Intraspecific venom variation of Mexican West Coast Rattlesnakes (Crotalus basiliscus) and its implications for antivenom production

14 páginas, 9 figuras, 3 tablasIntraspecific variation in snake venoms has been widely documented worldwide. However, there are few studies on this subject in Mexico. Venom characterization studies provide important data used to predict clinical syndromes, to evaluate the efficacy of antivenoms and, in some cases, to improve immunogenic mixtures in the production of antivenoms. In the present work, we evaluated the intraspecific venom variation of Crotalus basiliscus, a rattlesnake of medical importance and whose venom is used in the immunization of horses to produce one of the Mexican antivenoms. Our results demonstrate that there is variation in biological and biochemical activities among adult venoms and that there is an ontogenetic change from juvenile to adult venoms. Juvenile venoms were more lethal and had higher percentages of crotamine and crotoxin, while adult venoms had higher percentages of snake venom metalloproteases (SVMPs). Additionally, we documented crotoxin-like PLA2 variation in which specimens from Zacatecas, Sinaloa and Michoacán (except 1) lacked the neurotoxin, while the rest of the venoms had it. Finally, we evaluated the efficacy of three lots of Birmex antivenom and all three were able to neutralize the lethality of four representative venoms but were not able to neutralize crotamine. We also observed significant differences in the LD50 values neutralized per vial among the different lots. Based on these results, we recommend including venoms containing crotamine in the production of antivenom for a better immunogenic mixture and to improve the homogeneity of lots.This study was financially supported by DGAPA-PAPIIT (project IN211621), CONACYT (project264255); FORDECYT PRONACE (project 1715618/2020), FORDECYT (project 303045), Clemson University and the National Science Foundation (DEB 1822417) to CLP.Peer reviewe

Biological and proteolytic variation in the venom of Crotalus scutulatus scutulatus from Mexico

Rattlesnake venoms may be classified according to the presence/absence and relative abundance of the neurotoxic phospholipases A2s (PLA2s), such as Mojave toxin, and snake venom metalloproteinases (SVMPs). In Mexico, studies to determine venom variation in Mojave Rattlesnakes (Crotalus scutulatus scutulatus) are limited and little is known about the biological and proteolytic activities in this species. Tissue (34) and venom (29) samples were obtained from C. s. scutulatus 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 LD50 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 (n = 28) and Hide Powder Azure proteolytic analysis (n = 27). Three types of venom were identified in Mexico which is comparable to the intraspecific venom diversity observed in the Sonoran Desert of Arizona, USA: Venom Type A ( Type II), with Mojave toxin, highly toxic, lacking hemorrhagic activity, and with scarce proteolytic activity; Type B ( Type I), without Mojave toxin, less toxic than Type A, highly hemorrhagic and proteolytic; and Type A + B, containing Mojave toxin, as toxic as venom Type A, variable in hemorrhagic activity and with intermediate proteolytic activity. We also detected a positive correlation between SVMP abundance and hemorrhagic and proteolytic activities. Although more sampling is necessary, our results suggest that venoms containing Mojave toxin and venom lacking this toxin are distributed in the northwest and southeast portions of the distribution in Mexico, respectively, while an intergradation in the middle of both zones is presentConsejo Nacional de Ciencia y Tecnologia/[221343]/CONACYT/MéxicoUCR::Vicerrectoría de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP)UCR::Vicerrectoría de Docencia::Salud::Facultad de Microbiologí

Neotropical Rattlesnake (Crotalus simus) Venom Pharmacokinetics in Lymph and Blood Using an Ovine Model

The most abundant protein families in viper venoms are Snake Venom Metalloproteases (SVMPs), Snake Venom Serine Proteases (SVSPs) and Phospholipases (PLA2s). These are primarily responsible for the pathophysiology caused by the bite of pit-vipers; however, there are few studies that analyze the pharmacokinetics (PK) of whole venom (WV) and its protein families. We studied the pathophysiology, PK profile and differential absorption of representative toxins from venom of Neotropical Rattlesnake (Crotalus simus) in a large animal model (ovine). Toxins studied included crotoxin (the main lethal component), which causes moderate to severe neurotoxicity; SVSPs, which deplete fibrinogen; and SVMPs, which cause local tissue damage and local and systemic hemorrhage. We found that Whole Venom (WV) was highly bioavailable (86%) 60 h following intramuscular (IM) injection, and extrapolation suggests that bioavailability may be as high as 92%. PK profiles of individual toxins were consistent with their physicochemical properties and expected clinical effects. Lymph cannulated animals absorbed 1.9% of WV through lymph during the first 12 h. Crotoxin was minimally detectable in serum after intravenous (IV) injection; however, following IM injection it was detected in lymph but not in blood. This suggests that crotoxin is quickly released from the blood toward its tissue targets

Comparative Analysis of Alpha-1 Orthosteric-Site Binding by a Clade of Central American Pit Vipers (Genera <i>Atropoides, Cerrophidion, Metlapilcoatlus</i>, and <i>Porthidium</i>)

The distribution and relative potency of post-synaptic neurotoxic activity within Crotalinae venoms has been the subject of less investigation in comparison with Elapidae snake venoms. No previous studies have investigated post-synaptic neurotoxic activity within the Atropoides, Metlapilcoatlus, Cerrophidion, and Porthidium clade. Given the specificity of neurotoxins to relevant prey types, we aimed to uncover any activity present within this clade of snakes that may have been overlooked due to lower potency upon humans and thus not appearing as a clinical feature. Using biolayer interferometry, we assessed the relative binding of crude venoms to amphibian, lizard, bird, rodent and human α-1 nAChR orthosteric sites. We report potent alpha-1 orthosteric site binding in venoms from Atropoides picadoi, Metlapilcoatlus occiduus, M. olmec, M. mexicanus, M. nummifer. Lower levels of binding, but still notable, were evident for Cerrophidion godmani, C. tzotzilorum and C. wilsoni venoms. No activity was observed for Porthidium venoms, which is consistent with significant alpha-1 orthosteric site neurotoxicity being a trait that was amplified in the last common ancestor of Atropoides/Cerrophidion/Metlapilcoatlus subsequent to the split by Porthidium. We also observed potent taxon-selective activity, with strong selection for non-mammalian targets (amphibian, lizard, and bird). As these are poorly studied snakes, much of what is known about them is from clinical reports. The lack of affinity towards mammalian targets may explain the knowledge gap in neurotoxic activity within these species, since symptoms would not appear in bite reports. This study reports novel venom activity, which was previously unreported, indicating toxins that bind to post-synaptic receptors may be more widespread in pit vipers than previously considered. While these effects appear to not be clinically significant due to lineage-specific effects, they are of significant evolutionary novelty and of biodiscovery interest. This work sets the stage for future research directions, such as the use of in vitro and in vivo models to determine whether the alpha-1 orthosteric site binding observed within this study confers neurotoxic venom activity

Biological And Proteolytic Variation In The Venom Of Crotalus Scutulatus Scutulatus From Mexico

Rattlesnake venoms may be classified according to the presence/absence and relative abundance of the neurotoxic phospholipases A2s (PLA2s), such as Mojave toxin, and snake venom metalloproteinases (SVMPs). In Mexico, studies to determine venom variation in Mojave Rattlesnakes (Crotalus scutulatus scutulatus) are limited and little is known about the biological and proteolytic activities in this species. Tissue (34) and venom (29) samples were obtained from C. s. scutulatus 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 LD50 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 (n = 28) and Hide Powder Azure proteolytic analysis (n = 27). Three types of venom were identified in Mexico which is comparable to the intraspecific venom diversity observed in the Sonoran Desert of Arizona, USA: Venom Type A (∼Type II), with Mojave toxin, highly toxic, lacking hemorrhagic activity, and with scarce proteolytic activity; Type B (∼Type I), without Mojave toxin, less toxic than Type A, highly hemorrhagic and proteolytic; and Type A + B, containing Mojave toxin, as toxic as venom Type A, variable in hemorrhagic activity and with intermediate proteolytic activity. We also detected a positive correlation between SVMP abundance and hemorrhagic and proteolytic activities. Although more sampling is necessary, our results suggest that venoms containing Mojave toxin and venom lacking this toxin are distributed in the northwest and southeast portions of the distribution in Mexico, respectively, while an intergradation in the middle of both zones is present

Intraspecies variation in the venom of the rattlesnake Crotalus simus from Mexico: Different expression of crotoxin results in highly variable toxicity in the venoms of three subspecies

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 PLA2. 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 venomof C. s. culminatus presents higher amounts of metalloproteinases and crotamine. This complex pattern of intraspecies venom variation provides valuable information for the diagnosis and clinicalmanagement 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 venomcomposition and activities of the three subspecies of Crotalus simus fromMexico. Results demonstrate that there is a notorious difference in these venoms, particularly regarding the content of the potent neurotoxic phospholipase A2 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.Consejo Nacional de Rectores//CONARE/Costa RicaUniversidad de Costa Rica/[741-B2-652]/UCR/Costa RicaConsejo Nacional de Ciencia y Tecnología//CONACyT/MéxicoUCR::Vicerrectoría de Investigación::Unidades de Investigación::Ciencias de la Salud::Instituto Clodomiro Picado (ICP

Conocimiento etnoherpetológico de dos comunidades aledañas a la reserva estatal sierra de montenegro, Morelos, México

La fauna silvestre aporta a las comunidades campesinas de México satisfactores como carne, huevos o estructuras anatómicas para la elaboración de artesanías y servicios ambientales que garantizan su bienestar social. El objetivo del presente trabajo fue analizar el conocimiento etnoherpetológico en dos comunidades aledañas a la Reserva Estatal Sierra de Montenegro, Morelos. Se utilizaron técnicas etnozoológicas: entrevistas abiertas y se aplicaron 105 cuestionarios semi-estructurados a hombres y mujeres. Para la identificación de las especies se llevaron a cabo recorridos guiados con el apoyo de expertos naturalistas locales. Los informantes reconocen 32 especies herpetofaunísticas, de las cuales 15 (48%) presentan valor cultural y, de éstas, 9 (29%) tienen lossiguientes valores de uso: alimento, medicinal, ornamental y mascota. Las especies de anfibios más conocidas fueron el sapo (Rhinella marina) y la rana (Lithobates zweifeli), utilizados como medicina y alimento. Ya para los reptiles, la iguana negra (Ctenosaura pectinata) como alimento, medicina y mascota; la víbora de cascabel (Crotalus culminatus) como alimento, medicina, ornamento y mascota; y el tilcuate (Drymarchon melanurus) en relatos. Los habitantes poseen conocimiento acerca de anfibios y reptiles, reflejado en las formas de manejo y uso y en la manera en que los perciben, así como creencias, cuentos y relatos. Los habitantes identifican hábitos de las diferentes especies, así como aquellas venenosas y no venenosas. Los estudios etnoherpetológicos aportanelementos factibles de ser integrados a planes de manejo y conservación de la herpetofauna

Venomics and biochemical analysis of the black-tailed horned pitviper, Mixcoatlus melanurus, and characterization of Melanurutoxin, a novel crotoxin homolog

11 páginas, 6 figuras y 2 yablas. Se puede consultar información complementaria en: https:// doi.org/10.1016/j.jprot.2020.103865.We report a structural and functional venomics characterization of the black-tailed horned pitviper, Mixcoatlus melanurus. The venom phenotype of this small and elusive pitviper endemic to México comprise peptides and proteins of 16 toxin families whose relative abundance mirror those of neurotoxic (type II) venoms described for some species within genera distributed in Central Asia (Gloydius) and the Americas (Sistrurus, Crotalus, Ophryacus, and Bothriechis). A novel β-neurotoxic heterodimeric PLA2, termed Melanurutoxin was characterized. With a relative abundance of 14.8% of the total M. melanurus venom proteome and a median lethal dose of 0.31 μg/g mouse body weight, Melanurutoxin accounted for 37.8% of the lethality of the whole venom (0.82 μg/g). The low percentage (1.1%) of snake venom metalloproteinases (PIII-SVMPs) and the high content of Melanurutoxin and bradykinin-potentiating peptides (BPP, 16%) found in the type-II venom proteome of M. melanurus correlate with the severe hypotension and neurotoxicity leading to neuromuscular blockade, flaccid paralysis and respiratory arrest observed in ex vivo neuromuscular junction experiments and in vivo experimental murine envenoming. Mexican antivenoms manufactured by Birmex and Bioclon showed low neutralization potency per vial (95 LD50s, Birmex; 114 LD50s, Antivipmyn®), and failed to reverse completely the paralysis and the hypotensive effect induced by the black-tailed horned pitviper, Mixcoatlus melanurus. We suggest that the impaired ability of these antivenoms to neutralize the neurotoxicity of M. melanurus venom may be attributed to the use of immunization mixtures that include venom of taxa, C. basiliscus (Birmex) and C. simus (Antivipmyn®), that contain only small amounts of Melanurutoxin-like β-neurotoxic heterodimeric PLA2s. BIOLOGICAL SIGNIFICANCE: This study represents the first proteomics and funcional investigations conducted on the venom of the black-tailed horned, Mixcoatlus melanurus, a pitviper species endemic to México. The venom's features unveiled through combination of bottom-up venomics and ex vivo and in vivo functional assays provided complementary evidence pointing to severe hypotension and neurotoxicity leading to neuromuscular blockade, flaccid paralysis and respiratory arrest as the predominant mechanism of murine prey immobilization and death caused by M. melanurus. A novel β-neurotoxic heterodimeric PLA2, coined Melanurutoxin, was identified as a major contributor to the lethality of the whole venom. Our study also showed the inefficacy of two commercial Mexican antivenoms to reverse competely the paralytic and hypotensive effects induced by M. melanurus venom in the murine model. We hypothesize that the impaired ability of these antivenoms to neutralize the neurotoxicity of M. melanurus venom should be ascribed to the use as immunogens of venoms that contain only small amounts of Melanurutoxin-like β-neurotoxic heterodimeric PLA2s.This research was partly funded by grant BFU2017-89103-P (Ministerio de Ciencia, Innovación y Universidades, Madrid, Spain), grants PAPIIT-DGAPA IN207218 and CONACyT-FORjDECYT No. 303045 (“Venenos y Antivenenos”).Peer reviewe

Accessing cryptic diversity in Neotropical rattlesnakes (Serpentes: Viperidae: Crotalus) with the description of two new species

Carbajal-Márquez, Rubén Alonso, Cedeño-Vázquez, José Rogelio, Martínez-Arce, Arely, Neri-Castro, Edgar, Machkour- M'Rabet, Salima C. (2020): Accessing cryptic diversity in Neotropical rattlesnakes (Serpentes: Viperidae: Crotalus) with the description of two new species. Zootaxa 4729 (4): 451-481, DOI: 10.11646/zootaxa.4729.4.

cDNA cloning, heterologous expression, protein folding and immunogenic properties of a phospholipase A2 from Bothrops ammodytoides venom

A mRNA transcript that codes for a phospholipase (PLA2) was isolated from a single venom gland of the Bothrops ammodytoides viper. The PLA2 transcript was cloned onto a pCR®2.1-TOPO vector and subsequently expressed heterologously in the E. coli strain M15, using the pQE30 vector. The recombinant phospholipase was named rBamPLA2_1, and is composed of an N-terminal fusion protein of 16 residues, along with 122 residues from the mature protein that includes 14 cysteines that form 7 disulfide bonds. Following bacterial expression, rBamPLA2_1 was obtained from inclusion bodies and extracted using a chaotropic agent. rBamPLA2_1 had an experimental molecular mass of 15,692.5 Da that concurred with its theoretical molecular mass. rBamPLA2_1 was refolded in in vitro conditions and after refolding, three main protein fractions with similar molecular masses, were identified. Although, the three fractions were considered to represent different oxidized cystine isoforms, their secondary structures were comparable. All three recombinant isoforms were active on egg-yolk phospholipid and recognized similar cell membrane phospholipids to be native PLA2s, isolated from B. ammodytoides venom. A mixture of the three rBamPLA2_1 cystine isoforms was used to immunize a horse in order to produce serum antibodies (anti-rBamPLA2_1), which partially inhibited the indirect hemolytic activity of B. ammodytoides venom. Although, anti-rBamPLA2_1 antibodies were not able to recognize crotoxin, a PLA2 from the venom of a related but different viper genus, Crotalus durissus terrificus, they recognized PLA2s in other venoms from regional species of Bothrops.Fil: Clement, Herlinda. Universidad Nacional Autónoma de México. Instituto de Biotecnología; México. Universidad Autónoma del Estado de Morelos; MéxicoFil: Corzo, Gerardo. Universidad Nacional Autónoma de México. Instituto de Biotecnología; MéxicoFil: Neri Castro, Edgar. Universidad Nacional Autónoma de México. Instituto de Biotecnología; MéxicoFil: Arenas, Ivan. Universidad Nacional Autónoma de México. Instituto de Biotecnología; MéxicoFil: Hajos, Silvia Elvira. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Houssay. Instituto de Estudios de la Inmunidad Humoral Prof. Ricardo A. Margni. Universidad de Buenos Aires. Facultad de Farmacia y Bioquímica. Instituto de Estudios de la Inmunidad Humoral Prof. Ricardo A. Margni; ArgentinaFil: de Roodt, Adolfo Rafael. Dirección Nacional de Instituto de Investigación. Administración Nacional de Laboratorio e Instituto de Salud "Dr. C. G. Malbrán"; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; ArgentinaFil: Villegas, Elba. Universidad Autónoma del Estado de Morelos; Méxic