245 research outputs found
Synergism between basic Asp49 and Lys49 phospholipase A2 myotoxins of viperid snake venom in vitro and in vivo
artÃculo (arbitrado) -- Universidad de Costa Rica, Instituto de investigaciones Clodomiro Picado. 2014Two subtypes of phospholipases A2 (PLA2s) with the ability to induce myonecrosis, ‘Asp49’ and ‘Lys49’ myotoxins, often coexist in viperid snake venoms. Since the latter lack catalytic activity, two different mechanisms are involved in their myotoxicity. A synergism between Asp49 and Lys49 myotoxins from Bothrops asper was previously observed in vitro, enhancing Ca2+ entry and cell death when acting together upon C2C12 myotubes. These observations are extended for the first time in vivo, by demonstrating a clear enhancement of myonecrosis by the combined action of these two toxins in mice. In addition, novel aspects of their synergism were revealed using myotubes. Proportions of Asp49 myotoxin as low as 0.1% of the Lys49 myotoxin are sufficient to enhance cytotoxicity of the latter, but not the opposite. Sublytic amounts of
Asp49 myotoxin also enhanced cytotoxicity of a synthetic peptide encompassing the toxic region of Lys49 myotoxin. Asp49 myotoxin rendered myotubes more susceptible to osmotic lysis, whereas Lys49 myotoxin did not. In contrast to myotoxic Asp49 PLA2, an acidic non-toxic PLA2 from the same venom did not markedly synergize with Lys49 myotoxin, revealing a functional difference between basic and acidic PLA2 enzymes. It is suggested that Asp49 myotoxins synergize with Lys49 myotoxins by virtue of their PLA2 activity. In addition to the membrane-destabilizing effect of this activity, Asp49 myotoxins
may generate anionic patches of hydrolytic reaction products, facilitating electrostatic interactions with Lys49 myotoxins. These data provide new evidence for the evolutionary adaptive value of the two subtypes of PLA2 myotoxins acting synergistically in viperid venoms.Funding support by the Graduate Studies Program, Universidad de Costa Rica; International Centre for Genetic Engineering and Biotechnology, Italy (CRP/COS13-01); and Vicerrectoria de Investigacion, Universidad de Costa Rica (741-B4-100).UCR::VicerrectorÃa de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP
Effect of calcineurin inhibitors on myotoxic activity of crotoxin and Bothrops asper phospholipase A2 myotoxins in vivo and in vitro
Previous studies have shown that calcineurin activity plays a critical role in the myotoxic activity induced by crotoxin (CTX), a group II phospholipase A2 (PLA2) with neurotoxic and myotoxic actions. In order to address whether calcineurin is also important for the activity of non-neurotoxic group II PLA2 myotoxins we have compared the effects of calcineurin inhibition on the myotoxic capacity of CTX and the non-neurotoxic PLA2s, myotoxin II (Mt II) and myotoxin III (Mt III) from Bothrops asper venom. Rats were treated with cyclosporin A (CsA) or FK506, calcineurin inhibitors, and received an intramuscular injection of either CTX, Mt II or Mt III into the tibialis anterior. Animals were killed 24 h after injection of toxins. Tibialis anterior was removed and stored in liquid nitrogen. Myofibers in culture were also treated with CsA or FK506 and exposed to CTX, Mt II and Mt III. It was observed that, in contrast to CTX, CsA and FK506 do not attenuate myotoxic effects induced by both Mt II and Mt III in vivo and in vitro. The results of the present study suggest that calcineurin is not essential for the myotoxic activity of Mt II and Mt III, indicating that distinct intracellular pathways might be involved in myonecrosis induced by neurotoxic CTX and non-neurotoxic Bothrops sp. PLA2 myotoxins. Alternatively, calcineurin dependent fast fiber type shift might render the muscle resistant to the action of CTX, without affecting its susceptibility to Bothrops sp. myotoxins.Fundação de Amparo à Pesquisa do Estado de São Paulo/[03/04900-4]/FAPESP/BrasilUCR::VicerrectorÃa de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP
Envenomations by Bothrops and Crotalus Snakes Induce the Release of Mitochondrial Alarmins
Skeletal muscle necrosis is a common manifestation of viperid snakebite envenomations. Venoms from snakes of the genus Bothrops, such as that of B. asper, induce muscle tissue damage at the site of venom injection, provoking severe local pathology which often results in permanent sequelae. In contrast, the venom of the South American rattlesnake Crotalus durissus terrificus, induces a clinical picture of systemic myotoxicity, i.e., rhabdomyolysis, together with neurotoxicity. It is known that molecules released from damaged muscle might act as ‘danger’ signals. These are known as ‘alarmins’, and contribute to the inflammatory reaction by activating the innate immune system. Here we show that the venoms of B. asper and C. d. terrificus release the mitochondrial markers mtDNA (from the matrix) and cytochrome c (Cyt c) from the intermembrane space, from ex vivo mouse tibialis anterior muscles. Cyt c was released to a similar extent by the two venoms whereas B. asper venom induced the release of higher amounts of mtDNA, thus reflecting hitherto some differences in their pathological action on muscle mitochondria. At variance, injection of these venoms in mice resulted in a different time-course of mtDNA release, with B. asper venom inducing an early onset increment in plasma levels and C. d. terrificus venom provoking a delayed release. We suggest that the release of mitochondrial ‘alarmins’ might contribute to the local and systemic inflammatory events characteristic of snakebite envenomations
Cross-recognition of a pit viper (Crotalinae) polyspecific antivenom explored through high-density peptide microarray epitope mapping
Snakebite antivenom is a 120 years old invention based on polyclonal mixtures of antibodies
purified from the blood of hyper-immunized animals. Knowledge on antibody recognition
sites (epitopes) on snake venom proteins is limited, but may be used to provide molecular
level explanations for antivenom cross-reactivity. In turn, this may help guide antivenom
development by elucidating immunological biases in existing antivenoms. In this study, we
have identified and characterized linear elements of B-cell epitopes from 870 pit viper venom
protein sequences by employing a high-throughput methodology based on custom designed
high-density peptide microarrays. By combining data on antibody-peptide interactions with
multiple sequence alignments of homologous toxin sequences and protein modelling, we
have determined linear elements of antibody binding sites for snake venom metalloproteases
(SVMPs), phospholipases A2s (PLA2s), and snake venom serine proteases (SVSPs). The
studied antivenom antibodies were found to recognize linear elements in each of the three
enzymatic toxin families. In contrast to a similar study of elapid (non-enzymatic) neurotoxins,
these enzymatic toxins were generally not recognized at the catalytic active site responsible
for toxicity, but instead at other sites, of which some are known for allosteric inhibition or for
interaction with the tissue target. Antibody recognition was found to be preserved for several
minor variations in the protein sequences, although the antibody-toxin interactions could
often be eliminated completely by substitution of a single residue. This finding is likely to have
large implications for the cross-reactivity of the antivenom and indicate that multiple different
antibodies are likely to be needed for targeting an entire group of toxins in these recognized
sites.Novo Nordisk Foundation/[NNF13OC0005613]/NNF/DinamarcaNovo Nordisk Foundation/[NNF16OC0019248]/NNF/DinamarcaUCR::VicerrectorÃa de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP
A percepção de professores de escolas públicas de Educação Infantil
Este artigo apresenta os resultados da pesquisa acerca da percepção dos professores quanto às expectativas e às necessidades da Educação Infantil em escolas públicas do Distrito Federal. Foi utilizado o método qualitativo, instrumentado pelo questionário. Concluiu-se que os professores estavam preparados para a docência e satisfeitos com a profissão escolhida. A realização do diagnóstico inicial da turma foi uma das dificuldades destacadas pelos professores, que acreditam que as relações interpessoais harmônicas entre professores, diretores, coordenadores, pais e alunos determinam a qualidade do trabalho pedagógico. Espera-se, com este trabalho, contribuir para que haja mais reflexão acerca do ensino na Educação Infantil
Delayed oral LY333013 rescues mice from highly neurotoxic, lethal doses of Papuan Taipan (Oxyuranus scutellatus) venom
There is an unmet need for economical snakebite therapies with long shelf lives
that are effective even with delays in treatment. The orally bioavailable, heat-stable, secretory
phospholipase A2 (sPLA2) inhibitor, LY333013, demonstrates antidotal characteristics for severe
snakebite envenoming in both field and hospital use. A murine model of lethal envenoming
by a Papuan taipan (Oxyuranus scutellatus) demonstrates that LY333013, even with delayed oral
administration, improves the chances of survival. Furthermore, LY333013 improves the performance
of antivenom even after it no longer reverses neurotoxic signs. Our study is the first demonstration
that neurotoxicity from presynaptic venom sPLA2S can be treated successfully, even after the window
of therapeutic antivenom has closed. These results suggest that sPLA2 inhibitors have the potential
to reduce death and disability and should be considered for the initial and adjunct treatment of
snakebite envenoming. The scope and capacity of the sPLA2 inhibitors ability to achieve these
endpoints requires further investigation and development effortsUCR::VicerrectorÃa de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP)UCR::VicerrectorÃa de Docencia::Salud::Facultad de MicrobiologÃ
Snake population venomics and antivenomics of bothrops atrox: paedomorphism along its transamazonian dispersal and implications of geographic venom variability of snakebite mangement
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