The zebrafish as a potential model for vaccine and adjuvant development.

INTRODUCTION: Zebrafishes represent a proven model for human diseases and systems biology, exhibiting physiological and genetic similarities and having innate and adaptive immune systems. However, they are underexplored for human vaccinology, vaccine development, and testing. Here we summarize gaps and challenges. AREAS COVERED: Zebrafish models have four potential applications: 1) Vaccine safety: The past successes in using zebrafishes to test xenobiotics could extend to vaccine and adjuvant formulations for general safety or target organs due to the zebrafish embryos' optical transparency. 2) Innate immunity: The zebrafish offers refined ways to examine vaccine effects through signaling via Toll-like or NOD-like receptors in zebrafish myeloid cells. 3) Adaptive immunity: Zebrafishes produce IgM, IgD,and two IgZ immunoglobulins, but these are understudied, due to a lack of immunological reagents for challenge studies. 4) Systems vaccinology: Due to the availability of a well-referenced zebrafish genome, transcriptome, proteome, and epigenome, this model offers potential here. EXPERT OPINION: It remains unproven whether zebrafishes can be employed for testing and developing human vaccines. We are still at the hypothesis-generating stage, although it is possible to begin outlining experiments for this purpose. Through transgenic manipulation, zebrafish models could offer new paths for shaping animal models and systems vaccinology.

Live imaging of microglia during sleeping sickness reveals early and heterogeneous inflammatory responses.

Introduction: Invasion of the central nervous system (CNS) is the most serious consequence of Trypanosoma brucei infection, which causes sleeping sickness. Recent experimental data have revealed some more insights into the disease during the meningoencephalitic stage. However, detailed cellular processes befalling the CNS during the disease are poorly understood. Methods: To further address this issue, we implanted a cranial window on the cortex of B6.129P2(Cg)-Cx3cr1tm1Litt/J mice, infected them with Trypanosoma brucei expressing RFP via intraperitoneal injection, and monitored microglial cells and parasites longitudinally over 30 days using in vivo 2-photon imaging. We correlated the observed changes with histological analyses to evaluate the recruitment of peripheral immune cells. Results and discussion: We uncovered an early involvement of microglia that precedes invasion of the CNS by the parasite. We accomplished a detailed characterization of the progressive sequence of events that correlates with microglial morphological changes and microgliosis. Our findings unveiled a heterogeneous microglial response in places of initial homeostatic disruption near brain barriers and pointed out an exceptional capability of microglia to hamper parasite proliferation inside the brain. We also found early signs of inflammation in the meninges, which synchronize with the microglial response. Moreover, we observed a massive infiltration of peripheral immune cells into the parenchyma as a signature in the final disease stage. Overall, our study provides new insights into the host-pathogen immune interactions in the meningeal and parenchymal compartments of the neocortex.

KBE009: A Bestatin-Like Inhibitor of the Trypanosoma cruzi Acidic M17 Aminopeptidase with In Vitro Anti-Trypanosomal Activity.

Chagas disease, caused by the kinetoplastid parasite Trypanosoma cruzi, is a human tropical illness mainly present in Latin America. The therapies available against this disease are far from ideal. Proteases from pathogenic protozoan have been considered as good drug target candidates. T. cruzi acidic M17 leucyl-aminopeptidase (TcLAP) mediates the major parasite's leucyl-aminopeptidase activity and is expressed in all parasite stages. Here, we report the inhibition of TcLAP (IC50 = 66.0 ± 13.5 µM) by the bestatin-like peptidomimetic KBE009. This molecule also inhibited the proliferation of T. cruzi epimastigotes in vitro (EC50 = 28.1 ± 1.9 µM) and showed selectivity for the parasite over human dermal fibroblasts (selectivity index: 4.9). Further insight into the specific effect of KBE009 on T. cruzi was provided by docking simulation using the crystal structure of TcLAP and a modeled human orthologous, hLAP3. The TcLAP-KBE009 complex is more stable than its hLAP3 counterpart. KBE009 adopted a better geometrical shape to fit into the active site of TcLAP than that of hLAP3. The drug-likeness and lead-likeness in silico parameters of KBE009 are satisfactory. Altogether, our results provide an initial insight into KBE009 as a promising starting point compound for the rational design of drugs through further optimization.

Qualitative and Quantitative Study of the Changes in the Ultrastructure of Mammalian Adrenal Cortex Caused by the Venezuelan Tigra Mariposa (Bothrops venezuelensis) Snake Venom.

The damage of the adrenal gland by snake venoms needs to be clarified. Lethality (LD50) of Bothrops venezuelensis (Bv) venom was established by intraperitoneally mice injections. Preparation of specimens for transmission electron microscopy samples from cortex adrenal gland biopsies at 3, 6, and 24 h was processed. The quantitative description by the principal component analysis (PCA) of the adrenal gland was as follows: thickening of the capillary endothelium, area of the capillary lumen, cell nucleus area, enlargement of the perinuclear space, number of mitochondria, area of the mitochondria, number of mitochondrial cristae, number of cristae per mitochondrial unit, and tubular diameter of the smooth endoplasmic reticulum (SER). Sections of the adrenal cortex, after 3 h postinjection with Bv venom showed in the cortical cells: mitochondria with tubular cristae and slightly swollen SER cisternae, nucleus with variable heterochromatin content, irregular edges, and swollen nuclear envelope. After 6 h, cells with swollen nucleus envelope, electron dense lipids and mitochondria with loss of their cristae were observed. Myelin figures, close to the microvilli of the cortical cell, multivesicular bodies, swollen profiles of the SER, and electron dense lipid drops were noticed. After 24 h, thickening of the endothelial wall, fenestrae and projections into the capillary lumen, loss of the mitochondrial cristae, destruction of the capillary and the plasma membrane of the cortical cell, multivesicular body, SER loss, and an enlargement of the perinuclear space were detected. In the quantitative PCA, there were significant changes after the venom treatments.

Assessment of Parasite-Microglia Interactions In Vitro.

An extensive number of parasites are able to invade the central nervous system (CNS) and cause a plethora of pathologies. Microglia, the resident macrophages of nervous tissue, are responsible for the protection against intruders, and therefore, they are an important line of defense against parasites. The phagocytosis is one of the weapons in the microglia's arsenal to fight against parasites. Several prior studies of microglia-parasite interactions and phagocytosis have been performed using microscopic techniques. As this methodology allows only a limited number of cells to be analyzed, additional approaches are required to provide a more complete picture of how microglia interact with these pathogens. Here, we describe a protocol based on flow cytometry to analyze single-celled parasites/microglia interactions in thousands of events in an accurate and reliable way. We use Trypanosoma brucei as a model organism, as it is a well-known parasite causing primary meningoencephalitis. However, the interaction/phagocytosis assay can be applied to other single-celled parasites as well.

Healthy Brain Aging Modifies Microglial Calcium Signaling In Vivo.

Brain aging is characterized by a chronic, low-grade inflammatory state, promoting deficits in cognition and the development of age-related neurodegenerative diseases. Malfunction of microglia, the brain-resident immune cells, was suggested to play a critical role in neuroinflammation, but the mechanisms underlying this malfunctional phenotype remain unclear. Specifically, the age-related changes in microglial Ca2+ signaling, known to be linked to its executive functions, are not well understood. Here, using in vivo two-photon imaging, we characterize intracellular Ca2+ signaling and process extension of cortical microglia in young adult (2⁻4-month-old), middle-aged (9⁻11-month-old), and old (18⁻21-month-old) mice. Our data revealed a complex and nonlinear dependency of the properties of intracellular Ca2+ signals on an animal's age. While the fraction of cells displaying spontaneous Ca2+ transients progressively increased with age, the frequencies and durations of the spontaneous Ca2+ transients followed a bell-shaped relationship, with the most frequent and largest Ca2+ transients seen in middle-aged mice. Moreover, in old mice microglial processes extending toward an ATP source moved faster but in a more disorganized manner, compared to young adult mice. Altogether, these findings identify two distinct phenotypes of aging microglia: a reactive phenotype, abundantly present in middle-aged animals, and a dysfunctional/senescent phenotype ubiquitous in old mice.

Rhinella marina oocytes: a suitable alternative expression system for functional characterization of aquaglyceroporins.

Amphibian oocytes have been extensively used for heterologous expression of membrane proteins for studying their biochemical and biophysical properties. So far, Xenopus laevis is the main amphibian used as oocytes source to express aquaglyceroporins in order to assess water and solutes permeability. However, this well-established amphibian model represents a threat to the biodiversity in many countries, especially in those from tropical regions. For that reason, the import of Xenopus laevis is subjected to strict control, which essentially has restricted its use in these regions. Therefore, a wider variety of expression systems for aquaglyceroporins is needed. Rhinella marina is extensively distributed in the Americas and its native range spreads from South America to Texas, US. Here we report the use of Rhinella marina oocytes as an alternative expression system for aquaglyceroporins and demonstrated its suitability to determine the permeability to water and non-ionic solutes. Rhinella marina oocytes were able to functionally express channels from human and the protozoan pathogen Trypanosoma brucei, two very distant organisms on the evolutionary scale. Permeability values obtained from Rhinella marina oocytes expressing members of aquaporin family were similar and comparable to those values reported in the literature for the same channels expressed in Xenopus laevis oocytes.

Trypanosoma brucei aquaglyceroporins mediate the transport of metabolic end-products: Methylglyoxal, D-lactate, L-lactate and acetate.

Bloodstream forms of Trypanosoma (T.) brucei, the causative agent of African sleeping sickness, possess a highly active glycolysis, which generates as main end-products: pyruvate under aerobic conditions, and pyruvate and glycerol under anaerobic conditions. To secrete them into the extracellular milieu, the parasites have at least two main specific membrane proteins, the pyruvate transporter and the aquaglyceroporins However, there are several other minor products from the glycolysis that must be excreted by the parasites and whose exit pathway until now remained elusive. As aquaglyceroporins from T. brucei (TbAQP1, 2, and 3) show a wide permeability profile for small solutes, we decided to evaluate if these proteins allow the passage of methylglyoxal, L-lactate, D-lactate and acetate molecules. We expressed heterologously TbAQP1, 2, and 3 in aquaglyceroporin-null yeast cells or in Xenopus laevis oocytes and demonstrated that these channels are permeable for methylglyoxal, L-lactate, D-lactate and acetate. We further demonstrate that methylglyoxal is highly toxic for bloodstream forms of T. brucei, while L-lactate and D-lactate appear almost harmless. Additionally, we discuss all our findings in the light of the novel metabolic discoveries, putting in context the participation of TbAQP1, 2, 3, and other proteins in the excretion of unwanted metabolic end-products.

Morphological changes, nitric oxide production, and phagocytosis are triggered in vitro in microglia by bloodstream forms of Trypanosoma brucei.

The flagellated parasite Trypanosoma brucei is the causative agent of Human African Trypanosomiasis (HAT). By a mechanism not well understood yet, trypanosomes enter the central nervous system (CNS), invade the brain parenchyma, and cause a fatal encephalopathy if is not treated. Trypanosomes are fast dividing organisms that, without any immune response, would kill the host in a short time. However, infected individuals survive either 6-12 months or more than 3 years for the acute and chronic forms, respectively. Thus, only when the brain defense collapses a lethal encephalopathy will occur. Here, we evaluated interactions between trypanosomes and microglial cells, which are the primary immune effector cells within the CNS. Using co-cultures of primary microglia and parasites, we found clear evidences of trypanosome phagocytosis by microglial cells. Microglia activation was also evident; analysis of its ultrastructure showed changes that have been reported in activated microglia undergoing oxidative stress caused by infections or degenerative diseases. Accordingly, an increase of the nitric oxide production was detected in supernatants of microglia/parasite co-cultures. Altogether, our results demonstrate that microglial cells respond to the presence of the parasite, leading to parasite's engulfment and elimination.

Intraspecies geographical variability in the South American tigra mariposa (Bothrops venezuelensis Sandner 1952) snake venom activities.

Bothrops venezuelensis snake venoms, from five localities in the North-Central Venezuelan regions, showed biochemical and haemostatic differences. In this study, bioactivities of B. venezuelensis venoms from different regions (Aragua state; Waraira Repano (Capital District); Baruta, La Boyera and Lagunetica (Miranda state)) were compared using both natural and synthetic substrates. The protein contents of these venoms were Lagunetica 89%, La Boyera 79%, Baruta 71%, Waraira Repano 68% and Aragua 64%. Toxic activities effects were: Intraperitoneal LD50s: Aragua-14 mg/kg; Waraira Repano-6.4 mg/kg; Baruta: 8.3 mg/kg; La Boyera-4.4 mg/kg; Lagunetica-16.2 mg/kg. The MHD results: Aragua-21.4 µg/mouse; Waraira Repano-2.5 µg/mouse; Baruta-1.2 µg/mouse; La Boyera-1.4 µg/mouse and Lagunetica-12 µg/mouse. The hide powder azure results: Aragua-1.24 U/mg; La Boyera-2.26 U/mg; Baruta-2.83 U/mg; Lagunetica-3.28 U/mg and Waraira Repano-5.77 U/mg. Esterase specific activity on BAEE results: Waraira Repano-666.66 U/mg; La Boyera-805.5 U/mg; Baruta-900.00 U/mg; Lagunetica-922.19 U/mg and Aragua-1960.67 U/mg. Casein zymography showed digestion bands in the molecular weight above 100 and at 66.2 and 21.5 kDa. Analysis of casein degradation by SDS-PAGE showed two different degradation patterns. Fibrinolytic activity (mm2/µg) on fibrin plates results: Aragua-6.07; Lagunetica-27.6; Waraira Repano-35.7; La Boyera-44.27 and Baruta-45.63. In the fibrinogenolytic assay, the five venoms completely degraded the α chain after 1 min of incubation. None of the venoms completely degraded the ß and γ chains after 24 h incubation. The research indicated that venoms of B. venezuelensis of different geographic areas in Venezuela exhibit variances in composition and component concentrations; except the Aragua venom, all of them had high proteolytic activities.

Aquaglyceroporins Are the Entry Pathway of Boric Acid in Trypanosoma brucei.

The boron element possesses a range of different effects on living beings. It is essential to beneficial at low concentrations, but toxic at excessive concentrations. Recently, some boron-based compounds have been identified as promising molecules against Trypanosoma brucei, the causative agent of sleeping sickness. However, until now, the boron metabolism and its access route into the parasite remained elusive. The present study addressed the permeability of T. brucei aquaglyceroporins (TbAQPs) for boric acid, the main natural boron species. To this end, the three TbAQPs were expressed in Saccharomyces cerevisiae and Xenopus laevis oocytes. Our findings in both expression systems showed that all three TbAQPs are permeable for boric acid. Especially TbAQP2 is highly permeable for this compound, displaying one of the highest conductances reported for a solute in these channels. Additionally, T. brucei aquaglyceroporin activities were sensitive to pH. Taken together, these results establish that TbAQPs are channels for boric acid and are highly efficient entry pathways for boron into the parasite. Our findings stress the importance of studying the physiological functions of boron and their derivatives in T. brucei, as well as the pharmacological implications of their uptake by trypanosome aquaglyceroporins.

Expression, purification, and analysis of three recombinant ECD disintegrins (r-colombistatins) from P-III class snake venom metalloproteinases affecting platelet aggregation and SK-MEL-28 cell adhesion.

Crotalid venoms are rich sources of components that affect the hemostatic system. Snake venom metalloproteinases are zinc-dependent enzymes responsible for hemorrhage that also interfere with hemostasis. The disintegrin domain is a part of snake venom metalloproteinases, which involves the binding of integrin receptors. Integrins play an essential role in cancer survival and invasion, and they have been major targets for drug development and design. Both native and recombinant disintegrins have been widely investigated for their anti-cancer activities in biological systems as well as in vitro and in vivo systems. Here, three new cDNAs encoding ECD disintegrin-like domains of metalloproteinase precursor sequences obtained from a Venezuelan mapanare (Bothrops colombiensis) venom gland cDNA library have been cloned. Three different N- and C-terminal truncated ECD disintegrin-like domains of metalloproteinases named colombistatins 2, 3, and 4 were amplified by PCR, cloned into a pGEX-4T-1 vector, expressed in Escherichia coli BL21, and tested for inhibition of platelet aggregation and inhibition of adhesion of human skin melanoma (SK-Mel-28) cancer cell lines on collagen I. Purified recombinant colombistatins 2, 3, and 4 were able to inhibit ristocetin- and collagen-induced platelet aggregation. r-Colombistatins 2 showed the most potent inhibiting SK-Mel-28 cancer cells adhesion to collagen. These results suggest that colombistatins may have utility in the development of therapeutic tools in the treatment of melanoma cancers and also thrombotic diseases.

The characterization of trans-pecos copperhead (Agkistrodon contortrix pictigaster) venom and isolation of two new dimeric disintegrins.

The vast amounts of toxins within the venom of snakes, while known to cause medical emergencies, display various biological functions. Trans-pecos copperhead (Agkistrodon contortrix pictigaster) crude venom separated by cation-exchange chromatography showed several fractions with fibrinolytic, hemorrhagic, gelatinase and platelet activities. Venom fractions 1, 2, 4, 5, and 12-17 contained fibrinolytic activity. Venom fractions 1, 2, 5 and 12-14 had hemorrhagic activity. Fractions 1, 2, 12, 13 and 17 contained gelatinase activity. Reverse-Phase C18 High Performance Liquid Chromatography was also used to purify and isolated disintegrins from this venom. Anti-platelet aggregation activity of the C18 fractions collected and performed on whole human blood showed that they inhibited platelet aggregation in presence of several agonists. Results from both SDS-PAGE and N-terminal sequencing determined that pictistatin 1 obtained from the Trans-Pecos copperhead venom was a dimeric disintegrin, and pictistatin 2 was a heterodimeric disintegrin. The molecules with anti-platelet activity could be considered in the development of more effective drugs, for numerous blood-related diseases such as stroke, heart attacks, thrombosis, and other medical conditions. In this study, we are presenting the first report of the purification, isolation, and partial characterization of two new dimeric disintegrins isolated from the venom of trans-pecos copperhead.

Gene expression profiling of the venom gland from the Venezuelan mapanare (Bothrops colombiensis) using expressed sequence tags (ESTs).

BACKGROUND: Bothrops colombiensis is a highly dangerous pit viper and responsible for over 70% of snakebites in Venezuela. Although the composition in B. colombiensis venom has been identified using a proteome analysis, the venom gland transcriptome is currently lacking. RESULTS: We constructed a cDNA library from the venom gland of B. colombiensis, and a set of 729 high quality expressed sequence tags (ESTs) was identified. A total number of 344 ESTs (47.2% of total ESTs) was related to toxins. The most abundant toxin transcripts were metalloproteinases (37.5%), phospholipases A2s (PLA2, 29.7%), and serine proteinases (11.9%). Minor toxin transcripts were linked to waprins (5.5%), C-type lectins (4.1%), ATPases (2.9%), cysteine-rich secretory proteins (CRISP, 2.3%), snake venom vascular endothelium growth factors (svVEGF, 2.3%), L-amino acid oxidases (2%), and other putative toxins (1.7%). While 160 ESTs (22% of total ESTs) coded for translation proteins, regulatory proteins, ribosomal proteins, elongation factors, release factors, metabolic proteins, and immune response proteins. Other proteins detected in the transcriptome (87 ESTs, 11.9% of total ESTs) were undescribed proteins with unknown functions. The remaining 138 (18.9%) cDNAs had no match with known GenBank accessions. CONCLUSION: This study represents the analysis of transcript expressions and provides a physical resource of unique genes for further study of gene function and the development of novel molecules for medical applications.

SGK3 Sensitivity of Voltage Gated K+ Channel Kv1.5 (KCNA5).

BACKGROUND: The serum & glucocorticoid inducible kinase isoform SGK3 is a powerful regulator of several transporters, ion channels and the Na+/K+ ATPase. Targets of SGK3 include the ubiquitin ligase Nedd4-2, which is in turn a known regulator of the voltage gated K+ channel Kv1.5 (KCNA5). The present study thus explored whether SGK3 modifies the activity of the voltage gated K+ channel KCNA5, which participates in the regulation of diverse functions including atrial cardiac action potential, activity of vascular smooth muscle cells, insulin release and tumour cell proliferation. METHODS: cRNA encoding KCNA5 was injected into Xenopus oocytes with and without additional injection of cRNA encoding wild-type SGK3, constitutively active S419DSGK3, inactive K191NSGK3 and/or wild type Nedd4-2. Voltage gated K+ channel activity was quantified utilizing dual electrode voltage clamp. RESULTS: Voltage gated current in KCNA5 expressing Xenopus oocytes was significantly enhanced by wild-type SGK3 and S419DSGK3, but not by K191NSGK3. SGK3 was effective in the presence of ouabain (1 mM) and thus did not require Na+/K+ ATPase activity. Coexpression of Nedd4-2 decreased the voltage gated current in KCNA5 expressing Xenopus oocytes, an effect largely reversed by additional coexpression of SGK3. CONCLUSION: SGK3 is a positive regulator of KCNA5, which is at least partially effective by abrogating the effect of Nedd4-2.

Caracterización bioquímica y biológica del veneno de la serpiente Neotropical Macagua (Bothrops Colombiensis) de la región de Barlovento, estado Miranda, Venezuela / Biological and biochemical characterization of the Neotropical Macagua (Bothrops colombiensis) snake venom from Barlovento region, Miranda state, Venezuela

Introducción: el veneno de B. colombiensis no es solamente un elemento tóxico; en su composición existen múltiples componentes, que tienen un gran potencial terapéutico, principalmente en el tratamiento de patologías de la trombosis y la coagulación. Objetivos: estudiar una mezcla de venenos de Bothrops colombiensis de una ubicacion geográfica de Venezuela, a fin de hacer un barrido de sus actividades hemostáticas, que permitirá posteriormente purificar y caracterizar moléculas con actividad antitrombótica y anticoagulantes, entre otras, con potencial terapéutico. Métodos: el veneno a estudiar, es una mezcla de ellos obtenidos de serpientes provenientes de la Región de Barlovento, estado Miranda, Venezuela. Se caracterizó bioquímicamente por cromatografias de exclusión molecular, cromatografía de fase reversa C18 y por electroforesis a través de SDS­PAGE; y biológicamente por medio de actividades relacionadas con la hemostasia. Se analizaron los perfiles en relación a las actividades fibrinolítica, proteolítica sobre polvo azul y cadena ß de insulina, procoagulante, hemorrágica y letal. Resultados: la actividad hemorrágica, definida como la Dosis Hemorrágica Mínima fue de 8,7 mg/kg. La letalidad, definida como la Dosis Letal cincuenta fue 8,7 mg/kg. El veneno presentó actividad procoagulante y fibrinolítica. Las fracciones mostraron actividad fibrinolítica y proteolítica sobre polvo azul de ocultamiento y sobre la cadena ß de insulina. Conclusiones: las características biológicas de los componentes de este veneno le confieren un enorme potencial terapéutico, ya que contiene una alta actividad fibrinolítica y anticoagulante. Estos compuestos una vez purificados y caracterizados podrían explorarse como coadyuvantes en procesos trombolíticos, dado que disuelven coágulos de fibrina y degradan fibrinógeno, evitando episodios de retrombosis(AU)

Introduction: This paper is a screening of multiple toxic activities, of which some will be potentially useful for the management of coagulation pathologies. Objetives: A pool of Bothrops colombiensis venoms from a specific geographical location was studied, in order to carry out a hemostatic activities screening, allowing then to purify and characterise molecules with antithrombotic and anticoagulant activity, among others, which could have therapeutic potential. Methods: The venom was chromatographically by molecular exclusion and reverse phase C18 and SDS -PAGE characterized; its hemostatic activity was also established. Snakes were from the region of Barlovento, Miranda state, Venezuela. Profiles of fibrinolytic, proteolytic, procoagulant, hemorrhagic and lethal activities were analyzed. Hemorrhagic activity was 8.7 mg/kg. The LD50 was 8.7 mg/kg. The venom showed strongly procoagulant activity. Both, crude venom as fractions showed high fibrinolytic activity. The majority of the eluted fractions showed significant proteolytic activity in azure blue powder and on ß chain of insulin. Conclusions: The biological characteristics of the components of this venom confer enormous therapeutic potential because they contain a high fibrinolytic and anticoagulant activity. Most of these proteinases, once purified and characterized, could be explored as thrombolytic agents given that dissolves fibrin clots or prevent their formation(AU)

Biochemical and biological characterisation of lancehead (Bothrops venezuelensis Sandner 1952) snake venom from the Venezuelan Central Coastal range / Caracterización bioquímica y biológica del veneno de la serpiente "tigra mariposa" (Bothrops venezuelensis Sandner 1952) de la región central de la Cordillera de la Costa Venezolana

Se aislaron fracciones del veneno de Bothrops venezuelensis que demuestran ser un espectro abundante de proteínas con actividades variadas (coagulante, hemorrágica, fibrinolítica, proteolítica y de función plaquetaria), para el análisis de sus propiedades físico-químicas y biológicas, el veneno fue fraccionado por cromatografía de exclusión molecular, corrido en una electroforesis en gel y realizada una batería de ensayos biológicos. La DL50 del veneno de B. venezuelensis fue 6,39 mg/kg de peso corporal, fue determinada inyectando intraperitonealmente en ratones, diluciones seriadas de veneno de B. venezuelensis. Se colectaron doce fracciones a partir del veneno de B. venezuelensis mediante cromatografía de exclusión molecular. Las fracciones 1-5 y 7-9 tenían actividad hemorrágica. Todas las fracciones, con la excepción de las fracciones 3 y 6, tenían actividad fibrinolítica. Ninguna de las fracciones tuvo actividad de gelatinasa significativa, y sólo fracciones 4-6 demostraron actividad en polvo azul de ocultamiento. Con la excepción de las fracciones 1 y 4 , todas hidrolizaron la cadena β de la insulina. Cada fracción del veneno, así como el veneno crudo mostraron actividad procoagulante, cuando se probó en un analizador Sonoclot. Las fracciones 1, 3 , 5 y 9 inhibieron la función plaquetaria. En este estudio se señalan actividades biológicas de un veneno poco estudiado (B. venezuelensis) y sus fracciones. Al detectar actividades hemorrágicas, fibrinolíticas, procoagulantes, proteolíticas y de inhibición de la función plaquetaria. Este estudio preliminar abre el camino para la identificación de moléculas específicas que podrían tener potencial terapéutico en hemostasia y cáncer, que vienen siendo estudiados en nuestro grupo.

Venom fractions isolated from Bothrops venezuelensis were shown to contain a broad spectrum of proteins with varied activities. This study describes venom fractions with coagulant, haemorrhagic, fibrinolytic, proteolytic and antiplatelet activities, and analyses their physico-chemical properties and biological activities via molecular exclusion chromatography, gel electrophoresis and a bioassay battery. The LD50, determined by injecting intraperitoneally serial dilutions of B. venezuelensis venom into mice, was 6.39 mg/kg body weight. Twelve fractions were collected from B. venezuelensis venom using molecular exclusion chromatography. Of these, fractions 1-5 and 7-9 showed haemorrhagic activity, and all fractions except 3 and 6 showed fibrinolytic activity. However, none of the fractions had significant gelatinase activity, and only fractions 4-6 demonstrated activity on hide powder azure. With the exception of fractions 1 and 4, all fractions hydrolysed the insulin B-chain. In addition, all fractions as well as the crude venom showed strong procoagulant activity when tested using a Sonoclot Analyzer. Fractions 1, 3, 5 and 9 inhibited platelet function. In this study we have described the activities of the crude venom and its size-fractions from the scarcely studied B. venezuelensis. Haemorrhagic, fibrinolytic, procoagulant and proteolytic activities, and the inhibition of platelet function were detected. This preliminary study paves the way for the identification of specific molecules in B. venezuelensis venom that could have therapeutic potential for cancer and aberrant haemostasis treatment.

Biochemical and biological characterisation of lancehead (Bothrops venezuelensis Sandner 1952) snake venom from the Venezuelan Central Coastal range.

Venom fractions isolated from Bothrops venezuelensis were shown to contain a broad spectrum of proteins with varied activities. This study describes venom fractions with coagulant, haemorrhagic, fibrinolytic, proteolytic and antiplatelet activities, and analyses their physico-chemical properties and biological activities via molecular exclusion chromatography, gel electrophoresis and a bioassay battery. The LD50, determined by injecting intraperitoneally serial dilutions of B. venezuelensis venom into mice, was 6.39 mg/kg body weight. Twelve fractions were collected from B. venezuelensis venom using molecular exclusion chromatography. Of these, fractions 1-5 and 7-9 showed haemorrhagic activity, and all fractions except 3 and 6 showed fibrinolytic activity. However, none of the fractions had significant gelatinase activity, and only fractions 4-6 demonstrated activity on hide powder azure. With the exception of fractions 1 and 4, all fractions hydrolysed the insulin B-chain. In addition, all fractions as well as the crude venom showed strong procoagulant activity when tested using a Sonoclot Analyzer. Fractions 1, 3, 5 and 9 inhibited platelet function. In this study we have described the activities of the crude venom and its size-fractions from the scarcely studied B. venezuelensis. Haemorrhagic, fibrinolytic, procoagulant and proteolytic activities, and the inhibition of platelet function were detected. This preliminary study paves the way for the identification of specific molecules in B. venezuelensis venom that could have therapeutic potential for cancer and aberrant haemostasis treatment.

Se aislaron fracciones del veneno de Bothrops venezuelensis que demuestran ser un espectro abundante de proteínas con actividades variadas (coagulante, hemorrágica, fibrinolítica, proteolítica y de función plaquetaria), para el análisis de sus propiedades físico-químicas y biológicas, el veneno fue fraccionado por cromatografía de exclusión molecular, corrido en una electroforesis en gel y realizada una batería de ensayos biológicos. La DL50 del veneno de B. venezuelensis fue 6,39 mg/kg de peso corporal, fue determinada inyectando intraperitonealmente en ratones, diluciones seriadas de veneno de B. venezuelensis. Se colectaron doce fracciones a partir del veneno de B. venezuelensis mediante cromatografía de exclusión molecular. Las fracciones 1­5 y 7­9 tenían actividad hemorrágica. Todas las fracciones, con la excepción de las fracciones 3 y 6, tenían actividad fibrinolítica. Ninguna de las fracciones tuvo actividad de gelatinasa significativa, y sólo fracciones 4­6 demostraron actividad en polvo azul de ocultamiento. Con la excepción de las fracciones 1 y 4, todas hidrolizaron la cadena ß de la insulina. Cada fracción del veneno, así como el veneno crudo mostraron actividad procoagulante, cuando se probó en un analizador Sonoclot. Las fracciones 1, 3, 5 y 9 inhibieron la función plaquetaria. En este estudio se señalan actividades biológicas de un veneno poco estudiado (B. venezuelensis) y sus fracciones. Al detectar actividades hemorrágicas, fibrinolíticas, procoagulantes, proteolíticas y de inhibición de la función plaquetaria. Este estudio preliminar abre el camino para la identificación de moléculas específicas que podrían tener potencial terapéutico en hemostasia y cáncer, que vienen siendo estudiados en nuestro grupo.