all nanobodies prolonged mouse survival and aNAH6 protected 66.6% of the mice from the lethal dosage. These findings highlight the potential of phage display-derived nanobodies as valuable antidotes for N. atra venom, laying the groundwork for future applications in snakebite treatment. [ABSTRACT FROM AUTHOR]

Published

2024

22. Nanofractionation Analytics for Comparing MALDI-MS and ESI-MS Data of Viperidae Snake Venom Toxins.

Author

Xu, Haifeng, Mastenbroek, Jesse, Krikke, Natascha T. B., El-Asal, Susan, Mutlaq, Rama, Casewell, Nicholas R., Slagboom, Julien, and Kool, Jeroen

Subjects

*ELECTROSPRAY ionization mass spectrometry, *SNAKE venom, *FER-de-lance, *SMALL molecules, *VENOM, *SEPARATION (Technology)

Abstract

Worldwide, it is estimated that there are 1.8 to 2.7 million cases of envenoming caused by snakebites. Snake venom is a complex mixture of protein toxins, lipids, small molecules, and salts, with the proteins typically responsible for causing pathology in snakebite victims. For their chemical characterization and identification, analytical methods are required. Reversed-phase liquid chromatography coupled with electrospray ionization mass spectrometry (RP-LC-ESI-MS) is a widely used technique due to its ease of use, sensitivity, and ability to be directly coupled after LC separation. This method allows for the efficient separation of complex mixtures and sensitive detection of analytes. On the other hand, matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) is also sometimes used, and though it typically requires additional sample preparation steps, it offers desirable suitability for the analysis of larger biomolecules. In this study, seven medically important viperid snake venoms were separated into their respective venom toxins and measured by ESI-MS. In parallel, using nanofractionation analytics, post-column high-resolution fractionation was used to collect the eluting toxins for further processing for MALDI-MS analysis. Our comparative results showed that the deconvoluted snake venom toxin masses were observed with good sensitivity from both ESI-MS and MALDI-MS approaches and presented overlap in the toxin masses recovered (between 25% and 57%, depending on the venom analyzed). The mass range of the toxins detected in high abundance was between 4 and 28 kDa. In total, 39 masses were found in both the ESI-MS and/or MALDI-MS analyses, with most being between 5 and 9 kDa (46%), 13 and 15 kDa (38%), and 24 and 28 kDa (13%) in size. Next to the post-column MS analyses, additional coagulation bioassaying was performed to demonstrate the parallel post-column assessment of venom activity in the workflow. Most nanofractionated venoms exhibited anticoagulant activity, with three venoms additionally exhibiting toxins with clear procoagulant activity (Bothrops asper, Crotalus atrox, and Daboia russelii) observed post-column. The results of this study highlight the complementarity of ESI-MS and MALDI-MS approaches for characterizing snake venom toxins and provide a complementary overview of defined toxin masses found in a diversity of viper snake venoms. [ABSTRACT FROM AUTHOR]

Published

2024

23. Importance of the Cysteine-Rich Domain of Snake Venom Prothrombin Activators: Insights Gained from Synthetic Neutralizing Antibodies.

Author

Misson Mindrebo, Laetitia E., Mindrebo, Jeffrey T., Tran, Quoc, Wilkinson, Mark C., Smith, Jessica M., Verma, Megan, Casewell, Nicholas R., Lander, Gabriel C., and Jardine, Joseph G.

Subjects

*POISONS, *SNAKE venom, *SYNTHETIC antibodies, *ANTIVENINS, *PROTHROMBIN, *MONOCLONAL antibodies, *VENOM

Abstract

Snake venoms are cocktails of biologically active molecules that have evolved to immobilize prey, but can also induce a severe pathology in humans that are bitten. While animal-derived polyclonal antivenoms are the primary treatment for snakebites, they often have limitations in efficacy and can cause severe adverse side effects. Building on recent efforts to develop improved antivenoms, notably through monoclonal antibodies, requires a comprehensive understanding of venom toxins. Among these toxins, snake venom metalloproteinases (SVMPs) play a pivotal role, particularly in viper envenomation, causing tissue damage, hemorrhage and coagulation disruption. One of the current challenges in the development of neutralizing monoclonal antibodies against SVMPs is the large size of the protein and the lack of existing knowledge of neutralizing epitopes. Here, we screened a synthetic human antibody library to isolate monoclonal antibodies against an SVMP from saw-scaled viper (genus Echis) venom. Upon characterization, several antibodies were identified that effectively blocked SVMP-mediated prothrombin activation. Cryo-electron microscopy revealed the structural basis of antibody-mediated neutralization, pinpointing the non-catalytic cysteine-rich domain of SVMPs as a crucial target. These findings emphasize the importance of understanding the molecular mechanisms of SVMPs to counter their toxic effects, thus advancing the development of more effective antivenoms. [ABSTRACT FROM AUTHOR]

Published

2024

24. Poisoning-Induced Acute Kidney Injury: A Review.

Author

Yu, Ching-Hsiang, Huang, Lan-Chi, and Su, Yu-Jang

Subjects

ACUTE kidney failure, ETHYLENE glycol, SNAKE venom, ANTI-infective agents, CONTRAST media

Abstract

Acute kidney injury (AKI) is a debilitating, multi-etiological disease that is commonly seen in clinical practice and in the emergency department. In this review, we introduce the definition, symptoms, and causes of poisoning-related AKI; we also discuss its mechanisms, risk factors, and epidemiology, as well as elaborate on the relevant laboratory tests. Subsequently, we discuss the treatment strategies for toxin- and substance-related AKI caused by Glafenin, antimicrobial agents, lithium, contrast media, snake venom, herbicides, ethylene glycol, synthetic cannabinoids, cocaine, heroin, and amphetamines. Finally, for a comprehensive overview of poisoning-related AKI, we review the management, prevention, and outcomes of this condition. [ABSTRACT FROM AUTHOR]

Published

2024

25. From birth to bite: the evolutionary ecology of India's medically most important snake venoms.

Author

Senji Laxme, R. R., Khochare, Suyog, Bhatia, Siddharth, Martin, Gerard, and Sunagar, Kartik

Subjects

*VENOM, *SNAKE venom, *COBRAS, *LIFE history theory, *ANIMAL clutches, *SYNTHETIC receptors, *PREDATION

Abstract

Background: Snake venoms can exhibit remarkable inter- and intraspecific variation. While diverse ecological and environmental factors are theorised to explain this variation, only a handful of studies have attempted to unravel their precise roles. This knowledge gap not only impedes our understanding of venom evolution but may also have dire consequences on snakebite treatment. To address this shortcoming, we investigated the evolutionary ecology of venoms of Russell's viper (Daboia russelii) and spectacled cobra (Naja naja), India's two clinically most important snakes responsible for an alarming number of human deaths and disabilities. Methodology: Several individuals (n = 226) of D. russelii and N. naja belonging to multiple clutches (n = 9) and their mothers were maintained in captivity to source ontogenetic stage-specific venoms. Using various in vitro and in vivo assays, we assessed the significance of prey, ontogeny and sex in driving venom composition, function, and potency. Results: Considerable ontogenetic shifts in venom profiles were observed in D. russelii, with the venoms of newborns being many times as potent as juveniles and adults against mammalian (2.3–2.5 ×) and reptilian (2–10 ×) prey. This is the first documentation of the ontogenetic shift in viperine snakes. In stark contrast, N. naja, which shares a biogeographic distribution similar to D. russelii, deployed identical biochemical cocktails across development. Furthermore, the binding kinetics of cobra venom toxins against synthetic target receptors from various prey and predators shed light on the evolutionary arms race. Conclusions: Our findings, therefore, provide fascinating insights into the roles of ecology and life history traits in shaping snake venoms. [ABSTRACT FROM AUTHOR]

Published

2024

26. First record of two species of venomous snakes Bungarus suzhenae and Ovophis zayuensis (Serpentes: Elapidae, Viperidae) from India.

Author

Gerard, Jason Dominic, Boruah, Bitupan, Deepak, V., and Das, Abhijit

Subjects

CYTOCHROME b, VIPERIDAE, FIELD research, SNAKES, VENOM, SNAKE venom, POISONOUS snakes

Abstract

We report Bungarus suzhenae Chen, Shi, Vogel, Ding & Shi, 2021 and Ovophis zayuensis (Jiang, 1977) for the first time from India. Specimens of B. suzhenae and O. zayuensis were collected during our field surveys in north (Arunachal Pradesh) and south (Nagaland-Manipur border) of the river Brahmaputra. Species identity was supported by partial cytochrome b (cyt b), and 16s mitochondrial gene. We provide a detailed morphological description and a key to the two genera of this region. This report extends the westernmost distribution of B. suzhenae by ca. 300 km from Myanmar, and the southernmost range of O. zayuensis by 170 km from Tibet. Until now eight species of Bungarus and only one Ovophis species have been reported from India. Ovophis species are recently reported to be medically important venomous snakes whose venom properties have not been investigated in depth. [ABSTRACT FROM AUTHOR]

Published

2024

27. Compartment Syndrome Following Snake Envenomation in the United States: A Scoping Review of the Clinical Literature.

Author

Newman, John, Therriault, Colin, White, Mia S., Nogee, Daniel, and Carpenter, Joseph E.

Subjects

*MEDICAL information storage & retrieval systems, *FASCIOTOMY, *SNAKEBITES, *ANTIVENINS, *EDEMA, *POISONOUS snakes, *SNAKE venom, *DESCRIPTIVE statistics, *FUNCTIONAL status, *TREATMENT effectiveness, *SYSTEMATIC reviews, *THEMATIC analysis, *MEDLINE, *LITERATURE reviews, *MEDICAL databases, *ONLINE information services, *COMPARTMENT syndrome, *DISEASE complications, *SYMPTOMS

Abstract

Introduction: Local tissue destruction following envenomation from North American snakes, particularly those within the Crotalinae subfamily, has the potential to progress to compartment syndrome. The pathophysiology of venom-induced compartment syndrome (VICS) is a debated topic and is distinct from trauma/reperfusion-induced compartment syndrome. Heterogeneity exists in the treatment practices of VICS, particularly regarding the decision to progress to fasciotomy. Associations with functional outcomes and evolution in clinical practice since the introduction of Crotalidae polyvalent immune Fab (FabAV) have not been well defined. Our goal was to identify the potential gaps in the literature regarding this phenomenon, as well as illuminate salient themes in the clinical characteristics and treatment practices of VICS. Methods: We conducted this systematic scoping-style review using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Records were included if they contained data surrounding the envenomation and hospital course of one or more patients who were envenomated by a snake species native to North America and were diagnosed with compartment syndrome from 1980-2020. Results: We included 19 papers: 10 single- or two-patient case reports encompassing 12 patients, and nine chart reviews providing summary statistics of the included patients. In case reports, the median compartment pressure when reported was 60 millimeters of mercury (interquartile range 55-68), 66% underwent fasciotomy, and functional outcomes varied. Use of antivenom appeared to be more liberal with FabAV than the earlier antivenin Crotalidae polyvalent. Rapid progression of swelling was the most commonly reported symptom. Among the included retrospective chart reviews, important data such as compartment pressures, consistent laboratory values, and snake species was inconsistently reported. Conclusions: Venom-induced compartment syndrome is relatively rare. Existing papers generally describe good outcomes even in the absence of surgical management. Significant gaps in the literature regarding antivenom dosing practices, serial compartment pressure measurements, and functional outcomes highlight the need for prospective studies and consistent standardized reporting. [ABSTRACT FROM AUTHOR]

Published

2024

28. Small Structural Differences in Proline-Rich Decapeptides Have Specific Effects on Oxidative Stress-Induced Neurotoxicity and L-Arginine Generation by Arginosuccinate Synthase.

Author

Alberto-Silva, Carlos, da Silva, Brenda Rufino, da Silva, Julio Cezar Araujo, Cunha e Silva, Felipe Assumpção da, Kodama, Roberto Tadashi, da Silva, Wilmar Dias, Costa, Maricilia Silva, and Portaro, Fernanda Calheta Vieira

Subjects

*MOLECULAR structure, *PEPTIDES, *PROLINE, *ARGININE, *CELL metabolism, *SNAKE venom, *VENOM

Abstract

Introduction. The proline-rich decapeptide 10c (Bj-PRO-10c; ENWPHPQIPP) from the Bothrops jararaca snake modulates argininosuccinate synthetase (AsS) activity to stimulate L-arginine metabolite production and neuroprotection in the SH-SY5Y cell line. The relationships between structure, interactions with AsS, and neuroprotection are little known. We evaluated the neuroprotective effects of Bj-PRO-10c and three other PROs (Bn-PRO-10a, Bn-PRO-10c > Bn-PRO-10a-MK > Bn-PRO-10a. The structure of PROs and their correlations with enzyme activity revealed that histidine (H5) and glutamine (Q7) in Bj-PRO-10c potentiated their affinity for AsS. Conclusions. Our investigation provides the first insights into the structure and molecular interactions of PROs with AsS, which could possibly further their neuropharmacological applications. [ABSTRACT FROM AUTHOR]

Published

2024

29. Synthesis, Characterization, and Study of the Antimicrobial Potential of Dimeric Peptides Derived from the C-Terminal Region of Lys 49 Phospholipase A 2 Homologs.

Author

Bicho, Gabriel F. H., Nunes, Letícia O. C., Fiametti, Louise Oliveira, Argentin, Marcela N., Candido, Vitória T., Camargo, Ilana L. B. C., Cilli, Eduardo M., and Santos-Filho, Norival A.

Subjects

*ANTIMICROBIAL peptides, *DRUG resistance in bacteria, *SNAKE venom, *PEPTIDES, *PEPTIDE synthesis

Abstract

Currently, the search for new alternatives to conventional antibiotics to combat bacterial resistance is an urgent task, as many microorganisms threaten human health due to increasing bacterial resistance to traditional medicines. Thus, new molecules such as antimicrobial peptides have emerged as promising alternatives because of their low induction of resistance and broad spectrum of action. In this context, in the past few years, our research group has synthesized and characterized a peptide derived from the C-terminal region of the Lys49 PLA2-like BthTX-I, named p-BthTX-I. After several studies, the peptide (p-BthTX-I)2K was proposed as the molecule with the most considerable biotechnological potential. As such, the present work aimed to evaluate whether the modifications made on the peptide (p-BthTX-I)2K can be applied to other molecules originating from the C-terminal region of PLA2-like Lys49 from snake venoms. The peptides were obtained through the solid-phase peptide synthesis technique, and biochemical and functional characterization was carried out using dichroism techniques, mass spectrometry, antimicrobial activity against ESKAPE strains, hemolytic activity, and permeabilization of lipid vesicles. The antimicrobial activity of the peptides was promising, especially for the peptides (p-AppK)2K and (p-ACL)2K, which demonstrated activity against all strains that were tested, surpassing the model molecule (p-BthTX-I)2K in most cases and maintaining low hemolytic activity. The modifications initially proposed for the (p-BthTX-I)2K peptide were shown to apply to other peptides derived from Lys49 PLA2-like from snake venoms, showing promising results for antimicrobial activity. Future assays comparing the activity of the dimers obtained through this strategy with the monomers of these peptides should be carried out. [ABSTRACT FROM AUTHOR]

Published

2024

30. Qualitative Profiling of Venom Toxins in the Venoms of Several Bothrops Species Using High-Throughput Venomics and Coagulation Bioassaying.

Author

Weekers, Dimoetsha J. C., Alonso, Luis L., Verstegen, Anniek X., Slagboom, Julien, and Kool, Jeroen

Subjects

*SERINE proteinases, *VENOM, *BOTHROPS, *BIOLOGICAL assay, *TOXINS, *SNAKE venom

Abstract

Envenoming resulting from snakebites is recognized as a priority neglected tropical disease by The World Health Organization. The Bothrops genus, consisting of different pitviper species, is considered the most medically significant taxa in Central and South America. Further research into Bothrops venom composition is important to aid in the development of safer and more effective snakebite treatments. In addition, the discovery of Bothrops toxins that could potentially be used for medical or diagnostic purposes is of interest to the pharmaceutical industry. This study aimed to employ high-throughput (HT) venomics to qualitatively analyze venom composition while utilizing coagulation bioassays for identifying coagulopathic toxins and characterizing coagulopathic activity in various Bothrops venoms. Using the recently demonstrated HT venomics workflow in combination with post-column coagulopathic bioassaying, focus was placed at anticoagulant toxins. Well-known procoagulant toxins were also investigated, taking into account that using the HT venomics workflow, procoagulant toxins are especially prone to denaturation during the reversed-phase chromatographic separations performed in the workflow. The findings revealed that the venoms of B. atrox and B. jararaca harbored procoagulant toxins, whereas those of B. alternatus and B. neuwiedi contained both procoagulant and anticoagulant toxins. In general, anticoagulation was associated with phospholipases A2s, while procoagulation was associated with snake venom metalloproteinases and snake venom serine proteases. These results showed the identification of coagulopathic venom toxins in the Bothrops venoms analyzed using multiple analytical methods that complement each other. Additionally, each venom underwent qualitative characterization of its composition. [ABSTRACT FROM AUTHOR]

Published

2024

31. Blood Lines: Intraspecific and Interspecific Variations in Anticoagulant Actions of Agkistrodon Viperid Venoms.

Author

Coimbra, Francisco C. P., Sanchez, Elda E., Lomonte, Bruno, Gutiérrez, José María, Calvete, Juan J., and Fry, Bryan G.

Subjects

*CIRCULATING anticoagulants, *PROTEIN C, *PROTEOLYSIS, *VENOM, *THROMBIN, *SNAKE venom, *FIBRIN, *ZYMOGENS

Abstract

This study investigated the intraspecific and interspecific variability in the venom effects of Agkistrodon viperid snake species and subspecies (eleven venoms total) on plasma clotting times, fibrinogen levels, and fibrin clot strength. Significant delays in plasma clotting time were observed for A. conanti, A. contortrix mokasen, A. contortrix phaeogaster, A. howardgloydi, A. piscivorus leucostoma, and A. piscivorus piscivorus. Notably, the phylogenetically disjunct lineages A. conanti, A. contortrix mokasen, and A. howardgloydi exhibited the most potent anticoagulant effects, indicating the independent amplification of a basal trait. Inhibition assays with the activated clotting enzymes Factors XIa, IXa, Xa, and IIa (thrombin) revealed that FXa inhibition is another basal trait amplified independently on multiple occasions within the genus, but with A. howardgloydi, notably more potent than all others. Phospholipid degradation and zymogen destruction were identified as mechanisms underlying the variability in venom effects observed experimentally and in previous clinical reports. Thromboelastography demonstrated that the venoms did not clot fibrinogen directly but affected fibrin clot strength by damaging fibrinogen and that thrombin was subsequently only able to cleave into weak, unstable clots. The ability to activate Protein C, an endogenous anticoagulant enzyme, varied across species, with some venoms exceeding that of A. contortrix contortrix, which previously yielded the protein diagnostic agent Protac®. Phylogenetic analysis suggested that both fibrinogen degradation and Protein C activation were each amplified multiple times within the genus, albeit with negative correlation between these two modes of action. This study highlights the evolutionary, clinical, and biodiscovery implications of venom variability in the Agkistrodon species, underscoring their dynamic evolution, emphasising the need for tailored clinical approaches, and highlighting the potential for novel diagnostic and therapeutic developments inspired by the unique properties of snake venoms. [ABSTRACT FROM AUTHOR]

Published

2024

32. Cobra Venom Cytotoxins as a Tool for Probing Mechanisms of Mitochondrial Energetics and Understanding Mitochondrial Membrane Structure.

Author

Gasanoff, Edward S. and Dagda, Ruben K.

Subjects

*ADENOSINE triphosphatase, *SNAKE venom, *CYTOTOXINS, *BIOENERGETICS, *OXIDATIVE phosphorylation, *MITOCHONDRIAL membranes, *VENOM

Abstract

In this paper, we provide an overview of mitochondrial bioenergetics and specific conditions that lead to the formation of non-bilayer structures in mitochondria. Secondly, we provide a brief overview on the structure/function of cytotoxins and how snake venom cytotoxins have contributed to increasing our understanding of ATP synthesis via oxidative phosphorylation in mitochondria, to reconcile some controversial aspects of the chemiosmotic theory. Specifically, we provide an emphasis on the biochemical contribution of delocalized and localized proton movement, involving direct transport of protons though the Fo unit of ATP synthase or via the hydrophobic environment at the center of the inner mitochondrial membrane (proton circuit) on oxidative phosphorylation, and how this influences the rate of ATP synthesis. Importantly, we provide new insights on the molecular mechanisms through which cobra venom cytotoxins affect mitochondrial ATP synthesis, mitochondrial structure, and dynamics. Finally, we provide a perspective for the use of cytotoxins as novel pharmacological tools to study membrane bioenergetics and mitochondrial biology, how they can be used in translational research, and their potential therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2024

33. Effects of Freeze–Thaw Pretreatment Combined with Hot Air on Snake Gourd (Trichosanthes anguina L.).

Author

Gu, Dandan, Li, Xiao, Dong, Mingyue, Ji, Wenxuan, Yan, Zihao, Zhao, Ting, Zhang, Min, Liu, Peng, Yue, Panpan, Mao, Guanghua, and Yang, Liuqing

Subjects

GOURDS, SNAKES, FRUIT drying, POLYSACCHARIDES, OXIDANT status, ALPHA-glucosidases, SNAKE venom, MOMORDICA charantia

Abstract

Snake gourd is a seasonal vegetable with a high water content and medicinal value, but the short harvest period limits the large-scale application of snake gourd. Therefore, the effects of freeze–thaw pretreatment (FT) combined with hot air (HD) on the drying characteristics, active ingredients and bioactivities of snake gourd were investigated. The results showed that FT pretreatment reduced browning and shortened the drying time by 44%; the Page model was the best fit for describing the drying process. The polysaccharide contents (21.70% in alcoholic extract (TG1) and 44.34% in water extract (TG2)) and total phenol contents (1.81% in TG1 and 0.88% in TG2) of snake gourd pretreated by FT-HD were higher than those of snake gourd pretreated by the corresponding HD treatment. The FT pretreatment decreased the molecular weight of snake gourd polysaccharides and increased the molar ratio of glucose. The extracts pretreated by FT-HD showed greater chemical, cellular antioxidant capacity and α-amylase and α-glucosidase inhibition than those pretreated by HD. FT-HD can be recommended for achieving a short drying time and high quality of snake gourd and can be used for the drying of other fruits and vegetables. [ABSTRACT FROM AUTHOR]

Published

2024

34. Design, development and preclinical assessment of MENAVip-ICP, a new snake antivenom with potential coverage of species in the Middle East and North Africa regions

Author

Álvaro Segura, Edwin Moscoso, Deibid Umaña, Mariángela Vargas, Andrés Sánchez, Andrés Hernández, Gina Durán, Mauren Villalta, Aarón Gómez, María Herrera, Mauricio Arguedas, José María Gutiérrez, and Guillermo León

Subjects

MENAVip-ICP, Snake venom, Snake antivenom, Preclinical efficacy, Snakebite envenoming, North Africa and the Middle East, Toxicology. Poisons, RA1190-1270

Abstract

Snakebite in the Middle East and North Africa (MENA) is a public health problem whose magnitude is not fully known. Several antivenoms are available in these regions, but these formulations are designed for restricted geographical settings. Many countries do not have local production of antivenoms and must access products whose clinical performance has not been demonstrated. We hypothesize that it is possible to unify the treatment for viperid snakebites of MENA in a single antivenom formulation. Hereby we describe the design, development and preclinical evaluation of an antivenom of broad geographical coverage for this region (MENAVip-ICP). We produced this antivenom from the plasma of horses immunized with eight medically important venoms of viperid snake species from MENA. For this, we used a strategy based on two stages: first, immunization of horses with North African (NA) venoms, followed by a second immunization stage, on the same horses, with MENA venoms. We purified antivenoms from both stages: the Anti-NA and the final product Anti-MENA (MENAVip-ICP). Anti-NA was considered as intermediate formulation and was purified with the intention to study the progression of the immunoglobulin immune response of the horses. Antivenoms from both stages neutralized lethal, hemorrhagic, and procoagulant activities of homologous venoms. Compared to Anti-NA, MENAVip-ICP improved the neutralization profile of intravenous lethality and in vitro procoagulant activities of venoms. A notable finding was the difference in the neutralization of lethality when MENAVip-ICP was assessed intraperitoneally versus intravenously in the murine model. Intraperitoneally, MENAVip-ICP appears more effective in neutralizing the lethality of all venoms. Furthermore, MENAVip-ICP neutralized the lethal activity of venoms of species from other regions of MENA, Central/East Asia, and Sub-Saharan Africa that were not included in the immunization protocol. Our results showed that MENAVip-ICP neutralizes the main toxic activities induced by viperid MENA venoms at the preclinical level. Consequently, it is a promising product that could be clinically assessed for the treatment of snakebite envenomings in this region.

Published

2024

35. Elusive elapids: biogeographic venom variation in Indian kraits and its repercussion on snakebite therapy

Author

U. Rashmi, Siddharth Bhatia, Muralidhar Nayak, Suyog Khochare, and Kartik Sunagar

Subjects

Bungarus caeruleus, snake venom, Elapidae, Indian antivenoms, snakebite, Therapeutics. Pharmacology, RM1-950

Abstract

Snakebite is a major public health concern in many parts of the world, including India, where over 58,000 deaths occur annually due to snake envenoming. The common krait (Bungarus caeruleus) is responsible for the second-highest number of snakebite-related mortalities in the country. However, despite its notoriety, little is known about its venom ecology, functions and compositional variation across bioclimatic zones, partly because these nocturnal snakes are highly elusive, making it difficult to find them in the wild. We aim to address this knowledge gap by characterising the venom composition and toxicity profiles of the pan-Indian populations (n = 8) of B. caeruleus using a combination of proteomics, receptor-toxin interaction assays, biochemical experiments, pharmacological tests and preclinical evaluations. We reveal considerable variation in venom composition, functions, and pharmacological activities among the geographically distinct populations of B. caeruleus. Furthermore, toxin-receptor interaction assays provide insights into their feeding ecology and prey-predator interactions. Finally, in vitro and in vivo experiments revealed the poor neutralising potencies of Indian antivenoms towards most populations of the common krait. Our findings highlight the alarming need to develop efficacious snakebite therapy in India to treat bites from this medically most important elapid snake.

Published

2024

36. Investigating venom toxins as a therapeutic option for precursor B-cell acute lymphoblastic leukaemia (pre-B ALL)

Author

Boncan, James, McCloskey, Karen, and Mills, Ken

Subjects

Cancer, precursor B-cell acute lymphoblastic leukaemia, pre-B ALL, cell death, necrosis, cell signalling, RIPK1, Akt, snake venom, phospholipase A2, PLA2, reverse-phase high-performance liquid chromatography, RP-HPLC, RNA-sequencing, proteomics, patient samples, synergism

Abstract

Precursor B-cell acute lymphoblastic leukaemia (pre-B ALL) is a haematological malignancy characterised by immature proliferation of B-cell lineage blasts. Current standard of care treatment for pre-B ALL involves multi-drug regimens of chemotherapy agents which despite high curative rates are often poorly tolerated by patients, inducing off-target side effects. To address this unmet clinical need, this project has identified for the first time a novel anticancer agent comprised of three phospholipase A2 (PLA2) enzymes. The compound, denominated PA-PLA2, was purified from Pseudechis australis snake venom using Reverse-Phase High Performance Liquid Chromatography, and validated by matrix assisted laser desorption ionisation-time of flight mass spectrometry and sequencing. Using a combination of cell-based functional assays and flow cytometry, PA-PLA2 was identified to induce caspase-independent necrotic cell death in two pre-B ALL cell lines representative of paediatric (Reh) and adult (SD-1) disease. Employing RNA-sequencing, protein- and phospho-proteomics analysis with time course Western blotting, elucidated PA-PLA2's mechanism of action to be RIPK1 and Akt dependent, inducing necroptosis in Reh cells and stunted cell cycle progression via Akt/p27Kip1 signalling in SD-1 cells. Importantly, PA-PLA2 treatment had minimal effects on the cell viability of a range of normal, peripheral blood and bone marrow-derived stem cells obtained from patient samples, with assays in donor citrated whole blood samples demonstrating PA-PLA2 to be non-haemolytic. Finally, by using a custom panel of 48 compounds, PA-PLA2 was identified to act synergistically in combination with the pre-B ALL induction phase chemotherapy agents, Cytarabine and Idarubicin. Collectively, the findings from this project support the future use of snake venom toxins in pre-B ALL treatment. The identification, validation and characterisation of PA-PLA2 represents a platform for future investigations using animal venoms as natural sources for therapeutic agents, with further clinical investigation in more clinically relevant models needed to translate this thesis' findings.

Published

2023

37. Oxidative-Stress and Hematological Alterations Induced by the Egyptian Naja nubiae Venom in Rats

Author

Asmaa Saad Mahmoud Shokhba, Mohammed Alaa El-Deen A. Omran, Mohamed A. Abdel-Rahman, and Nahla Soliman El-Shenawy

Subjects

naja nubiae, snake venom, oxidative stress, antioxidants, hematology, Medical technology, R855-855.5

Abstract

Background: Snake venoms have been the subject of intense studies to understand the mechanisms involved in toxicity. Limited information is available regarding the Egyptian Spitting Cobra’s oxidative stress and hematological profile (Naja nubiae). Objectives: The present study aimed to evaluate the oxidative stress produced by the venom of N. nubiae and determine its hematotoxic effects in rats. Methods: The adult male Albino rats (N=30) were subcutaneously (SC) injected with a physiological saline solution in the control group. The SC injection of snake venom in groups 2 and 3 was 1/4 and 1/2 of the LD50 (0.32 mg/kg and 0.65 mg/kg body weight, respectively). Blood samples were collected at 30, 120, and 360 minutes post-injection for biochemical and hematological assays in both control and treated groups. Levels of oxidative stress biomarkers, including lipid peroxidation (LPO), protein carbonyl content (PCC), and nitric oxide (NO) were estimated. Antioxidants agents comprising glutathione (GSH) level, activities of superoxide dismutase (SOD), and catalase (CAT) were also evaluated. Results: The results showed that the effects of snake venom on blood cells are dose-dependent. Furthermore, significant alterations (P≤0.05) were observed in the hemoglobin (Hb) concentration, packed cell volume (PCV), and the number of red blood cells (RBCs) in response to a low dose of venom at the 30-minute time. In contrast to the control group, the venom induced a substantial elevation in LPO, NO, and PCC levels, indicating a disturbance in redox equilibrium. Additionally, significant reductions were detected in the GSH levels as well as SOD and CAT activities in all treated groups. Conclusion: Overall, the cytotoxicity’s potential to induce oxidative stress may reduce its antioxidant systems, leading to redox disturbance and hematological alteration.

Published

2024

38. Phosphate-Buffered Saline and Dimethyl Sulfoxide Enhance the Antivenom Action of Ruthenium Chloride against Crotalus atrox Venom in Human Plasma—A Preliminary Report.

Author

Nielsen, Vance G.

Subjects

*VENOM, *SNAKE venom, *ANTIVENINS, *CROTALUS, *RUTHENIUM, *DIMETHYL sulfoxide, *ORGANIC compounds, *RUTHENIUM compounds, *CHLORIDES

Abstract

Ruthenium chloride (RuCl3) is widely utilized for synthesis and catalysis of numerous compounds in academia and industry and is utilized as a key molecule in a variety of compounds with medical applications. Interestingly, RuCl3 has been demonstrated to modulate human plasmatic coagulation and serves as a constituent of a compounded inorganic antivenom that neutralizes the coagulopathic effects of snake venom in vitro and in vivo. Using thrombelastography, this investigation sought to determine if RuCl3 inhibition of the fibrinogenolytic effects of Crotalus atrox venom could be modulated by vehicle composition in human plasma. Venom was exposed to RuCl3 in 0.9% NaCl, phosphate-buffered saline (PBS), or 0.9% NaCl containing 1% dimethyl sulfoxide (DMSO). RuCl3 inhibited venom-mediated delay in the onset of thrombus formation, decreased clot growth velocity, and decreased clot strength. PBS and DMSO enhanced the effects of RuCl3. It is concluded that while a Ru-based cation is responsible for significant inhibition of venom activity, a combination of Ru-based ions containing phosphate and DMSO enhances RuCl3-mediated venom inhibition. Additional investigation is indicated to determine what specific Ru-containing molecules cause venom inhibition and what other combinations of inorganic/organic compounds may enhance the antivenom effects of RuCl3. [ABSTRACT FROM AUTHOR]

Published

2024

39. Ruthenium Antivenom Inhibits the Defibrinogenating Activity of Crotalus adamanteus Venom in Rabbits.

Author

Nielsen, Vance G.

Subjects

*VENOM, *ANTIVENINS, *CROTALUS, *SNAKE venom, *RUTHENIUM, *RABBITS, *BLOOD coagulation factors, *BLOOD platelets

Abstract

Eastern Diamondback Rattlesnake (Crotalus adamanteus) envenomation is a medical emergency encountered in the Southeastern United States. The venom contains a snake venom thrombin-like enzyme (SVTLE) that is defibrinogenating, causing coagulopathy without effects on platelets in humans. This investigation utilized thrombelastographic methods to document this coagulopathy kinetically on the molecular level in a rabbit model of envenomation via the analyses of whole blood samples without and with platelet inhibition. Subsequently, the administration of a novel ruthenium compound containing site-directed antivenom abrogated the coagulopathic effects of envenomation in whole blood without platelet inhibition and significantly diminished loss of coagulation in platelet-inhibited samples. This investigation provides coagulation kinetic insights into the molecular interactions and results of SVTLE on fibrinogen-dependent coagulation and confirmation of the efficacy of a ruthenium antivenom. These results serve as a rationale to investigate the coagulopathic effects of other venoms with this model and assess the efficacy of this site-directed antivenom. [ABSTRACT FROM AUTHOR]

Published

2024

40. IL4I1: a novel molecular biomarker represents an inflamed tumor microenvironment and precisely predicts the molecular subtype and immunotherapy response of bladder cancer.

Author

Xiangrong Peng, Chuan Liu, Li Zhang, Yin Chen, Lixin Mao, Shenglin Gao, Xiaokai Shi, and Li Zuo

Subjects

TUMOR microenvironment, BLADDER cancer, IMMUNOTHERAPY, BIOMARKERS, T cells, IMMUNE checkpoint proteins, SNAKE venom

Abstract

Introduction: IL4I1, also known as Interleukin-4-induced gene 1, is an enzyme that canmodulate the immune system by acting as a L-amino acid oxidase. Nevertheless, a precise understanding of the correlation of IL4I1 with immunological features and immunotherapy efficacy in bladder cancer (BLCA) remains incomplete. Methods: Weanalyzed RNA sequencing data fromthe Cancer GenomeAtlas (TCGA) to investigate the immune function and prognostic importance of IL4I1 across different cancer types. We further examined the TCGA-BLCA cohort for correlations between IL4I1 and various immunological characteristics of tumor microenvironment (TME), such as cancer immune cycle, immune cell infiltration, immune checkpoint expression and T cell inflamed score. Validation was conducted using two independent cohort, GSE48075 and E-MTAB-4321. Finally, RNAsequencing data from the IMvigor210 cohort and immunohistochemistry assays were employed to validate the predictive value of IL4I1 for the TME and immunotherapy efficacy. Results: In our findings, a positive correlation was observed between IL4I1 expression and immunomodulators expression, immune cell infiltration, the cancer immune cycle, and T cell inflamed score in BLCA, suggesting a significant link to the inflamed TME. In addition, studies have shown that IL4I1 elevated levels of individuals tend to be more performance for basal subtype and exhibit enhanced response rates to diverse treatment modalities, specifically immunotherapy. Clinical data from the IMvigor 210 cohort confirmed a higher rate of response to immunotherapy and better survival benefits in patients with high IL4I1 expression. Discussion: To summarize, our research showed that elevated IL4I1 levels are indicative of an inflamed TME, the basal subtype, and a more favorable response to various treatment methods, especially immune checkpoint blockade therapy in BLCA. [ABSTRACT FROM AUTHOR]

Published

2024

41. Using organ-on-a-chip technology to study haemorrhagic activities of snake venoms on endothelial tubules.

Author

Bittenbinder, Mátyás A., Bonanini, Flavio, Kurek, Dorota, Vulto, Paul, Kool, Jeroen, and Vonk, Freek J.

Subjects

*SNAKE venom, *MICROPHYSIOLOGICAL systems, *PUBLIC health, *ENDOTHELIAL cells, *BLOOD vessels, *VENOM

Abstract

Snakebite envenomation is a major public health issue which causes severe morbidity and mortality, affecting millions of people annually. Of a diverse range of clinical manifestations, local and systemic haemorrhage are of particular relevance, as this may result in ischemia, organ failure and even cardiovascular shock. Thus far, in vitro studies have failed to recapitulate the haemorrhagic effects observed in vivo. Here, we present an organ-on-a-chip approach to investigate the effects of four different snake venoms on a perfused microfluidic blood vessel model. We assess the effect of the venoms of four snake species on epithelial barrier function, cell viability, and contraction/delamination. Our findings reveal two different mechanisms by which the microvasculature is being affected, either by disruption of the endothelial cell membrane or by delamination of the endothelial cell monolayer from its matrix. The use of our blood vessel model may shed light on the key mechanisms by which tissue-damaging venoms exert their effects on the capillary vessels, which could be helpful for the development of effective treatments against snakebites. [ABSTRACT FROM AUTHOR]

Published

2024

42. HEMOCOAGULATION CONDITIONS ASSOCIATED WITH VENOM-INDUCED CONSUMPTION COAGULOPATHY DUE TO SNAKEBITE IN HUMANS.

Author

Rinta Prasetiyanti and Yetti Hernaningsih

Subjects

*SNAKEBITES, *DISSEMINATED intravascular coagulation, *PROTHROMBIN time, *ANTIVENINS, *SNAKE venom, *DESCRIPTIVE statistics, *SYSTEMATIC reviews, *MEDLINE, *PARTIAL thromboplastin time, *ONLINE information services

Abstract

Snakebite remains an underreported health hazard worldwide. The most common effect of snakebite envenomation globally are hematological disorders, with venom-induced consumption coagulopathy (VICC) being the most prevalent and significant condition. This review aims to explore the hematological aspects of snakebite, with a focus on venom-induced consumption coagulopathy. This systematic review was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines by searching multiple databases, namely PubMed, ScienceDirect, and Google Scholar. The inclusion criteria for this review were studies on snakebite envenomation in humans with a discussion of relevant cases. Additionally, the included studies were conducted between 20'0 and 2023 and written in English. Studies on animal models were excluded. The search terms used were "venom-induced consumption coagulopathy AND snake". The critical appraisal was performed using the Joanna Briggs Institute (JBI) Critical Appraisal Checklist for Case Reports and the Mixed Methods Appraisal Tool (MMAT). The findings were presented as a qualitative synthesis of 14 articles covering 316 patients and various types of snakebite. The studies on snakebite came from different countries, but mostly from Sri Lanka. The snake species varied, with certain species found only in certain areas. The subjects fell into different age groups, from children to the elderly. The majority of the subjects were male. The youngest subject was six years old, while the oldest was 70 years old. Prothrombin time (PT) and activated partial thromboplastin time (APTT) were the most discussed variables. Some of the studies demonstrated an increase in PT and APTT, although other studies reported contrasting findings. In conclusion, different types of snakebite have different effects on hemocoagulation status. [ABSTRACT FROM AUTHOR]

Published

2024

43. Red-on-Yellow Queen: Bio-Layer Interferometry Reveals Functional Diversity Within Micrurus Venoms and Toxin Resistance in Prey Species.

Author

Dashevsky, Daniel, Harris, Richard J., Zdenek, Christina N., Benard-Valle, Melisa, Alagón, Alejandro, Portes-Junior, José A., Tanaka-Azevedo, Anita M., Grego, Kathleen F., Sant'Anna, Sávio S., Frank, Nathaniel, and Fry, Bryan G.

Subjects

*VENOM, *SNAKE venom, *NICOTINIC acetylcholine receptors, *TOXINS, *INTERFEROMETRY, *ARMS race, *ION channels

Abstract

Snakes in the family Elapidae largely produce venoms rich in three-finger toxins (3FTx) that bind to the α 1 subunit of nicotinic acetylcholine receptors (nAChRs), impeding ion channel activity. These neurotoxins immobilize the prey by disrupting muscle contraction. Coral snakes of the genus Micrurus are specialist predators who produce many 3FTx, making them an interesting system for examining the coevolution of these toxins and their targets in prey animals. We used a bio-layer interferometry technique to measure the binding interaction between 15 Micrurus venoms and 12 taxon-specific mimotopes designed to resemble the orthosteric binding region of the muscular nAChR subunit. We found that Micrurus venoms vary greatly in their potency on this assay and that this variation follows phylogenetic patterns rather than previously reported patterns of venom composition. The long-tailed Micrurus tend to have greater binding to nAChR orthosteric sites than their short-tailed relatives and we conclude this is the likely ancestral state. The repeated loss of this activity may be due to the evolution of 3FTx that bind to other regions of the nAChR. We also observed variations in the potency of the venoms depending on the taxon of the target mimotope. Rather than a pattern of prey-specificity, we found that mimotopes modeled after snake nAChRs are less susceptible to Micrurus venoms and that this resistance is partly due to a characteristic tryptophan → serine mutation within the orthosteric site in all snake mimotopes. This resistance may be part of a Red Queen arms race between coral snakes and their prey. [ABSTRACT FROM AUTHOR]

Published

2024

44. A Comparative Analysis of the Cytotoxic and Vascular Activity Effects of Western Diamondback Rattlesnake (Crotalus atrox) and Eastern Diamondback Rattlesnake (Crotalus adamanteus) Venoms Using a Chick Embryo Model.

Author

Bekešová, Barbora, Petrilla, Vladimír, Polláková, Magdaléna, Andrejčáková, Zuzana, Vlčková, Radoslava, Dyba, Barbara, Sopková, Drahomíra, Petrillová, Monika, Petrovová, Eva, and Legáth, Jaroslav

Subjects

*VENOM, *CHICKEN embryos, *CROTALUS, *RATTLESNAKES, *CONJOINED twins, *CHORIOALLANTOIS

Abstract

Simple Summary: Crotalus snake envenomation poses a serious challenge due to its diverse toxicological effects, including neurological, myotoxic, and cytotoxic symptoms, often leading to death. The aim of the study was to elucidate the physiological effects of exposure to Crotalus atrox and Crotalus adamanteus venoms and to assess toxicity using chicken embryo models. Currently, there is not a lot of research demonstrating the physiological effects of venom, including its potential impact on embryos, in accordance with the 3R rules. The applied research model consisted of the chick embryotoxicity screening test (CHEST) and the chick chorioallantoic membrane (CAM) test, which allowed for (i) a demonstration of the greater toxicity of C. adamanteus venom and (ii) an observation of the embryotoxic effect and vasoactive nature of the tested venom species. Additionally, (iii) morphological abnormalities (such as Siamese twins) emerged, and (iv) changes in the activity of acetylcholinesterase (AChE) were identified (resulting solely from its presence in the examined tissues due to the lack of this component in exogenously applied venom). These results provide crucial insights into the mechanisms of Crotalus venom toxicity and their potential biomedical applications. Crotalus snakebites induce various toxicological effects, encompassing neurological, myotoxic, and cytotoxic symptoms, with potentially fatal outcomes. Investigating venom toxicity is essential for public health, and developing new tools allows for these effects to be studied more comprehensively. The research goals include the elucidation of the physiological consequences of venom exposure and the assessment of toxicity using animal models. Chicken embryos serve as valuable models for assessing venom toxicity through the chick embryotoxicity screening test (CHEST) and the chick chorioallantoic membrane (CAM) assay, particularly useful for evaluating vascular impacts. C. adamanteus venom application resulted in higher embryotoxicity and morphological abnormalities, such as Siamese twins. The CAM assay demonstrated the hemorrhagic effects of venom, varying with venom type and concentration. The irritant potential of both venom types was classified as slight or moderate depending on their concentration. Additionally, acetylcholinesterase (AChE) activity was performed to receive information about organ toxicity. The results show that both venoms induced changes in the whole embryo, heart, and liver weights, but the C. adamanteus venom was identified as more toxic. Specific venom concentrations affected AChE activity in embryonic tissues. These findings underscore the embryotoxic and vasoactive properties of Crotalus venoms, providing valuable insights into their mechanisms of toxicity and potential applications in biomedicine. [ABSTRACT FROM AUTHOR]

Published

2024

45. The Clot Thickens: Differential Coagulotoxic and Cardiotoxic Activities of Anguimorpha Lizard Venoms.

Author

Dobson, James, Chowdhury, Abhinandan, Tai-A-Pin, Jeremie, van der Ploeg, Harold, Gillett, Amber, and Fry, Bryan G.

Subjects

*VENOM, *SNAKE venom, *LIZARDS, *DRUG design, *CARDIOVASCULAR system, *ZYMOGENS, *KININS

Abstract

Despite their evolutionary novelty, lizard venoms are much less studied in comparison to the intense research on snake venoms. While the venoms of helodermatid lizards have long been assumed to be for defensive purposes, there is increasing evidence of toxic activities more useful for predation than defence (such as paralytic neurotoxicity). This study aimed to ascertain the effects of Heloderma, Lanthanotus, and Varanus lizard venoms on the coagulation and cardiovascular systems. Anticoagulant toxicity was demonstrated for the Varanus species studied, with the venoms prolonging clotting times in human and bird plasma due to the destructive cleavage of fibrinogen. In contrast, thromboelastographic analyses on human and bird plasmas in this study demonstrated a procoagulant bioactivity for Heloderma venoms. A previous study on Heloderma venom using factor-depleted plasmas as a proxy model suggested a procoagulant factor was present that activated either Factor XI or Factor XII, but could not ascertain the precise target. Our activation studies using purified zymogens confirmed FXII activation. Comparisons of neonate and adult H. exasperatum, revealed the neonates to be more potent in the ability to activate FXII, being more similar to the venom of the smaller species H. suspectum than the adult H. exasperatum. This suggests potent FXII activation a basal trait in the genus, present in the small bodied last common ancestor. This also indicates an ontogenetic difference in prey preferences in the larger Heloderma species paralleing the change in venom biochemistry. In addition, as birds lack Factor XII, the ability to clot avian plasma suggested an additional procoagulant site of action, which was revealed to be the activation of Factor VII, with H. horridum being the most potent. This study also examined the effects upon the cardiovascular system, including the liberation of kinins from kininogen, which contributes to hypotension induction. This form of toxicity was previously described for Heloderma venoms, and was revealed in this study was to also be a pathophysiological effect of Lanthanotus and Varanus venoms. This suggests that this toxic activity was present in the venom of the last common ancestor of the anguimorph lizards, which is consistent with kallikrein enzymes being a shared toxin trait. This study therefore uncovered novel actions of anguimorph lizard venoms, not only contributing to the evolutionary biology body of knowledge but also revealing novel activities to mine for drug design lead compounds. [ABSTRACT FROM AUTHOR]

Published

2024

46. Specific Amino Acid Residues in the Three Loops of Snake Cytotoxins Determine Their Membrane Activity and Provide a Rationale for a New Classification of These Toxins.

Author

Dubovskii, Peter V. and Utkin, Yuri N.

Subjects

*AMINO acid residues, *CYTOTOXINS, *SNAKE venom, *TOXINS, *AMINO acid sequence, *COBRAS, *SNAKES

Abstract

Cytotoxins (CTs) are three-finger membrane-active toxins present mainly in cobra venom. Our analysis of the available CT amino acid sequences, literature data on their membrane activity, and conformational equilibria in aqueous solution and detergent micelles allowed us to identify specific amino acid residues which interfere with CT incorporation into membranes. They include Pro9, Ser28, and Asn/Asp45 within the N-terminal, central, and C-terminal loops, respectively. There is a hierarchy in the effect of these residues on membrane activity: Pro9 > Ser28 > Asn/Asp45. Taking into account all the possible combinations of special residues, we propose to divide CTs into eight groups. Group 1 includes toxins containing all of the above residues. Their representatives demonstrated the lowest membrane activity. Group 8 combines CTs that lack these residues. For the toxins from this group, the greatest membrane activity was observed. We predict that when solely membrane activity determines the cytotoxic effects, the activity of CTs from a group with a higher number should exceed that of CTs from a group with a lower number. This classification is supported by the available data on the cytotoxicity and membranotropic properties of CTs. We hypothesize that the special amino acid residues within the loops of the CT molecule may indicate their involvement in the interaction with non-lipid targets. [ABSTRACT FROM AUTHOR]

Published

2024

47. A Guide to the Clinical Management of Vipera Snakebite in Italy.

Author

Di Nicola, Matteo Riccardo, Crevani, Marta, Avella, Ignazio, Cerullo, Anna, Dorne, Jean-Lou C. M., Paolino, Giovanni, and Zattera, Caterina

Subjects

*SNAKEBITES, *SNAKE venom, *POISONOUS snakes, *POISONS, *VENOM, *VIPERIDAE, *ANTIVENINS

Abstract

The genus Vipera encompasses most species of medically significant venomous snakes of Europe, with Italy harbouring four of them. Envenomation by European vipers can result in severe consequences, but underreporting and the absence of standardised clinical protocols hinder effective snakebite management. This study provides an updated, detailed set of guidelines for the management and treatment of Vipera snakebite tailored for Italian clinicians. It includes taxonomic keys for snake identification, insights into viper venom composition, and recommendations for clinical management. Emphasis is placed on quick and reliable identification of medically relevant snake species, along with appropriate first aid measures. Criteria for antivenom administration are outlined, as well as indications on managing potential side effects. While the protocol is specific to Italy, its methodology can potentially be adapted for other European countries, depending on local resources. The promotion of comprehensive data collection and collaboration among Poison Control Centres is advocated to optimise envenomation management protocols and improve the reporting of epidemiological data concerning snakebite at the country level. [ABSTRACT FROM AUTHOR]

Published

2024

48. Cobra (Naja naja) venom L-amino acid oxidase (NNLAAO70) induces apoptosis and secondary necrosis in human lung epithelial cancer cells.

Author

Rayapati, Ananda Murali, Vemulapati, Bhadramurthy, and Chanda, Chandrasekhar

Subjects

*AMINO acid oxidase, *COBRAS, *EPITHELIAL cells, *CANCER cells, *VENOM, *CYTOTOXINS, *SNAKE venom

Abstract

Snake venom L-amino acid oxidases (LAAOs) are flavoenzymes with diverse physiological and pharmacological effects. These enzymes are found to showcase anticoagulant, antiplatelet, cytotoxicity and other biological effects in bite victims. However, the exact mechanism through which they exhibit several biological properties is not yet fully understood. The current study focussed on the purification of cobra venom LAAO and the functional characterization of purified LAAO. A novel L-amino acid oxidase NNLAAO70 with a molecular weight ~70 kDa was purified from the venom of an Indian spectacled cobra (Naja naja). NNLAAO70 showed high substrate specificity for L-His, L-Leu, and L-Arg during its LAAO activity. It inhibited adenosine di-phosphate (ADP) and collagen-induced platelet aggregation process in a dose-dependent manner. About 60% inhibition of collagen-induced and 40% inhibition of ADP-induced platelet aggregation was observed with a 40 μg/ml dose of NNLAAO70. NNLAAO70 exhibited bactericidal activity on Bacillus subtilis, Escherichia coli, Bacillus megaterium, and Pseudomonas fluorescens. NNLAAO70 also showed cytotoxicity on A549 cells in vitro. It showed severe bactericidal activity on P. fluorescens and lysed 55% of cells. NNLAAO70 also exhibited drastic cytotoxicity on A549 cells. At 1 μg/ml dosage, it demonstrated a 60% reduction in A549 viability and induced apoptosis upon 24-h incubation. H2O2 released during oxidative deamination reactions played a major role in NNLAAO70-induced cytotoxicity. NNLAAO70 significantly increased intracellular reactive oxygen species (ROS) levels in A549 cells by six fold when compared to untreated cells. Oxidative stress-mediated cell injury is the primary cause of NNLAAO70-induced apoptosis in A549 cells and prolonged oxidative stress caused DNA fragmentation and activated cellular secondary necrosis. [ABSTRACT FROM AUTHOR]

Published

2024

49. The human alpha7 nicotinic acetylcholine receptor is a host target for the rabies virus glycoprotein.

Author

O'Brien, Brittany C. V., Thao, Shelly, Weber, Lahra, Danielson, Helen L., Boldt, Agatha D., Hueffer, Karsten, and Weltzin, Maegan M.

Subjects

NICOTINIC acetylcholine receptors, CHOLINERGIC receptors, RABIES virus, NICOTINIC receptors, BEHAVIOR modification, SNAKE venom, PEPTIDES

Abstract

The rabies virus enters the nervous system by interacting with several molecular targets on host cells to modify behavior and trigger receptor-mediated endocytosis of the virion by poorly understood mechanisms. The rabies virus glycoprotein (RVG) interacts with the muscle acetylcholine receptor and the neuronal α4β2 subtype of the nicotinic acetylcholine receptor (nAChR) family by the putative neurotoxin-like motif. Given that the neurotoxin-like motif is highly homologous to the α7 nAChR subtype selective snake toxin α-bungarotoxin (αBTX), other nAChR subtypes are likely involved. The purpose of this study is to determine the activity of the RVG neurotoxin-like motif on nAChR subtypes that are expressed in brain regions involved in rabid animal behavior. nAChRs were expressed in Xenopus laevis oocytes, and two-electrode voltage clamp electrophysiology was used to collect concentration-response data to measure the functional effects. The RVG peptide preferentially and completely inhibits α7 nAChR ACh-induced currents by a competitive antagonist mechanism. Tested heteromeric nAChRs are also inhibited, but to a lesser extent than the α7 subtype. Residues of the RVG peptide with high sequence homology to αBTX and other neurotoxins were substituted with alanine. Altered RVG neurotoxin-like peptides showed that residues phenylalanine 192, arginine 196, and arginine 199 are important determinants of RVG peptide apparent potency on α7 nAChRs, while serine 195 is not. The evaluation of the rabies ectodomain reaffirmed the observations made with the RVG peptide, illustrating a significant inhibitory impact on α7 nAChR with potency in the nanomolar range. In a mammalian cell culture model of neurons, we confirm that the RVG peptide binds preferentially to cells expressing the α7 nAChR. Defining the activity of the RVG peptide on nAChRs expands our understanding of basic mechanisms in host-pathogen interactions that result in neurological disorders. [ABSTRACT FROM AUTHOR]

Published

2024

50. Comparison of the intrageneric neutralization scope of monospecific, bispecific/monogeneric and polyspecific/monogeneric antisera raised in horses immunized with sub-Saharan African snake venoms.

Author

Sánchez, Andrés, Durán, Gina, Segura, Álvaro, Herrera, María, Vargas, Mariángela, Villalta, Mauren, Arguedas, Mauricio, Moscoso, Edwin, Umaña, Deibid, Gómez, Aarón, Gutiérrez, José María, and León, Guillermo

Subjects

*SNAKEBITES, *SNAKE venom, *IMMUNE serums, *COBRAS, *ANTIVENINS, *ANTIBODY formation, *REPTILES

Abstract

Background: Snakebite envenomation inflicts a high burden of mortality and morbidity in sub-Saharan Africa. Antivenoms are the mainstay in the therapy of envenomation, and there is an urgent need to develop antivenoms of broad neutralizing efficacy for this region. The venoms used as immunogens to manufacture snake antivenoms are normally selected considering their medical importance and availability. Additionally, their ability to induce antibody responses with high neutralizing capability should be considered, an issue that involves the immunization scheme and the animal species being immunized. Methodology/Principal findings: Using the lethality neutralization assay in mice, we compared the intrageneric neutralization scope of antisera generated by immunization of horses with monospecific, bispecific/monogeneric, and polyspecific/monogeneric immunogens formulated with venoms of Bitis spp., Echis spp., Dendroaspis spp., spitting Naja spp. or non-spitting Naja spp. It was found that the antisera raised by all the immunogens were able to neutralize the homologous venoms and, with a single exception, the heterologous congeneric venoms (considering spitting and non-spitting Naja separately). In general, the polyspecific antisera of Bitis spp, Echis spp, and Dendroaspis spp gave the best neutralization profile against venoms of these genera. For spitting Naja venoms, there were no significant differences in the neutralizing ability between monospecific, bispecific and polyspecific antisera. A similar result was obtained in the case of non-spitting Naja venoms, except that polyspecific antiserum was more effective against the venoms of N. melanoleuca and N. nivea as compared to the monospecific antiserum. Conclusions/Significance: The use of polyspecific immunogens is the best alternative to produce monogeneric antivenoms with wide neutralizing coverage against venoms of sub-Saharan African snakes of the Bitis, Echis, Naja (non-spitting) and Dendroaspis genera. On the other hand, a monospecific immunogen composed of venom of Naja nigricollis is suitable to produce a monogeneric antivenom with wide neutralizing coverage against venoms of spitting Naja spp. These findings can be used in the design of antivenoms of wide neutralizing scope for sub-Saharan Africa. Author summary: Parenteral administration of antivenoms is the core of the current treatment of snakebite envenomations, and there is an urgent need to produce antivenoms of wide neutralizing efficacy for sub-Saharan Africa. The active substance of antivenoms are antibodies (or antibody fragments) purified from plasma of horses or sheep immunized by the repeated injection of snake venoms. Generally, these antibodies can neutralize the venoms used as immunogens and other related venoms. Normally, the venoms used as immunogens are selected considering their medical importance and availability. To complement these criteria with information regarding the immunogenicity of venoms, we compared monospecific, bispecific/monogeneric, and polyspecific/monogeneric antisera towards venoms of Bitis spp., Echis spp., Dendroaspis spp., spitting Naja spp. or non-spitting Naja spp, regarding their intrageneric neutralization scope, evaluated by the lethality neutralization assay in mice. We found that the polyspecific antisera against venoms of Bitis spp, Echis spp, Dendroaspis spp, or non-spitting Naja gave the best neutralization profile. On the other hand, the monospecific, bispecific and polyspecific antisera towards venoms of spitting Naja venoms showed a similar performance. This information suggests that polyspecific immunogens could be the best alternative to produce antivenoms with the widest neutralizing coverage against sub-Saharan African snake venoms. [ABSTRACT FROM AUTHOR]

Published

2024