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6. The Interaction of the Antitoxin DM43 with a Snake Venom Metalloproteinase Analyzed by Mass Spectrometry and Surface Plasmon Resonance

Author

Brand, GD, Salbo, R, Jorgensen, TJD, Jr, BC, Erba, EB, Robinson, CV, Tanjoni, I, Moura-da-Silva, AM, Roepstorff, P, Domont, GB, Perales, J, Valente, RH, and Neves-Ferreira, AGC

Abstract

DM43 is a circulating dimeric antitoxin isolated from Didelphis aurita, a South American marsupial naturally immune to snake envenomation. This endogenous inhibitor binds non-covalently to jararhagin, the main hemorrhagic metalloproteinase from Bothrops jararaca snake venom, and efficiently neutralizes its toxicity. The aim of this study was to apply mass spectrometry (MS) and surface plasmon resonance (SPR) to improve the molecular characterization of this heterocomplex. The stoichiometry of the interaction was confirmed by nanoelectrospray ionization-quadrupole-time-of-flight MS; from native solution conditions, the complex showed a molecular mass of ~94 kDa, indicating that one molecule of jararhagin (50 kDa) interacts with one monomer of DM43 (43 kDa). Although readily observed in solution, the dimeric structure of the inhibitor was barely preserved in the gas phase. This result suggests that, in contrast to the toxin-antitoxin complex, hydrophobic interactions are the primary driving force for the inhibitor dimerization. For the real-time interaction analysis, the toxin was captured on a sensor chip derivatized with the anti-jararhagin monoclonal antibody MAJar 2. The sensorgrams obtained after successive injections of DM43 in a concentration series were globally fitted to a simple bimolecular interaction, yielding the following kinetic rates for the DM43/jararhagin interaction: k(a) = 3.54 ± 0.03 × 10(4) M(-1) s(-1) and k(d) = 1.16 ± 0.07 × 10(-5) s(-1), resulting in an equilibrium dissociation constant (K(D) ) of 0.33 ± 0.06 nM. Taken together, MS and SPR results show that DM43 binds to its target toxin with high affinity and constitute the first accurate quantitative study on the extent of the interaction between a natural inhibitor and a metalloproteinase toxin, with unequivocal implications for the use of this kind of molecule as template for the rational development of novel antivenom therapies.

Published
2016

7. Collagen binding is a key factor for the hemorrhagic activity of snake venom metalloproteinases

Author

Moura-da-Silva, A.M., primary, Ramos, O.H.P., additional, Baldo, C., additional, Niland, S., additional, Hansen, U., additional, Ventura, J.S., additional, Furlan, S., additional, Butera, D., additional, Della-Casa, M.S., additional, Tanjoni, I., additional, Clissa, P.B., additional, Fernandes, I., additional, Chudzinski-Tavassi, A.M., additional, and Eble, J.A., additional

Published
2008
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9. The interaction of the antitoxin DM43 with a snake venom metalloproteinase analyzed by mass spectrometry and surface plasmon resonance.

Author

Brand GD, Salbo R, Jørgensen TJ, Bloch C Jr, Boeri Erba E, Robinson CV, Tanjoni I, Moura-da-Silva AM, Roepstorff P, Domont GB, Perales J, Valente RH, and Neves-Ferreira AG

Subjects
Blood Proteins metabolism, Crotalid Venoms metabolism, Hydrophobic and Hydrophilic Interactions, Immobilized Proteins chemistry, Immobilized Proteins metabolism, Kinetics, Metalloendopeptidases metabolism, Molecular Weight, Multiprotein Complexes metabolism, Bothrops jararaca Venom, Blood Proteins chemistry, Crotalid Venoms chemistry, Mass Spectrometry methods, Metalloendopeptidases chemistry, Multiprotein Complexes chemistry, Surface Plasmon Resonance methods
Abstract

DM43 is a circulating dimeric antitoxin isolated from Didelphis aurita, a South American marsupial naturally immune to snake envenomation. This endogenous inhibitor binds non-covalently to jararhagin, the main hemorrhagic metalloproteinase from Bothrops jararaca snake venom, and efficiently neutralizes its toxicity. The aim of this study was to apply mass spectrometry (MS) and surface plasmon resonance (SPR) to improve the molecular characterization of this heterocomplex. The stoichiometry of the interaction was confirmed by nanoelectrospray ionization-quadrupole-time-of-flight MS; from native solution conditions, the complex showed a molecular mass of ~94 kDa, indicating that one molecule of jararhagin (50 kDa) interacts with one monomer of DM43 (43 kDa). Although readily observed in solution, the dimeric structure of the inhibitor was barely preserved in the gas phase. This result suggests that, in contrast to the toxin-antitoxin complex, hydrophobic interactions are the primary driving force for the inhibitor dimerization. For the real-time interaction analysis, the toxin was captured on a sensor chip derivatized with the anti-jararhagin monoclonal antibody MAJar 2. The sensorgrams obtained after successive injections of DM43 in a concentration series were globally fitted to a simple bimolecular interaction, yielding the following kinetic rates for the DM43/jararhagin interaction: k(a) = 3.54 ± 0.03 × 10(4) M(-1) s(-1) and k(d) = 1.16 ± 0.07 × 10(-5) s(-1), resulting in an equilibrium dissociation constant (K(D) ) of 0.33 ± 0.06 nM. Taken together, MS and SPR results show that DM43 binds to its target toxin with high affinity and constitute the first accurate quantitative study on the extent of the interaction between a natural inhibitor and a metalloproteinase toxin, with unequivocal implications for the use of this kind of molecule as template for the rational development of novel antivenom therapies., (Copyright © 2012 John Wiley & Sons, Ltd.)

Published
2012
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10. p190RhoGEF (Rgnef) promotes colon carcinoma tumor progression via interaction with focal adhesion kinase.

Author

Yu HG, Nam JO, Miller NL, Tanjoni I, Walsh C, Shi L, Kim L, Chen XL, Tomar A, Lim ST, and Schlaepfer DD

Subjects
Amino Acid Sequence, Animals, Caco-2 Cells, Cell Movement physiology, Colorectal Neoplasms genetics, Colorectal Neoplasms pathology, Disease Progression, Enzyme Activation, Extracellular Matrix metabolism, Female, Focal Adhesion Kinase 1 antagonists & inhibitors, Gastrins metabolism, Gene Knockdown Techniques, Guanine Nucleotide Exchange Factors antagonists & inhibitors, Guanine Nucleotide Exchange Factors biosynthesis, Guanine Nucleotide Exchange Factors genetics, HCT116 Cells, Humans, Mice, Mice, Nude, Molecular Sequence Data, Paxillin metabolism, Phosphorylation, Signal Transduction, Colorectal Neoplasms metabolism, Focal Adhesion Kinase 1 metabolism, Guanine Nucleotide Exchange Factors metabolism
Abstract

Focal adhesion kinase (FAK) functions downstream of integrins and growth factor receptors to promote tumor cell motility and invasion. In colorectal cancer, FAK is activated by amidated gastrin, a protumorigenic hormone. However, it is unclear how FAK receives signals from the gastrin receptor or other G-protein-coupled receptors that can promote cell motility and invasion. The Rho guanine-nucleotide exchange factor p190RhoGEF (Rgnef) binds FAK and facilitates fibroblast focal adhesion formation on fibronectin. Here we report that Rgnef mRNA and protein expression are significantly increased during colorectal tumor progression. In human colon carcinoma cells, Rgnef forms a complex with FAK and upon gastrin stimulation, FAK translocates to newly-forming focal adhesions where it facilitates tyrosine phosphorylation of paxillin. short hairpin (shRNA)-mediated knockdown of Rgnef or FAK, or pharmacological inhibition of FAK activity, is sufficient to block gastrin-stimulated paxillin phosphorylation, cell motility, and invadopodia formation in a manner dependent upon upstream cholecystokinin-2 receptor expression. Overexpression of the C-terminal region of Rgnef (Rgnef-C, amino acid 1,279-1,582) but not Rgnef-CΔFAK (amino acid 1,302-1,582 lacking the FAK binding site) disrupted endogenous Rgnef-FAK interaction and prevented paxillin phosphorylation and cell motility stimulated by gastrin. Rgnef-C-expressing cells formed smaller, less invasive tumors with reduced tyrosine phosphorylation of paxillin upon orthotopic implantation, compared with Rgnef-CΔFAK-expressing cells. Our studies identify Rgnef as a novel regulator of colon carcinoma motility and invasion, and they show that a Rgnef-FAK linkage promotes colon carcinoma progression in vivo., (© 2011 AACR.)

Published
2011
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11. Different regions of the class P-III snake venom metalloproteinase jararhagin are involved in binding to alpha2beta1 integrin and collagen.

Author

Tanjoni I, Evangelista K, Della-Casa MS, Butera D, Magalhães GS, Baldo C, Clissa PB, Fernandes I, Eble J, and Moura-da-Silva AM

Subjects
Animals, Antibodies, Blocking pharmacology, Antibodies, Monoclonal pharmacology, Blood Platelets drug effects, Collagen drug effects, Crotalid Venoms immunology, Crotalid Venoms pharmacology, Humans, Integrin alpha2beta1 drug effects, K562 Cells drug effects, Metalloendopeptidases immunology, Metalloendopeptidases pharmacology, Platelet Aggregation drug effects, Platelet Aggregation Inhibitors immunology, Platelet Aggregation Inhibitors pharmacology, Protein Binding drug effects, Recombinant Proteins immunology, Recombinant Proteins metabolism, Recombinant Proteins pharmacology, Transfection, Bothrops jararaca Venom, Collagen metabolism, Crotalid Venoms metabolism, Integrin alpha2beta1 metabolism, K562 Cells metabolism, Metalloendopeptidases metabolism, Platelet Aggregation Inhibitors metabolism
Abstract

SVMPs are multi-domain proteolytic enzymes in which disintegrin-like and cysteine-rich domains bind to cell receptors, plasma or ECM proteins. We have recently reported that jararhagin, a P-III class SVMP, binds to collagen with high affinity through an epitope located within the Da-disintegrin sub-domain. In this study, we evaluated the binding of jararhagin to alpha(2)beta(1) integrin (collagen receptor) using monoclonal antibodies and recombinant jararhagin fragments. In solid phase assays, binding of jararhagin to alpha(2)beta(1) integrin was detectable from concentrations of 20 nM. Using recombinant fragments of jararhagin, only fragment JC76 (residues 344-421), showed a significant binding to recombinant alpha(2)beta(1) integrin. The anti-jararhagin monoclonal antibody MAJar 3 efficiently neutralised binding of jararhagin to collagen, but not to recombinant alpha(2)beta(1) integrin nor to cell-surface-exposed alpha(2)beta(1) integrin (alpha(2)-K562 transfected cells and platelets). The same antibody neutralised collagen-induced platelet aggregation. Our data suggest that jararhagin binding to collagen and alpha(2)beta(1) integrin occurs by two independent motifs, which are located on disintegrin-like and cysteine-rich domains, respectively. Moreover, toxin binding to collagen appears to be sufficient to inhibit collagen-induced platelet aggregation., (Copyright 2009 Elsevier Ltd. All rights reserved.)

Published
2010
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12. Oral delivery of PND-1186 FAK inhibitor decreases tumor growth and spontaneous breast to lung metastasis in pre-clinical models.

Author

Walsh C, Tanjoni I, Uryu S, Tomar A, Nam JO, Luo H, Phillips A, Patel N, Kwok C, McMahon G, Stupack DG, and Schlaepfer DD

Subjects
Administration, Oral, Aminopyridines therapeutic use, Animals, Antineoplastic Agents therapeutic use, Apoptosis drug effects, Breast Neoplasms drug therapy, Cell Line, Tumor, Cell Proliferation drug effects, Crk-Associated Substrate Protein metabolism, Female, Humans, Lung Neoplasms drug therapy, Lung Neoplasms pathology, Mice, Mice, Inbred BALB C, Mice, Nude, Mice, SCID, Phosphorylation drug effects, Tyrosine metabolism, Xenograft Model Antitumor Assays, Aminopyridines pharmacology, Antineoplastic Agents pharmacology, Breast Neoplasms pathology, Focal Adhesion Protein-Tyrosine Kinases antagonists & inhibitors, Lung Neoplasms secondary
Abstract

Tumor metastasis is a leading cause of cancer-related death. Focal adhesion kinase (FAK) is a cytoplasmic tyrosine kinase recruited to integrin-mediated matrix attachment sites where FAK activity is implicated in the control of cell survival, migration, and invasion. Although genetic studies support the importance of FAK activity in promoting tumor progression, it remains unclear whether pharmacological FAK inhibition prevents tumor metastasis. Here, we show that the FAK inhibitor PND-1186 blocks FAK Tyr-397 phosphorylation in vivo and exhibits anti-tumor efficacy in orthotopic breast carcinoma mouse tumor models. PND-1186 (100 mg/kg intraperitoneal, i.p.) showed promising pharmacokinetics (PK) and inhibited tumor FAK Tyr-397 phosphorylation for 12 hours. Oral administration of 150 mg/kg PND-1186 gave a more sustained PK profile verses i.p., and when given twice daily, PND-1186 significantly inhibited sygeneic murine 4T1 orthotopic breast carcinoma tumor growth and spontaneous metastasis to lungs. Moreover, low-level 0.5 mg/ml PND-1186 ad libitum administration in drinking water prevented oncogenic KRAS- and BRAF-stimulated MDA-MB-231 breast carcinoma tumor growth and metastasis with inhibition of tumoral FAK and p130Cas phosphorylation. Although PND-1186 was not cytotoxic to cells in adherent culture, tumors from animals receiving PND-1186 exhibited increased TUNEL staining, decreased leukocyte infiltrate and reduced tumor-associated splenomegaly. In vitro, PND-1186 reduced tumor necrosis factor-a triggered interleukin-6 cytokine expression, indicating that FAK inhibition may impact tumor progression via effects on both tumor and stromal cells. As oral administration of PND-1186 also decreased experimental tumor metastasis, PND-1186 may therefore be useful clinically to curb breast tumor progression.

Published
2010
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13. PND-1186 FAK inhibitor selectively promotes tumor cell apoptosis in three-dimensional environments.

Author

Tanjoni I, Walsh C, Uryu S, Tomar A, Nam JO, Mielgo A, Lim ST, Liang C, Koenig M, Sun C, Patel N, Kwok C, McMahon G, Stupack DG, and Schlaepfer DD

Subjects
Aminopyridines chemistry, Animals, Antineoplastic Agents chemistry, Caspase 3 metabolism, Cell Line, Tumor, Crk-Associated Substrate Protein metabolism, Female, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Phosphorylation drug effects, Signal Transduction drug effects, Spheroids, Cellular drug effects, Tumor Cells, Cultured drug effects, Tyrosine metabolism, Xenograft Model Antitumor Assays, src-Family Kinases antagonists & inhibitors, Aminopyridines pharmacology, Antineoplastic Agents pharmacology, Apoptosis drug effects, Focal Adhesion Protein-Tyrosine Kinases antagonists & inhibitors
Abstract

Tumor cells can grow in an anchorage-independent manner. This is mediated in part through survival signals that bypass normal growth restraints controlled by integrin cell surface receptors. Focal adhesion kinase (FAK) is a cytoplasmic protein-tyrosine kinase that associates with integrins and modulates various cellular processes including growth, survival, and migration. As increased FAK expression and tyrosine phosphorylation are associated with tumor progression, inhibitors of FAK are being tested for anti-tumor effects. Here, we analyze PND-1186, a substituted pyridine reversible inhibitor of FAK activity with a 50% inhibitory concentration (IC50) of 1.5 nM in vitro. PND-1186 has an IC50 of ~100 nM in breast carcinoma cells as determined by anti-phospho-specific immunoblotting to FAK Tyr-397. PND-1186 did not alter c‑Src or p130Cas tyrosine phosphorylation in adherent cells, yet functioned to restrain cell movement. Notably, 1.0 µM PND-1186 (>5-fold above IC50) had limited effects on cell proliferation. However, under non-adherent conditions as spheroids and as colonies in soft agar, 0.1 µM PND-1186 blocked FAK and p130Cas tyrosine phosphorylation, promoted caspase-3 activation, and triggered cell apoptosis. PND-1186 inhibited 4T1 breast carcinoma subcutaneous tumor growth correlated with elevated tumor cell apoptosis and caspase 3 activation. Addition of PND-1186 to the drinking water of mice was well tolerated and inhibited ascites- and peritoneal membrane-associated ovarian carcinoma tumor growth associated with the inhibition of FAK Tyr-397 phosphorylation. Our results with low-level PND-1186 treatment support the conclusion that FAK activity selectively promotes tumor cell survival in three-dimensional environments.

Published
2010
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14. Importance of snake venom metalloproteinases in cell biology: effects on platelets, inflammatory and endothelial cells.

Author

Moura-da-Silva AM, Butera D, and Tanjoni I

Subjects
Animals, Blood Platelets pathology, Endothelial Cells pathology, Humans, Inflammation Mediators chemistry, Metalloproteases chemistry, Snake Venoms chemistry, Blood Platelets enzymology, Endothelial Cells enzymology, Inflammation Mediators physiology, Metalloproteases physiology, Snake Venoms enzymology
Abstract

Snake venom metalloproteinases (SVMPs) are widely distributed in snake venoms and play important roles in hemostatic disorders and local tissue damage that follows snakebite. The impact of SVMPs on hemostasis has been extensively studied showing diverse effects both on soluble factors and cellular components. The action of SVMPs involves catalytic and anti-adhesive properties, as well as direct cellular activation and/or the release of endogenous bioactive components. The purpose of this review is to overview the action of SVMPs on the inhibition of platelet functions; angiogenesis, particularly inducing apoptosis of endothelial cells; and regarding the pro-inflammatory reaction that follows snakebite. We discuss the structural features of the molecules that may be involved in such activities. The versatility and availability of SVMPs make them important tools for cell biology research into the mechanisms of action of endogenous metalloproteinases, for insights into cellular-matrix interactions and for clinical investigations into the treatment of snakebites.

Published
2007
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15. Snake venom metalloproteinases: structure/function relationships studies using monoclonal antibodies.

Author

Tanjoni I, Butera D, Bento L, Della-Casa MS, Marques-Porto R, Takehara HA, Gutiérrez JM, Fernandes I, and Moura-da-Silva AM

Subjects
Animals, Antibodies, Monoclonal immunology, Antibody Specificity, Collagen chemistry, Crotalid Venoms chemistry, Crotalid Venoms immunology, Hemorrhage chemically induced, Metalloendopeptidases chemistry, Metalloendopeptidases immunology, Metalloendopeptidases pharmacology, Metalloproteases metabolism, Mice, Mice, Inbred BALB C, Structure-Activity Relationship, Bothrops jararaca Venom, Bothrops, Crotalid Venoms enzymology, Crotalid Venoms pharmacology, Metalloproteases chemistry
Abstract

Snake Venom Metalloproteinases (SVMPs) are synthesized as zymogens and undergo proteolytic processing resulting in a variety of multifunctional proteins. Jararhagin is a P-III SVMP, isolated from the venom of Bothrops jararaca, comprising metalloproteinase, disintegrin-like and cysteine-rich domains. The catalytic domain is responsible for the hemorrhagic activity. The disintegrin-like/cysteine-rich domains block alpha2beta1 integrin binding to collagen and apparently enhance the hemorrhagic activity of SVMPs. The relevance of disintegrin-like domain is described in this paper using a series of mouse anti-jararhagin monoclonal antibodies (MAJar 1-7). MAJar 3 was the only antibody able to completely neutralize jararhagin hemorrhagic activity. Neutralization of catalytic activity was partial by incubation with MAJar 1. MAJars 1 and 3 efficiently neutralized jararhagin binding to collagen with IC50 of 330 and 8.4 nM, respectively. MAJars 1 and 3 recognized the C-terminal portion of the disintegrin domain, which is apparently in conformational proximity with the catalytic domain according to additivity tests. These data suggest that disintegrin-like domain epitopes are in close contact with catalytic site or functionally modulate the expression of hemorrhagic activity in SVMPs.

Published
2003
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16. Phylogenetic conservation of a snake venom metalloproteinase epitope recognized by a monoclonal antibody that neutralizes hemorrhagic activity.

Author

Tanjoni I, Butera D, Spencer PJ, Takehara HA, Fernandes I, and Moura-da-Silva AM

Subjects
Amino Acid Sequence, Animals, Antibodies, Monoclonal pharmacology, Blotting, Western, Bothrops genetics, Bothrops immunology, Colubridae genetics, Colubridae immunology, Crotalid Venoms chemistry, Crotalid Venoms enzymology, Crotalid Venoms genetics, Crotalid Venoms toxicity, Elapidae genetics, Elapidae immunology, Enzyme-Linked Immunosorbent Assay, Epitopes chemistry, Epitopes genetics, Hemorrhage chemically induced, Hemorrhage prevention & control, Metalloendopeptidases chemistry, Metalloendopeptidases genetics, Metalloendopeptidases immunology, Metalloproteases chemistry, Metalloproteases genetics, Mice, Molecular Sequence Data, Phylogeny, Sequence Alignment, Viperidae genetics, Viperidae immunology, Bothrops jararaca Venom, Antibodies, Monoclonal immunology, Bothrops classification, Crotalid Venoms immunology, Epitopes immunology, Hemorrhage immunology, Metalloproteases immunology
Abstract

Snake venom metalloproteinases (SVMPs) are present in large quantities in venoms of viper snakes and also in some elapids. Jararhagin is a representative of a P-III multidomain hemorrhagic SVMP present in Bothrops jararaca venom. It is comprised of a catalytic, a disintegrin-like and a cysteine-rich domain. Seven anti-jararhagin monoclonal antibodies (MAJar 1-7) were produced, of which six reacted with the disintegrin domain. MAJar 3 recognized an epitope present at the C-terminal part of the disintegrin-like domain, and neutralized jararhagin-induced hemorrhage. In this study, we evaluated the reactivity of these monoclonal antibodies with venoms from 27 species of snakes belonging to different families. MAJar 3 recognized most of the hemorrhagic venoms. By ELISA, MAJar 3 reacted strongly with venoms from Viperidae family and weakly with Colubridae and Elapidae venoms. This recognition pattern was due to bands between 50 and 80 kDa, corresponding to P-III SVMPs. This antibody preferentially neutralized the hemorrhage induced by venoms of Bothrops snakes. This fact suggests that the epitope recognized by MAJar 3 is present in other metalloproteinases throughout snake phylogeny. However, slight structural differences in the epitope may result in insufficient affinity for neutralization of biological activities.

Published
2003
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17. Characterisation of local inflammatory response induced by Thalassophryne nattereri fish venom in a mouse model of tissue injury.

Author

Lima C, Bianca Clissa P, Amélia Piran-Soares A, Tanjoni I, Moura-da-Silva AM, and Lopes-Ferreira M

Subjects
Animals, Cell Line, Cell Survival, Chemotaxis, Leukocyte drug effects, Dose-Response Relationship, Drug, Female, Germ-Free Life, Interleukin-1 analysis, Interleukin-6 analysis, Leukocytes, Mononuclear cytology, Leukocytes, Mononuclear drug effects, Male, Mice, Neutrophils drug effects, Time Factors, Tumor Necrosis Factor-alpha analysis, Batrachoidiformes, Fish Venoms pharmacology, Fish Venoms toxicity, Inflammation chemically induced
Abstract

The Thalassophryne nattereri fish venom induces a severe burning pain, oedema, and necrosis observed both clinically and experimentally. The present study was carried out in order to describe the pattern of local acute inflammatory response after T. nattereri venom injection. Our findings show that the edematogenic response induced by T. nattereri venom in footpad of mice was dose- and time dependent, and remained significantly elevated over 48 h after injection. Analysis of footpad homogenates were tested for the presence of TNF-alpha, IL-1beta and IL-6, and demonstrated augmented levels of these cytokines. Our results showed that the injection of venom developed an inadequate cellular inflammatory response evidenced by poor infiltration of mononuclear cells, preceded by decreased number of these cells in peripheral blood. In contrast, we observed an early intense recruitment of neutrophil to peritoneal cavity, accompanied by a significant decrease in the number of mononuclear cells. A drastic increase in the total amount of cells, mainly in neutrophils, followed by mononuclear cell recruitment was observed 24 h. In addition, we also demonstrated that T. nattereri venom affects the viability of mononuclear cells (J774A1) in culture. We conclude that the scarcity of inflammatory cellular influx into local lesions (intraplantar) induced by T. nattereri venom could be a consequence of an impaired blood flow in venules at injured tissue and cytotoxic effect of the venom on inflammatory cells can contribute to this impairment.

Published
2003
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