Your search keyword '"Fourmy, Rudy"' showing total 10 results

1. Taxon-selective venom variation in adult and neonate Daboia russelii (Russell's Viper), and antivenom efficacy

Author

Zdenek, Christina N., Chowdhury, Abhinandan, Haw, Grace Y.H., Violette, Aude, Fourmy, Rudy, Christ, Thomas, Vonk, Freek J., and Fry, Bryan G.

Published

2022

2. Tiny but Mighty: Vipera ammodytes meridionalis (Eastern Long-Nosed Viper) Ontogenetic Venom Variations in Procoagulant Potency and the Impact on Antivenom Efficacies.

Author

Qiao, Zichen, Jones, Lee, Bourke, Lachlan A., Seneci, Lorenzo, Chowdhury, Abhinandan, Violette, Aude, Fourmy, Rudy, Soria, Raul, Aldridge, Matt, and Fry, Bryan G.

Subjects

POISONOUS snakes, ENZYME activation, ANTIVENINS, ZYMOGENS, ENZYME inhibitors, VENOM

Abstract

The Eastern Long-Nosed Viper (Vipera ammodytes meridionalis) is considered one of the most venomous snakes in Europe. However, it is unknown whether ontogenetic variation in venom effects occurs in this subspecies and how this may impact antivenom efficacy. In this study, we compared the procoagulant activities of V. a. meridionalis venom on human plasma between neonate and adult venom phenotypes. We also examined the efficacy of three antivenoms—Viperfav, ViperaTAb, and Inoserp Europe—across our neonate and adult venom samples. While both neonate and adult V. a. meridionalis venoms produced procoagulant effects, the effects produced by neonate venom were more potent. Consistent with this, neonate venom was a stronger activator of blood-clotting zymogens, converting them into their active forms, with a rank order of Factor X >> Factor VII > Factor XII. Conversely, the less potent adult venom had a rank order of FXII marginally more activated than Factor VII, and both much more so than Factor X. This adds to the growing body of evidence that activation of factors besides FII (prothrombin) and FX are significant variables in reptile venom-induced coagulopathy. Although all three examined antivenoms displayed effective neutralization of both neonate and adult V. a. meridionalis venoms, they generally showed higher efficacy on adult venom than on neonate venom. The ranking of antivenom efficacy against neonate venom, from the most effective to the least effective, were Viperfav, Inoserp Europe, ViperaTAb; for adult venom, the ranking was Inoserp Europe, Viperfav, ViperaTAb. Our data reveal ontogenetic variation in V. a meridionalis, but this difference may not be of clinical concern as antivenom was effective at neutralizing both adult and neonate venom phenotypes. Regardless, our results highlight a previously undocumented ontogenetic shift, likely driven by the documented difference in prey preference observed for this species across age classes [ABSTRACT FROM AUTHOR]

Published

2024

3. Viper Venom Botox: The Molecular Origin and Evolution of the Waglerin Peptides Used in Anti-Wrinkle Skin Cream

Author

Debono, Jordan, Xie, Bing, Violette, Aude, Fourmy, Rudy, Jaeger, Marc, and Fry, Bryan G.

Published

2017

4. A Venomics Approach Coupled to High-Throughput Toxin Production Strategies Identifies the First Venom-Derived Melanocortin Receptor Agonists.

Author

Reynaud, Steve, Ciolek, Justyna, Degueldre, Michel, Saez, Natalie J., Sequeira, Ana Filipa, Duhoo, Yoan, Brás, Joana L. A., Meudal, Hervé, Cabo Díez, Miguel, Fernández Pedrosa, Victoria, Verdenaud, Marion, Boeri, Julia, Pereira Ramos, Oscar, Ducancel, Frédéric, Vanden Driessche, Margot, Fourmy, Rudy, Violette, Aude, Upert, Grégory, Mourier, Gilles, and Beck-Sickinger, Annette G.

Published

2020

5. Enter the Dragon: The Dynamic and Multifunctional Evolution of Anguimorpha Lizard Venoms.

Author

Koludarov, Ivan, Jackson, Timothy N. W., den Brouw, Bianca op, Dobson, James, Dashevsky, Daniel, Arbuckle, Kevin, Clemente, Christofer J., Stockdale, Edward J., Cochran, Chip, Debono, Jordan, Stephens, Carson, Panagides, Nadya, Bin Li, Manchadi, Mary-Louise Roy, Violette, Aude, Fourmy, Rudy, Hendrikx, Iwan, Nouwens, Amanda, Clements, Judith, and Martelli, Paolo

Subjects

DRAGONS, SNAKE venom, LIZARDS, VENOM, HELODERMA, LANTHANOTIDAE, VARANUS

Abstract

While snake venoms have been the subject of intense study, comparatively little work has been done on lizard venoms. In this study, we have examined the structural and functional diversification of anguimorph lizard venoms and associated toxins, and related these results to dentition and predatory ecology. Venom composition was shown to be highly variable across the 20 species of Heloderma, Lanthanotus, and Varanus included in our study. While kallikrein enzymes were ubiquitous, they were also a particularly multifunctional toxin type, with differential activities on enzyme substrates and also ability to degrade alpha or beta chains of fibrinogen that reflects structural variability. Examination of other toxin types also revealed similar variability in their presence and activity levels. The high level of venom chemistry variation in varanid lizards compared to that of helodermatid lizards suggests that venom may be subject to different selection pressures in these two families. These results not only contribute to our understanding of venom evolution but also reveal anguimorph lizard venoms to be rich sources of novel bioactive molecules with potential as drug design and development lead compounds. [ABSTRACT FROM AUTHOR]

Published

2017

6. Atractaspis aterrima Toxins: The First Insight into the Molecular Evolution of Venom in Side-Stabbers.

Author

Terrat, Yves, Sunagar, Kartik, Fry, Bryan G., Jackson, Timothy N. W., Scheib, Holger, Fourmy, Rudy, Verdenaud, Marion, Blanchet, Guillaume, Antunes, Agostinho, and Ducancel, Frederic

Subjects

ATRACTASPIS, VENOM, SARAFOTOXINS, TOXINS, SNAKE venom

Abstract

Although snake venoms have been the subject of intense research, primarily because of their tremendous potential as a bioresource for design and development of therapeutic compounds, some specific groups of snakes, such as the genus Atractaspis, have been completely neglected. To date only limited number of toxins, such as sarafotoxins have been well characterized from this lineage. In order to investigate the molecular diversity of venom from Atractaspis aterrima--the slender burrowing asp, we utilized a high-throughput transcriptomic approach completed with an original bioinformatics analysis pipeline. Surprisingly, we found that Sarafotoxins do not constitute the major ingredient of the transcriptomic cocktail; rather a large number of previously well-characterized snake venom-components were identified. Notably, we recovered a large diversity of three-finger toxins (3FTxs), which were found to have evolved under the significant influence of positive selection. From the normalized and non-normalized transcriptome libraries, we were able to evaluate the relative abundance of the different toxin groups, uncover rare transcripts, and gain new insight into the transcriptomic machinery. In addition to previously characterized toxin families, we were able to detect numerous highly-transcribed compounds that possess all the key features of venom-components and may constitute new classes of toxin. [ABSTRACT FROM AUTHOR]

Published

2013

7. The Dragon's Paralysing Spell: Evidence of Sodium and Calcium Ion Channel Binding Neurotoxins in Helodermatid and Varanid Lizard Venoms.

Author

Dobson, James S., Harris, Richard J., Zdenek, Christina N., Huynh, Tam, Hodgson, Wayne C., Bosmans, Frank, Fourmy, Rudy, Violette, Aude, and Fry, Bryan G.

Subjects

ION channels, VENOM, CALCIUM channels, CALCIUM ions, NEUROTOXIC agents, SODIUM ions, ELECTRIC stimulation, VENOM glands

Abstract

Bites from helodermatid lizards can cause pain, paresthesia, paralysis, and tachycardia, as well as other symptoms consistent with neurotoxicity. Furthermore, in vitro studies have shown that Heloderma horridum venom inhibits ion flux and blocks the electrical stimulation of skeletal muscles. Helodermatids have long been considered the only venomous lizards, but a large body of robust evidence has demonstrated venom to be a basal trait of Anguimorpha. This clade includes varanid lizards, whose bites have been reported to cause anticoagulation, pain, and occasionally paralysis and tachycardia. Despite the evolutionary novelty of these lizard venoms, their neuromuscular targets have yet to be identified, even for the iconic helodermatid lizards. Therefore, to fill this knowledge gap, the venoms of three Heloderma species (H. exasperatum, H. horridum and H. suspectum) and two Varanus species (V. salvadorii and V. varius) were investigated using Gallus gallus chick biventer cervicis nerve–muscle preparations and biolayer interferometry assays for binding to mammalian ion channels. Incubation with Heloderma venoms caused the reduction in nerve-mediated muscle twitches post initial response of avian skeletal muscle tissue preparation assays suggesting voltage-gated sodium (NaV) channel binding. Congruent with the flaccid paralysis inducing blockage of electrical stimulation in the skeletal muscle preparations, the biolayer interferometry tests with Heloderma suspectum venom revealed binding to the S3–S4 loop within voltage-sensing domain IV of the skeletal muscle channel subtype, NaV1.4. Consistent with tachycardia reported in clinical cases, the venom also bound to voltage-sensing domain IV of the cardiac smooth muscle calcium channel, CaV1.2. While Varanus varius venom did not have discernable effects in the avian tissue preparation assay at the concentration tested, in the biointerferometry assay both V. varius and V. salvadorii bound to voltage-sensing domain IV of both NaV1.4 and CaV1.2, similar to H. suspectum venom. The ability of varanid venoms to bind to mammalian ion channels but not to the avian tissue preparation suggests prey-selective actions, as did the differential potency within the Heloderma venoms for avian versus mammalian pathophysiological targets. This study thus presents the detailed characterization of Heloderma venom ion channel neurotoxicity and offers the first evidence of varanid lizard venom neurotoxicity. In addition, the data not only provide information useful to understanding the clinical effects produced by envenomations, but also reveal their utility as physiological probes, and underscore the potential utility of neglected venomous lineages in the drug design and development pipeline. [ABSTRACT FROM AUTHOR]

Published

2021

8. Varanid Lizard Venoms Disrupt the Clotting Ability of Human Fibrinogen through Destructive Cleavage.

Author

Dobson, James S., Zdenek, Christina N., Hay, Chris, Fry, Bryan G., Violette, Aude, Fourmy, Rudy, and Cochran, Chip

Subjects

VARANUS, HELODERMA, ANTICOAGULANTS, VENOM, MONITOR lizards

Abstract

The functional activities of Anguimorpha lizard venoms have received less attention compared to serpent lineages. Bite victims of varanid lizards often report persistent bleeding exceeding that expected for the mechanical damage of the bite. Research to date has identified the blockage of platelet aggregation as one bleeding-inducing activity, and destructive cleavage of fibrinogen as another. However, the ability of the venoms to prevent clot formation has not been directly investigated. Using a thromboelastograph (TEG5000), clot strength was measured after incubating human fibrinogen with Heloderma and Varanus lizard venoms. Clot strengths were found to be highly variable, with the most potent effects produced by incubation with Varanus venoms from the Odatria and Euprepriosaurus clades. The most fibrinogenolytically active venoms belonged to arboreal species and therefore prey escape potential is likely a strong evolutionary selection pressure. The results are also consistent with reports of profusive bleeding from bites from other notably fibrinogenolytic species, such as V. giganteus. Our results provide evidence in favour of the predatory role of venom in varanid lizards, thus shedding light on the evolution of venom in reptiles and revealing potential new sources of bioactive molecules useful as lead compounds in drug design and development. [ABSTRACT FROM AUTHOR]

Published

2019

9. Trimeresurus albolabris snakebite treatment implications arising from ontogenetic venom comparisons of anticoagulant function, and antivenom efficacy.

Author

Bourke, Lachlan A., Youngman, Nicholas J., Zdenek, Christina N., op den Brouw, Bianca, Violette, Aude, Fourmy, Rudy, and Fry, Bryan G.

Subjects

*SNAKEBITES, *VENOM, *FIBRIN, *PIT vipers, *ANTICOAGULANTS, *SEX crimes, *RED Cross & Red Crescent

Abstract

• Venoms from both sexes and all age groups acted potently upon fibrinogen in a pseudo-procoagulant manner. • Antivenom was effective against all venoms. • Thus while juvenile venoms are as potently coagulotoxic as adults, they are equally well treated by antivenom. Does the venom of Trimeresurus albolabris (white-lipped pit viper) differ between neonate and adults? This species is responsible for most snakebites within south and southeast Asia, yet it is unknown whether ontogenetic variation in venom composition occurs in this species, or how this might affect antivenom efficacy. Using a coagulation analyser robot, we examined the anticoagulant activity of T. albolabris venom from eight individuals across multiple age classes. We then compared the efficacy of Thai Red Cross Green Pit Viper Antivenom across these age classes. Venoms from all age classes were equally potent in their pseudo-procoagulant, fibrinogenolytic activity, in that fibrinogen was cleaved to form weak, unstable fibrin clots that rapidly broke down, thus resulting in a net anticoagulant state. Similarly, this coagulotoxic activity was well neutralised by antivenom across all venoms. Given that coagulotoxicity is the primary serious pathology in T. albolabris envenomations, we conclude that Thai Red Cross Green Tree Pit Viper Antivenom is a valid treatment for envenomations by this species, regardless of age or sex of the offending snake. These results are relevant for clinical treatment of envenomations by T. albolabris. [ABSTRACT FROM AUTHOR]

Published

2020

10. Factor X activating Atractaspis snake venoms and the relative coagulotoxicity neutralising efficacy of African antivenoms.

Author

Oulion, Brice, Dobson, James S., Zdenek, Christina N., Arbuckle, Kevin, Lister, Callum, Coimbra, Francisco C.P., op den Brouw, Bianca, Debono, Jordan, Rogalski, Aymeric, Violette, Aude, Fourmy, Rudy, Frank, Nathaniel, and Fry, Bryan G.

Subjects

*ATRACTASPIS, *SNAKE venom, *BLOOD coagulation disorders, *ANTIVENINS, *SARAFOTOXINS

Abstract

Atractaspis snake species are enigmatic in their natural history, and venom effects are correspondingly poorly described. Clinical reports are scarce but bites have been described as causing severe hypertension, profound local tissue damage leading to amputation, and deaths are on record. Clinical descriptions have largely concentrated upon tissue effects, and research efforts have focused upon the blood-pressure affecting sarafotoxins. However, coagulation disturbances suggestive of procoagulant functions have been reported in some clinical cases, yet this aspect has been uninvestigated. We used a suite of assays to investigate the coagulotoxic effects of venoms from six different Atractaspis specimens from central Africa. The procoagulant function of factor X activation was revealed, as was the pseudo-procoagulant function of direct cleavage of fibrinogen into weak clots. The relative neutralization efficacy of South African Antivenom Producer’s antivenoms on Atractaspis venoms was boomslang>>>polyvalent>saw-scaled viper. While the boomslang antivenom was the most effective on Atractaspis venoms, the ability to neutralize the most potent Atractaspis species in this study was up to 4–6 times less effective than boomslang antivenom neutralizes boomslang venom. Therefore, while these results suggest cross-reactivity of boomslang antivenom with the unexpectedly potent coagulotoxic effects of Atractaspis venoms, a considerable amount of this rare antivenom may be needed. This report thus reveals potent venom actions upon blood coagulation that may lead to severe clinical effects with limited management strategies. [ABSTRACT FROM AUTHOR]

Published

2018