A comparative study of biological activities of crotoxin and CB fraction of venoms from Crotalus durissus terrificus, Crotalus durissus cascavella and Crotalus durissus collilineatus (original) (raw)
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Biological and Proteolytic Variation in the Venom of Crotalus scutulatus scutulatus from Mexico
Toxins, 2018
Rattlesnake venoms may be classified according to the presence/absence and relative abundance of the neurotoxic phospholipases A 2 s (PLA 2 s), such as Mojave toxin, and snake venom metalloproteinases (SVMPs). In Mexico, studies to determine venom variation in Mojave Rattlesnakes () are limited and little is known about the biological and proteolytic activities in this species. Tissue (34) and venom (29) samples were obtained from from different locations within their distribution in Mexico. Mojave toxin detection was carried out at the genomic (by PCR) and protein (by ELISA) levels for all tissue and venom samples. Biological activity was tested on representative venoms by measuring LD 50 and hemorrhagic activity. To determine the approximate amount of SVMPs, 15 venoms were separated by RP-HPLC and variation in protein profile and proteolytic activity was evaluated by SDS-PAGE ( = 28) and Hide Powder Azure proteolytic analysis ( = 27). Three types of venom were identified in Mexico...
The snake venomic of Crotalus durissus terrificus was analyzed by 2-D and 1-D electrophoresis and subsequent MS/MS and enzymatic assays. The venomic of the South American rattlesnake comprises toxins from seven protein families: phospholipases A 2 , serine proteinases, ecto-5′-nucleotidases, metalloproteinases, nerve growth factors, phosphodiesterases, and glutaminyl cyclase. The venom toxin composition correlates with the clinical manifestation of the crotalinae snake bites and explains pathological effects of the venom such as neurotoxicity, systemic myonecrosis, hemostatic disorders, myoglobinuria, and acute renal failure. The vast majority of toxins are potentially involved in neurotoxicity, myotoxicity, and coagulopathy. The predominant venom components are neurotoxic phospholipases A 2 and serine proteinases. The venom is a rich source of 5′-nucleotidases (7.8% of the identified toxins) inducing hemostatic disorders. Analysis of the venom protein composition provided a catalogue for secreted toxins. The venomic composition of Crotalus d. terrificus and venom gland transcriptome of the synonymous subspecies Crotalus d. collilineatus show differences in the occurrence of protein families and in the abundance of toxins. Some of the venom components identified by the proteomic analysis were not reported in the transcriptome of the Crotalus d. collilineatus venom gland. Enzymatic activities of the Crotalus d. terrificus venom were determined and correlated with the proteomic composition.
Toxicon, 2013
Crotalus durissus terrificus (Cdt) venom major components comprise crotoxin, crotamine, gyroxin and convulxin. Crotamine exerts a myotoxic action, among others, but its expression varies even amid snakes from the same region. Biochemical, enzymatic and pharmacological variations of venoms may be associated with the geography, climate, gender, age, and diet, as well as captivity time and venom extraction intervals. The present study aimed to characterize the Cdt venom from the Botucatu region, (SP, Brazil), by assessing its biochemical, pharmacological and enzymatic properties. Venoms from newly captured snakes and alreadycaptured animals were characterized comparatively to verify the sexual, environmental (length of captivity) and ontogenetic variations that could influence the venom composition. Protein concentration, SDS-PAGE and RP-HPLC were performed and the coagulant, toxic (LD 50) and crotamine activities were assayed. Individual SDS-PAGE analyses (315 samples) were performed and the biological activities of the venom of 60 adults (captive and newly captured males and females) and 18 newborns were compared with the Brazilian Reference Venom. Crotamine was found in 39.7% (125/315) of the samples, as determined by SDS-PAGE and RP-HPLC. Protein concentration differed significantly between adults (75%) and newborns (60%). RP-HPLC and SDS-PAGE analyses showed highly variable protein concentration and copious crotoxin isoforms; however, the LD 50 values decreased during the captivity time. Cdt venom biological activities were similar among adult groups, but diminished during the captivity period. The current findings demonstrate that venoms vary significantly in terms activity and protein concentration, despite originating from the same specie and region.
Fast venomic analysis of Crotalus durissus terrificus from northeastern Argentina
Toxicon: X, 2020
The complete knowledge of the toxins that make up venoms is the base for the treatment of snake accidents victims and the selection of specimens for the preparation of venom pools for antivenom production. In this work, we used a fast and direct venomics approach to identify the toxin families in the C.d. terrificus venom, a Southern American Neotropical rattlesnake. The RP-HPLC separation profile of pooled venom from adult specimens followed by mass spectrometry analysis revealed that C.d. terrificus' venom proteome is composed of 12 protein families, which are unevenly distributed in the venom, e.g., there are few major proteins in the venom's composition phospholipase A 2 , serine proteinase, crotamine and L-amino acid oxidase. At the same time, the proteome analysis revealed a small set of proteins with low quantity (less than 1.5%), both enzymes (metaloprotease, phospholipase B and 5 0-nucleotidase) and proteins (Bradykinin potentiating and C-type natriuretic peptides, C-type lectin convulxin and nerve growth factor). To sum up, this research is the first venomic report of C.d.terrificus venom from Argentina. This proved to be crotamine positive venom that has a lower metalloprotease content than C.d. terrificus venoms from other regions. This information could be used in the discovery of future pharmacological agents or targets in antivenom therapy.
Toxicon, 2005
We have previously demonstrated that rabbit antisera raised against crotoxin from Crotalus durissus cascavella venom (cdccrotoxin) and its PLA 2 (cdc-PLA 2 ) neutralized the neurotoxicity of this venom and its crotoxin. In this study, we examined the ability of these antisera to neutralize the neurotoxicity of Crotalus durissus terrificus and Bothrops jararacussu venoms and their major toxins, cdt-crotoxin and bothropstoxin-I (BthTX-I), respectively, in mouse isolated phrenic nerve-diaphragm preparations. Immunoblotting showed that antiserum to cdc-crotoxin recognized cdt-crotoxin and BthTX-I, while antiserum to cdc-PLA 2 recognized cdt-PLA 2 and BthTX-I. ELISA corroborated this cross-reactivity. Antiserum to cdc-crotoxin prevented the neuromuscular blockade caused by C. d. terrificus venom and its crotoxin at a venom/crotoxin:antiserum ratio of 1:3. Antiserum to cdc-PLA 2 also neutralized the neuromuscular blockade caused by C. d. terrificus venom or its crotoxin at venom or toxin:antiserum ratios of 1:3 and 1:1, respectively. The neuromuscular blockade caused by B. jararacussu venom and BthTX-I was also neutralized by the antisera to cdc-crotoxin and cdc-PLA 2 at a venom/toxin:antiserum ratio of 1:10 for both. Commercial equine antivenom raised against C. d. terrificus venom was effective in preventing the neuromuscular blockade typical of B. jararacussu venom (venom:antivenom ratio of 1:2), whereas for BthTX-I the ratio was 1:10. These results show that antiserum produced against PLA 2 , the major toxin in C. durissus cascavella venom, efficiently neutralized the neurotoxicity of C. d. terrificus and B. jararacussu venoms and their PLA 2 toxins. q
Intraspecific Differences in the Venom of Crotalus durissus cumanensis from Colombia
Toxins
Biochemical and biological differences in the venom of Crotalus durissus cumanensis from three ecoregions of Colombia were evaluated. Rattlesnakes were collected from the geographic areas of Magdalena Medio (MM), Caribe (CA) and Orinoquía (OR). All three regionally distributed venoms contain proteases, PLA2s and the basic subunit of crotoxin. However, only crotamine was detected in the CA venom. The highest lethality, coagulant, phospholipase A2 and hyaluronidase activities were found in the MM venom. Also, some differences, observed by western blot and immunoaffinity, were found in all three venoms when using commercial antivenoms. Furthermore, all three eco-regional venoms showed intraspecific variability, considering the differences in the abundance and intensity of their components, in addition to the activity and response to commercial antivenoms.
Snake Venom Hemotoxic Enzymes: Biochemical Comparison between Crotalus Species from Central Mexico
Molecules
Snakebite envenoming is a serious medical problem in different areas of the world. In Latin America, the major prevalence is due to snakes of the family Viperidae, where rattlesnakes (Crotalus) are included. They produce hemotoxic venom which causes bleeding, tissue degradation and necrosis. Each venom has several enzymatic activities, producing different effects in the envenoming, doing its clinical effects difficult to study. Comparison between venom molecules is also difficult when different techniques are used, and therefore, their identification/characterization using the same methodology is necessary. In this work, a general biochemical characterization in snake venom of serine proteases (SVSP), phospholipases A2 (PLA2), metalloproteases (SVMP) and hyaluronidases (SVH) of Crotalus aquilus (Ca), Crotalus polystictus (Cp) and Crotalus molossus nigrescens (Cmn) was done. Differences in protein pattern, enzyme content and enzymatic activities were observed. All the venoms showed h...
Crotalus durissus venom: biological effects and relevant applications. A Review
Revista Brasileira de Higiene e Sanidade Animal, 2016
Snakes have an important biological role in the ecological chain, as well as in scientific researches performed with the venoms produced by them, since the enzyme-protein fractions these substances possess have been studied as pharmacological tools for the discovery of new therapies. Snakes of the genus Crotalus have gained significant relevance in the scientific field, since the venom produced by these reptiles has been the target of researchers in a few decades, due to the composition and the effects that these substances can produce. In Brazil, a single species represents the genus, which is Crotalus durissus. This review demonstrates that even with the advancement in scientific research on the composition, role and application of the venom produced by the subspecies of Crotalus durissus snake, it is necessary to further study their fractions and their action potential, which also demonstrates the how rich are these active components in different fields of biomedicine.
Journal of Proteomics, 2013
The composition and toxicological profile of the venom of the rattlesnake Crotalus simus in Mexico was analyzed at the subspecies and individual levels. Venoms of the subspecies C. s. simus, C. s. culminatus and C. s. tzabcan greatly differ in the expression of the heterodimeric neurotoxin complex 'crotoxin', with highest concentrations in C. s. simus, followed by C. s. tzabcan, whereas the venom of C. s. culminatus is almost devoid of this neurotoxic PLA 2. This explains the large variation in lethality (highest in C. s. simus, which also exerts higher myotoxicity). Coagulant activity on plasma and fibrinogen occurs with the venoms of C. s. simus and C. s. tzabcan, being absent in C. s. culminatus which, in turn, presents higher crotamine-like activity. Proteomic analysis closely correlates with toxicological profiles, since the venom of C. s. simus has high amounts of crotoxin and of serine proteinases, whereas the venom of C. s. culminatus presents higher amounts of metalloproteinases and crotamine. This complex pattern of intraspecies venom variation provides valuable information for the diagnosis and clinical management of envenoming by this species in Mexico, as well as for the preparation of venom pools for the production and quality control of antivenoms. Biological significance This study describes the variation in venom composition and activities of the three subspecies of Crotalus simus from Mexico. Results demonstrate that there is a notorious difference in these venoms, particularly regarding the content of the potent neurotoxic phospholipase A 2 complex 'crotoxin'. In addition, other differences were observed regarding myotoxic and coagulant activities, and expression of the myotoxin 'crotamine'. These findings have implications in, at least, three levels: (a) the adaptive role of variations in venom composition; (b) the possible differences in the clinical manifestations of envenomings by these subspecies in Mexico; and (c) the design of venom mixtures for the preparation of antivenoms effective in the neutralization of the venoms of the three subspecies.
Biochemical comparison of venoms from young Colombian Crotalus durissus cumanensis and their parents
Journal of Venomous Animals and Toxins including Tropical Diseases, 2010
Crotalus durissus cumanensis, a rattlesnake endemic to Colombia and Venezuela, is considered one of the most lethal snake species in Latin America. The aim of the present study was to compare the protein content and biological activity of the venom obtained from eight specimens of C. durissus cumanensis, namely two adults from different localities of Colombia and six offspring born in captivity. Protein profiles of crude venoms were analyzed by SDS-PAGE and RP-HPLC, and biological activities were evaluated for lethality, edema, defibrination, hemolytic and coagulant activities to assess individual venoms of adults and a pool of young snake venoms. Transient edema appeared rapidly after venom inoculation, whereas hemorrhagic effect was not observed. Differences in protein profiles, lethality, hemolytic, coagulant and defibrinating activities between both adult snake venoms were observed; those from the mother snake exhibited higher activities. Venoms from young snakes were similar to the one obtained from the mother, but the coagulant effect was stronger in offspring venoms. Notably, biological effects of the father snake venom were not comparable to those previously described for C. durissus cumanensis from Venezuela and C. durissus terrificus from Brazil, confirming the high variability of the venom from Crotalus species.