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1. 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
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3. A Complex Pattern of Gene Expression in Tissue Affected by Viperid Snake Envenoming: The Emerging Role of Autophagy-Related Genes.

Author

Oliveira, Ana Karina de, Rucavado, Alexandra, Escalante, Teresa, Gutiérrez, José María, and Fox, Jay W.

Subjects
*SNAKE venom, *VENOM, *GENE expression, *FER-de-lance, *TRANSFORMING growth factors, *APOPTOSIS, *METABOLIC regulation
Abstract

Viperid snake venoms induce severe tissue damage, characterized by the direct toxic action of venom components, i.e., phospholipases A2 (PLA2s) and metalloproteinases (SVMPs), concomitantly with the onset of endogenous inflammatory processes, in an intricate scenario of tissue alterations. Understanding the expression of relevant genes in muscle tissue will provide valuable insights into the undergoing pathological and inflammatory processes. In this study, we have used the Nanostring technology to evaluate the patterns of gene expression in mouse skeletal muscle 1 h, 6 h, and 24 h after injection of the venoms of Bothrops asper and Daboia russelii, two medically relevant species in Latin America and Asia, respectively, with somewhat different clinical manifestations. The dose of venoms injected (30 µg) induced local pathological effects and inflammation in muscle tissue. We focused our analysis on genes related to extracellular matrix (ECM) metabolism, immune system, programmed cell death, and autophagy. The results revealed a complex pattern of expression of genes. Regarding ECM metabolism and regulation, up-regulated genes included proteinase inhibitor Serpine 1, thrombospondin 1, collagens 1A1 and 4A1 (at 1 h in the case of B. asper), TIMP1, MMP-3 (at 24 h), and lysil oxidase (LOX). In contrast, collagen chains 5A3 and 5A1 were down-regulated, especially at 6 h. Transforming growth factor β (TGF-β) and several genes related to myofibroblast regulation were also up-regulated, which might be related to the development of fibrosis. Several genes related to cytokine and chemokine synthesis and regulation and NFκB signaling were also up-regulated. Our observations show a variable expression of genes associated with programmed cell death and autophagy, thus revealing a hitherto unknown role of autophagy in tissue affected by snake venoms. These results provide clues to understanding the complex pattern of gene expression in tissue affected by viperid snake venoms, which likely impacts the final pathophysiology of damaged tissue in envenomings. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Peripheral Arterial Thrombosis following Russell's Viper Bites

Author

Senthilkumaran, Subramanian, additional, Patel, Ketan, additional, Rajan, Elanchezhian, additional, Vijayakumar, Pradeep, additional, Miller, Stephen W., additional, Rucavado, Alexandra, additional, Gilabadi, Soheil, additional, Sonavane, Medha, additional, Richards, Nicholas J., additional, Williams, Jarred, additional, Williams, Harry F., additional, Trim, Steven A., additional, Thirumalaikolundusubramanian, Ponniah, additional, Gutiérrez, José María, additional, and Vaiyapuri, Sakthivel, additional

Published
2023
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12. Protease activity profiling of snake venoms using high-throughput peptide screening

Author

Kalogeropoulos, Konstantinos, Treschow, Andreas Frederik, Auf Dem Keller, Ulrich, Escalante, Teresa, Rucavado, Alexandra, Gutiérrez, José María, Laustsen, Andreas Hougaard, Workman, Christopher T., Kalogeropoulos, Konstantinos, Treschow, Andreas Frederik, Auf Dem Keller, Ulrich, Escalante, Teresa, Rucavado, Alexandra, Gutiérrez, José María, Laustsen, Andreas Hougaard, and Workman, Christopher T.

Abstract

Snake venom metalloproteinases (SVMPs) and snake venom serine proteinases (SVSPs) are among the most abundant enzymes in many snake venoms, particularly among viperids. These proteinases are responsible for some of the clinical manifestations classically seen in viperid envenomings, including hemorrhage, necrosis, and coagulopathies. The objective of this study was to investigate the enzymatic activities of these proteins using a high-throughput peptide library to screen for the proteinase targets of the venoms of five viperid (Echis carinatus, Bothrops asper, Daboia russelii, Bitis arietans, Bitis gabonica) and one elapid (Naja nigricollis) species of high medical importance. The proteinase activities of these venoms were each tested against 360 peptide substrates, yielding 2160 activity profiles. A nonlinear regression model that accurately described the observed enzymatic activities was fitted to the experimental data, allowing for the comparison of cleavage rates across species. In this study, previously unknown protein targets of snake venom proteinases were identified, potentially implicating novel human and animal proteins that may be involved in the pathophysiology of viper envenomings. The functional relevance of these targets was further evaluated and discussed. These new findings may contribute to our understanding of the clinical manifestations and underlying biochemical mechanisms of snakebite envenoming by viperid species.

Published
2019

19. Discovery of small molecule inhibitors for the snake venom metalloprotease BaP1 using in silico and in vitro tests

Author

Villalta-Romero, Fabian, Borro, Luiz, Mandić, Boris, Escalante, Teresa, Rucavado, Alexandra, Gutierrez, Jose Maria, Nešić, Goran, Tasić, Ljubica, Villalta-Romero, Fabian, Borro, Luiz, Mandić, Boris, Escalante, Teresa, Rucavado, Alexandra, Gutierrez, Jose Maria, Nešić, Goran, and Tasić, Ljubica

Abstract

Snakebites represent an important public health problem, with a great number of victims with permanent sequelae or fatal outcomes, particularly in rural, agriculturally active areas. The snake venom metalloproteases (SVMPs) are the principal proteins responsible for some clinically-relevant effects, such as local and systemic hemorrhage, dermonecrosis, and myonecrosis. Because of the difficulties in neutralizing them rapidly and locally by antivenoms, the search and design of small molecules as inhibitors of SVMPs are proposed. The Bothrops asper metalloprotease P1 (BaP1) is hereby used as a target protein and by High Throughput Virtual Screening (HTVS) approach, the free access virtual libraries: ZINC, PubChem and ChEMBL, were searched for potent small molecule inhibitors. Results from the aforementioned approaches provided strong evidences on the structural requirements for the efficient BaP1 inhibition such as the presence of the pyrimidine-2,4,6-trione moiety. The two proposed compounds have also shown excellent results in performed in vitro interaction studies against BaPl. (C) 2017 Elsevier Ltd. All rights reserved.

Published
2017

20. Supplementary data for article: Villalta-Romero, F.; Borro, L.; Mandić, B.; Escalante, T.; Rucavado, A.; Gutierrez, J. M.; Neshich, G.; Tasic, L. Discovery of Small Molecule Inhibitors for the Snake Venom Metalloprotease BaP1 Using in Silico and in Vitro Tests. Bioorganic and Medicinal Chemistry Letters 2017, 27 (9), 2018–2022. https://doi.org/10.1016/j.bmcl.2017.03.007

Author

Villalta-Romero, Fabian, Borro, Luiz, Mandić, Boris, Escalante, Teresa, Rucavado, Alexandra, Gutierrez, Jose Maria, Nešić, Goran, Tasić, Ljubica, Villalta-Romero, Fabian, Borro, Luiz, Mandić, Boris, Escalante, Teresa, Rucavado, Alexandra, Gutierrez, Jose Maria, Nešić, Goran, and Tasić, Ljubica

Published
2017

21. Novel Catalytically-Inactive PII Metalloproteinases from a Viperid Snake Venom with Substitutions in the Canonical Zinc-Binding Motif

Author

Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Universidad de Costa Rica, International Foundation for Science, Camacho, Erika, Sanz, Libia, Escalante, Teresa, Pérez, Alicia, Villalta, Fabián, Lomonte, Bruno, Neves-Ferreira, Ana Gisele C., Feoli, Andrés, Calvete, Juan J., Gutiérrez, José María, Rucavado, Alexandra, Ministerio de Economía y Competitividad (España), Consejo Superior de Investigaciones Científicas (España), Universidad de Costa Rica, International Foundation for Science, Camacho, Erika, Sanz, Libia, Escalante, Teresa, Pérez, Alicia, Villalta, Fabián, Lomonte, Bruno, Neves-Ferreira, Ana Gisele C., Feoli, Andrés, Calvete, Juan J., Gutiérrez, José María, and Rucavado, Alexandra

Abstract

Snake venom metalloproteinases (SVMPs) play key biological roles in prey immobilization and digestion. The majority of these activities depend on the hydrolysis of relevant protein substrates in the tissues. Hereby, we describe several isoforms and a cDNA clone sequence, corresponding to PII SVMP homologues from the venom of the Central American pit viper Bothriechis lateralis, which have modifications in the residues of the canonical sequence of the zinc-binding motif HEXXHXXGXXH. As a consequence, the proteolytic activity of the isolated proteins was undetectable when tested on azocasein and gelatin. These PII isoforms comprise metalloproteinase and disintegrin domains in the mature protein, thus belonging to the subclass PIIb of SVMPs. PII SVMP homologues were devoid of hemorrhagic and in vitro coagulant activities, effects attributed to the enzymatic activity of SVMPs, but induced a mild edema. One of the isoforms presents the characteristic RGD sequence in the disintegrin domain and inhibits ADP- and collagen-induced platelet aggregation. Catalytically-inactive SVMP homologues may have been hitherto missed in the characterization of snake venoms. The presence of such enzymatically-inactive homologues in snake venoms and their possible toxic and adaptive roles deserve further investigation.

Published
2016

25. Novel Catalytically-Inactive PII Metalloproteinases from a Viperid Snake Venom with Substitutions in the Canonical Zinc-Binding Motif

Author

Camacho, Erika, primary, Sanz, Libia, additional, Escalante, Teresa, additional, Pérez, Alicia, additional, Villalta, Fabián, additional, Lomonte, Bruno, additional, Neves-Ferreira, Ana, additional, Feoli, Andrés, additional, Calvete, Juan, additional, Gutiérrez, José, additional, and Rucavado, Alexandra, additional

Published
2016
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28. Analysis of TcdB Proteins within the Hypervirulent Clade 2 Reveals an Impact of RhoA Glucosylation on Clostridium difficile Proinflammatory Activities

Author

Quesada-Gómez, Carlos, primary, López-Ureña, Diana, additional, Chumbler, Nicole, additional, Kroh, Heather K., additional, Castro-Peña, Carolina, additional, Rodríguez, César, additional, Orozco-Aguilar, Josué, additional, González-Camacho, Sara, additional, Rucavado, Alexandra, additional, Guzmán-Verri, Caterina, additional, Lawley, Trevor D., additional, Lacy, D. Borden, additional, and Chaves-Olarte, Esteban, additional

Published
2016
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29. Tissue localization and extracellular matrix degradation by PI, PII and PIII snake venom metalloproteinases: clues on the mechanisms of venom-induced hemorrhage

Author

Herrera, Cristina, Escalante, Teresa, Voisin, Mathieu-Benoit, Rucavado, Alexandra, Morazán, Diego, Macêdo, Jéssica Kele A., Calvete, Juan J., Sanz, Libia, Nourshargh, Sussan, Gutiérrez, José María, Fox, Jay W., Herrera, Cristina, Escalante, Teresa, Voisin, Mathieu-Benoit, Rucavado, Alexandra, Morazán, Diego, Macêdo, Jéssica Kele A., Calvete, Juan J., Sanz, Libia, Nourshargh, Sussan, Gutiérrez, José María, and Fox, Jay W.

Abstract

Snake venom hemorrhagic metalloproteinases (SVMPs) of the PI, PII and PIII classes were compared in terms of tissue localization and their ability to hydrolyze basement membrane components in vivo, as well as by a proteomics analysis of exudates collected in tissue injected with these enzymes. Immunohistochemical analyses of co-localization of these SVMPs with type IV collagen revealed that PII and PIII enzymes co-localized with type IV collagen in capillaries, arterioles and post-capillary venules to a higher extent than PI SVMP, which showed a more widespread distribution in the tissue. The patterns of hydrolysis by these three SVMPs of laminin, type VI collagen and nidogen in vivo greatly differ, whereas the three enzymes showed a similar pattern of degradation of type IV collagen, supporting the concept that hydrolysis of this component is critical for the destabilization of microvessel structure leading to hemorrhage. Proteomic analysis of wound exudate revealed similarities and differences between the action of the three SVMPs. Higher extent of proteolysis was observed for the PI enzyme regarding several extracellular matrix components and fibrinogen, whereas exudates from mice injected with PII and PIII SVMPs had higher amounts of some intracellular proteins. Our results provide novel clues for understanding the mechanisms by which SVMPs induce damage to the microvasculature and generate hemorrhage.

Published
2015

31. Tissue Localization and Extracellular Matrix Degradation by PI, PII and PIII Snake Venom Metalloproteinases: Clues on the Mechanisms of Venom-Induced Hemorrhage

Author

Herrera, Cristina, primary, Escalante, Teresa, additional, Voisin, Mathieu-Benoit, additional, Rucavado, Alexandra, additional, Morazán, Diego, additional, Macêdo, Jéssica Kele A., additional, Calvete, Juan J., additional, Sanz, Libia, additional, Nourshargh, Sussan, additional, Gutiérrez, José María, additional, and Fox, Jay W., additional

Published
2015
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32. Identification of New Snake Venom Metalloproteinase Inhibitors Using Compound Screening and Rational Peptide Design

Author

Villalta-Romero, Fabián, primary, Gortat, Anna, additional, Herrera, Andrés E., additional, Arguedas, Rebeca, additional, Quesada, Javier, additional, de Melo, Robson Lopes, additional, Calvete, Juan J., additional, Montero, Mavis, additional, Murillo, Renato, additional, Rucavado, Alexandra, additional, Gutiérrez, José María, additional, and Pérez-Payá, Enrique, additional

Published
2012
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37. Amino acid sequence and crystal structure of BaP1, a metalloproteinase from Bothrops asper snake venom that exerts multiple tissue‐damaging activities

Author

Watanabe, Leandra, primary, Shannon, John D., additional, Valente, Richard H., additional, Rucavado, Alexandra, additional, Alape‐Girón, Alberto, additional, Kamiguti, Aura S., additional, Theakston, R. David G., additional, Fox, Jay W., additional, Gutiérrez, José María, additional, and Arni, Raghuvir K., additional

Published
2003
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39. Analysis of TcdB Proteins within the Hypervirulent Clade 2 Reveals an Impact of RhoA Glucosylation on Clostridium difficileProinflammatory Activities

Author

Quesada-Gómez, Carlos, López-Ureña, Diana, Chumbler, Nicole, Kroh, Heather K., Castro-Peña, Carolina, Rodríguez, César, Orozco-Aguilar, Josué, González-Camacho, Sara, Rucavado, Alexandra, Guzmán-Verri, Caterina, Lawley, Trevor D., Lacy, D. Borden, and Chaves-Olarte, Esteban

Abstract

ABSTRACTClostridium difficilestrains within the hypervirulent clade 2 are responsible for nosocomial outbreaks worldwide. The increased pathogenic potential of these strains has been attributed to several factors but is still poorly understood. During a C. difficileoutbreak, a strain from this clade was found to induce a variant cytopathic effect (CPE), different from the canonical arborizing CPE. This strain (NAP1V) belongs to the NAP1 genotype but to a ribotype different from the epidemic NAP1/RT027 strain. NAP1Vand NAP1 share some properties, including the overproduction of toxins, the binary toxin, and mutations in tcdC. NAP1Vis not resistant to fluoroquinolones, however. A comparative analysis of TcdB proteins from NAP1/RT027 and NAP1Vstrains indicated that both target Rac, Cdc42, Rap, and R-Ras but only the former glucosylates RhoA. Thus, TcdB from hypervirulent clade 2 strains possesses an extended substrate profile, and RhoA is crucial for the type of CPE induced. Sequence comparison and structural modeling revealed that TcdBNAP1and TcdBNAP1Vshare the receptor-binding and autoprocessing activities but vary in the glucosyltransferase domain, consistent with the different substrate profile. Whereas the two toxins displayed identical cytotoxic potencies, TcdBNAP1induced a stronger proinflammatory response than TcdBNAP1Vas determined in ex vivoexperiments and animal models. Since immune activation at the level of intestinal mucosa is a hallmark of C. difficile-induced infections, we propose that the panel of substrates targeted by TcdB is a determining factor in the pathogenesis of this pathogen and in the differential virulence potential seen among C. difficilestrains.

Published
2016
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40. Identification of residues critical for toxicity in Clostridium perfringens phospholipase C, the key toxin in gas gangrene

Author

Alape-Girón, Alberto, primary, Flores-Díaz, Marietta, additional, Guillouard, Isabelle, additional, Naylor, Claire E., additional, Titball, Richard W., additional, Rucavado, Alexandra, additional, Lomonte, Bruno, additional, Basak, Ajit K., additional, Gutiérrez, José M., additional, Cole, Stewart T., additional, and Thelestam, Monica, additional

Published
2000
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42. Increments in cytokines and matrix metalloproteinases in skeletal muscle after injection of tissue-damaging toxins from the venom of the snake Bothrops asper.

Author

Rucavado, Alexandra, Escalante, Teresa, Teixeira, Catarina F. P., Fernándes, Cristina María, Díaz, Cecilia, and Gutiérrez, José María

Subjects
*CYTOKINES, *METALLOPROTEINASES, *TOXINS, *BOTHROPS, *VENOM
Abstract

Envenomations by the snake Bothrops asper are characterized by prominent local tissue damage (i.e. myonecrosis), blistering, hemorrhage and edema. Various phospholipases A[sub 2] and metalloproteinases that induce local pathological alterations have been purified from this venom. Since these toxins induce a conspicuous inflammatory response, it has been hypothesized that inflammatory mediators may contribute to the local pathological alterations described. This study evaluated the local production of cytokines and matrix metalloproteinases (MMPs) as a consequence of intramuscular injections of an Asp-49 myotoxic phospholipase A[sub 2] (myotoxin III (MT-III)) and a P-I type hemorrhagic metalloproteinase (BaP1) isolated from B. asper venom. Both enzymes induced prominent tissue alterations and conspicuous increments in interleukin (IL)-1β, IL-6 and a number of MMPs, especially gelatinase MMP-9, rapidly after injection. In contrast, no increments in tumor necrosis factor-α (TNF-α) and interferon-γ were detected. In agreement, MT-III and BaP1 did not induce the synthesis of TNF-α by resident peritoneal macrophages in vitro. Despite the conspicuous expression of latent forms of MMPs in muscle, evidenced by zymography, there were no increments in activated MMP-2 and only a small increase in activated MMP-9, as detected by a functional enzymatic assay. This suggests that MMP activity was regulated by a highly controlled activation of latent forms and, probably, by a concomitant synthesis of MMP inhibitors. Since no hemorrhage nor dermonecrosis were observed after injection of MT-III, despite a prominent increase in MMP expression, and since inflammatory exudate did not enhance hemorrhage induced by BaP1, it is suggested that endogenous MMPs released in the tissue are not responsible for the dermonecrosis and hemorrhage characteristic of B. asper envenomation. Moreover, pretreatment of mice with the peptidomimetic MMP inhibitor batimastat did not reduce myotoxic nor edema-forming activities of MT-III, suggesting that MMPs do not play a prominent role in the pathogenesis of these effects in this experimental model. It is concluded that MT-III and BaP1 induce a local inflammatory response associated with the synthesis of IL-1β, IL-6 and MMPs. MMPs do not seem to play a prominent role in the acute local pathological alterations induced by these toxins in this experimental model. [ABSTRACT FROM AUTHOR]

Published
2002
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43. Bothrops asper snake venom and its metalloproteinase BaP–1 activate the complement system. Role in leucocyte recruitment.

Author

Farsky, Sandra H.P., Goncalves, Luis Roberto C., Gutierrez, Jose M., Correa, Adriana P., Rucavado, Alexandra, Gasque, Philippe, and Tambourgi, Denise V.

Subjects
VENOM, BOTHROPS, TOXINS
Abstract

The venom of the snake Bothrops asper, the most important poisonous snake in Central America, evokes an inflammatory response, the mechanisms of which are not well characterized. The objectives of this study were to investigate whether B. aspervenom and its purified toxins - phospholipases and metalloproteinase - activate the complement system and the contribution of the effect on leucocyte recruitment. In vitrochemotaxis assays were performed using Boyden's chamber model to investigate the ability of serum incubated with venom and its purified toxins to induce neutrophil migration. The complement consumption by the venom was evaluated using an in vitrohaemolytic assay. The importance of complement activation by the venom on neutrophil migration was investigated in vivoby injecting the venom into the peritoneal cavity of C5-deficient mice. Data obtained demonstrated that serum incubated with crude venom and its purified metalloproteinase BaP-1 are able to induce rat neutrophil chemotaxis, probably mediated by agent(s) derived from the complement system. This hypothesis was corroborated by the capacity of the venom to activate this system in vitro. The involvement of C5a in neutrophil chemotaxis induced by venom-activated serum was demonstrated by abolishing migration when neutrophils were pre-incubated with antirat C5a receptor antibody. The relevance of the complement system in in vivoleucocyte mobilization was further demonstrated by the drastic decrease of this response in C5-deficient mice. Pre-incubation of serum with the soluble human recombinant complement receptor type 1 (sCR 1) did not prevent the response induced by the venom, but abolished the migration evoked by metalloproteinase-activated serum. These data show the role of the complement system in bothropic envenomation and the participation of metalloproteinase in the effect. Also, they suggest that the venom may contain other component(s) which can cause direct activation of C5a. [ABSTRACT FROM AUTHOR]

Published
2000
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44. Proteomic Analysis of Human Blister Fluids Following Envenomation by Three Snake Species in India: Differential Markers for Venom Mechanisms of Action.

Author

Fox, Jay W., Macêdo, Jéssica K. A., Joseph, Joseph K., Menon, Jaideep, Escalante, Teresa, Rucavado, Alexandra, and Gutiérrez, José María

Subjects
BLISTERS, SNAKEBITES, PROTEOMICS, SNAKE venom, METALLOPROTEINASES
Abstract

Skin blistering as a result of snakebite envenomation is characteristic of some bites, however little is known regarding the mechanism of blister formation or the composition of the blister fluid. In order to investigate if blister fluid proteomes from humans suffering snakebite envenomation could provide insights on the pathophysiology of these skin alterations, blister fluid was collected from six patients upon presentation at a clinic in India bitten by three species of snakes, Daboia russelii (3), Hypnale hypnale (2), or Naja naja (1). Standard clinical data were recorded throughout the treatment. Approximately 805 proteins were identified in blister fluids using proteomic analyses. Informatics analyses of the proteomes identified the top biological response categories as: platelet degranulation, innate immune response, receptor-mediated endocytosis, complement activation, and blood coagulation. Hierarchical clustering did not show a clear segregation of patients' proteomes being associated with the species of snake involved, suggesting that either the proteomic profiles described reflect a general response to venom-induced tissue damage or more patient data sets will be required to observe significant differences. Finally, it is of interest that venom proteins were also identified in the blister fluids suggesting that this fluid may serve as a reservoir of venom biologically active proteins/toxins, and as such, may indicate the clinical value of removing blister fluid to attenuate further tissue damage. [ABSTRACT FROM AUTHOR]

Published
2019
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