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6. Implementation of rat-based mumps virus neurovirulence test in quality control laboratory

Author

Mažuran, Renata, Forčić, D, Šantak, M, Košutić Gulija, T, Lang Balija, M, Božić, T, Tomac, Jelena, Pugel Pernjak, Ester, and Jonjić Stipan

Subjects
neurovirulence test, quality control, mumps virus
Abstract

Neurovirulence testing of mumps virus seeds in monkeys during the production of mumps vaccines, as it is required by cPh.Eur, can not reliably discriminate neurovirulent from non-neurovirulent mumps virus strains. A rat-based neurovirulence (RNVT) safety test was developed (JVirol 74:5382-84, 2000). An interlaboratory collaborative study initiated between FDA and NIBSC (Phase I study) demonstrated the robustness and predictability of the assay (JID 191:1123-28, 2005). This novel test avoids experiments on non-human primates taken from the wild. Rats which are to be used in tests belong to the species listed in Annex I of Council Directive 86/609/EEC. However, during implementation of the test in the quality control laboratory several difficulties were noticed. To enable comparison of RNVT results between different laboratories it is recommended that virus concentration for inoculation shall be expressed in PFU. Vaccine manufacturers mostly express mumps virus concentration in CCID50 and introduction of alternative test for virus potency would be expensive and time consuming. Moreover, we tested six mumps viruses for the ability to form plaques. Not all of tested viruses, irrespective of their genotype and attenuation status, produced readily countable plaques. Some of the mumps viruses indicated were only approximately assayable by the plaque technique because of the formation of secondary and/or nondiscrete plaques. This feature could influence the mumps virus content determination by plaque formation assay. Further, there is no unique positive control for PFUs available. In-house reference standard, calibrated to the International Reference Reagent, should be included on every plate tested and the titre of the positive control should be monitored to ensure that it maintains its level over time i.e. trend monitoring. However, regarding the differences between the ability of mumps viruses to form plaques, it is unlikely that fixed virus titres could be preassigned for common use. For above reasons we inoculated newborn rats with mumps viruses which titres represent working estimate calculated from CCID50. But, we also showed that viral inocula most likely contained more than 100 PFU/10 μl. Our preliminary results showed that brains of rats inoculated with three out of six tested mumps viruses had moderately enlarged ventricles occupying 7.3% to 16.1% of the total brain cross-sectional areas. RNVT score for wild type was lower than for some attenuated and partially attenuated viruses. It is possible that wild type virus has low neurovirulent potential as it was isolated from urine of a patient with no CNS involvement. For future validation studies, we propose that “high” virulence reference virus must be assessed on the basis of its neurovirulence potential, irrespective of its genotype. Finally, the nature of comparator in the test is obscure: “low” virulence reference virus should be recommended. Limits of detection for neurovirulence scores of attenuated strains and wild-type mumps viruses should be determined.

Published
2008

9. Factors influencing preclinical in vivoevaluation of mumps vaccine strain immunogenicity

Author

Halassy, B, Kurtović, T, Brgles, M, Lang Balija, M, and Forčić, D

Abstract

Immunogenicity testing in animals is a necessary preclinical assay for demonstration of vaccine efficacy the results of which are often the basis for the decision whether to proceed or withdraw the further development of the novel vaccine candidate. However, in vivoassays are rarely, if at all, optimized and validated. Here we clearly demonstrate the importance of in vivoassay (mumps virus immunogenicity testing in guinea pigs) optimization for gaining reliable results and the suitability of Fractional factorial design of experiments (DoE) for such a purpose. By the use of DoE with resolution IV (2IV(4-1)) we clearly revealed that the parameters significantly increasing assay sensitivity were interval between animal immunizations followed by the body weight of experimental animals. The quantity (0 versus 2%) of the stabilizer (fetal bovine serum, FBS) in the sample was shown as non-influencing parameter in DoE setup. However, the separate experiment investigating only the FBS influence, and performed under other parameters optimally set, showed that FBS also influences the results of immunogenicity assay. Such finding indicated that (a) factors with strong influence on the measured outcome can hide the effects of parameters with modest/low influence and (b) the matrix of mumps virus samples to be compared for immunogenicity must be identical for reliable virus immunogenicity comparison. Finally the 3 mumps vaccine strains widely used for decades in the licensed vaccines were for the first time compared in an animal model, and results obtained were in line with their reported immunogenicity in human population supporting the predictive power of the optimized in vivoassay.

Published
2015
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10. Mumps virus neurovirulence assessment-impact of viral doses, animal sex and age on results dispersion.

Author

Lang Balija M, Jagušić M, Forčić D, Ivančić-Jelečki J, and Košutić Gulija T

Subjects
Animals, Female, Rats, Male, Virulence, Age Factors, Sex Factors, Mumps virology, Chlorocebus aethiops, Vero Cells, Mumps virus pathogenicity, Mumps virus genetics, Mumps virus immunology, Mumps Vaccine immunology
Abstract

Mumps epidemics highlight the necessity for new live mumps vaccines. For vaccine candidate neurosafety assessment, the most commonly used test is the rat-based neurovirulence test (RNVT). Its main experimental and ethical deficiency is the results dispersion which requires large number of animals to obtain statistically relevant results. To additionally characterize the RNVT the impact of two experimental animal characteristics, age for inoculation and sex, as well as range of infectious viral doses were analysed. Results obtained from two neurovirulent mumps viruses, SHdeopti-MRV2 and 9218/Zg98, demonstrated no corelation between animal sex and RNVT results (p = 0.9638 and p = 0.3337). Analysis of animal inoculation age found that hydrocephalus formation is impaired in neonatal rats older than 3 days. The inoculation period could be extended from first to the second postanatal day without the impact on RNVT results (p = 0.5865). RNVT results demonstrated robustness to infectious doses in a range from 100 to 1000 PFU, but using the non-standard infectious doses,10 PFU or 100 CCID50, poses a risk of underestimating the neurovirulence potential of the MuV. However, none of the analysed parameters influenced the high dispersion of results. In conclusion, although our finding will facilitate the implementation of the RNVT, the dispersion of the results indicates the need for a better mumps neurovirulence test that would align more closely with the 3R principles., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published
2025
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11. Evaluation of the Interactions between Mumps Virus and Guinea Pig.

Author

Lang Balija M, Štimac A, Košutić Gulija T, Gudan Kurilj A, Bekavac A, Plećaš A, Halassy B, Jagušić M, and Forčić D

Subjects
Animals, Guinea Pigs, Humans, Virus Replication, Cells, Cultured, Immunity, Cellular immunology, Immunity, Humoral immunology, Lung virology, Testis virology, Mumps immunology, Mumps physiopathology, Mumps virology, Mumps virus metabolism
Abstract

Mumps is a highly contagious viral disease that can be prevented by vaccination. In the last decade, we have encountered repeated outbreaks of mumps in highly vaccinated populations, which call into question the effectiveness of available vaccines. Animal models are crucial for understanding virus-host interactions, and viruses such as mumps virus (MuV), whose only natural host is the human, pose a particular challenge. In our study, we examined the interaction between MuV and the guinea pig. Our results present the first evidence that guinea pigs of the Hartley strain can be infected in vivo after intranasal and intratesticular inoculation. We observed a significant viral replication in infected tissues up to 5 days following infection and induction of cellular and humoral immune responses as well as histopathological changes in infected lungs and testicles, without clinical signs of disease. Transmission of the infection through direct contact between animals was not possible. Our results demonstrate that guinea pigs and guinea pig primary cell cultures represent a promising model for immunological and pathogenetic studies of the complex MuV infection. IMPORTANCE Understanding of mumps virus (MuV) pathogenesis and the immune responses against MuV infection is limited. One of the reasons is the lack of relevant animal models. This study explores the interaction between MuV and the guinea pig. We demonstrated that all tested guinea pig tissue homogenates and primary cell cultures are highly susceptible to MuV infection and that α2,3-sialylated glycans (MuV cellular receptors) are being abundantly expressed at their surface. The virus remains in the guinea pig lungs and trachea for up to 4 days following intranasal infection. Although asymptomatic, MuV infection strongly activates both humoral and cellular immune response in infected animals and provides protection against virus challenge. Infection of the lungs and testicles after intranasal and intratesticular inoculation, respectively, is also supported by histopathological changes in these organs. Our findings give perspective for application of guinea pigs in research on MuV pathogenesis, antiviral response, and vaccine development and testing.

Published
2023
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12. Comparison of Preclinical Properties of Several Available Antivenoms in the Search for Effective Treatment of Vipera ammodytes and Vipera berus Envenoming.

Author

Kurtović T, Lang Balija M, Brvar M, Dobaja Borak M, Mateljak Lukačević S, and Halassy B

Subjects
Animals, Antibodies, Neutralizing chemistry, Antibody Specificity, Antivenins chemistry, Europe, Health Resources supply & distribution, Immunoglobulin Fab Fragments chemistry, Snake Bites immunology, Snake Bites metabolism, Time Factors, Viper Venoms immunology, Viper Venoms metabolism, Antibodies, Neutralizing pharmacology, Antivenins pharmacology, Immunoglobulin Fab Fragments pharmacology, Snake Bites drug therapy, Viper Venoms antagonists & inhibitors, Viperidae metabolism
Abstract

Snakebites are a relatively rare medical emergency in Europe. In more than half of the annual cases caused by Vipera ammodytes , Vipera berus , and Vipera aspis , immunotherapy with animal-derived antivenom is indicated. Among eight products recently identified as available against European medically relevant species, only Zagreb antivenom, Viperfav, and ViperaTAb have been used almost exclusively for decades. Zagreb antivenom comprises V. ammodytes -specific F(ab') 2 fragments. Viperfav is a polyspecific preparation based on F(ab') 2 fragments against V. aspis , V. berus , and V. ammodytes venoms. ViperaTAb contains Fab fragments against the venom of V. berus . In 2014 the production of Zagreb antivenom was discontinued. Additionally, in the period of 2017 to 2018 a shortage of Viperfav occurred. Due to a lack of the product indicated for the treatment of V. ammodytes bites, other antivenoms were implemented into clinical practice without comparative assessment of their eligibility. The aim of our work was to identify a high-quality antivenom that might ensure the successful treatment of V. ammodytes and V. berus bites at the preclinical level. Differentiation between bites from these two species is difficult and unreliable in clinical practice, so the availability of a unique antivenom applicable in the treatment of envenoming caused by both species would be the most advantageous for Southeastern Europe. Zagreb antivenom, Viperfav, and ViperaTAb, as well as Viper venom antitoxin for V. berus envenoming and the in-development Inoserp Europe, which was designed to treat envenoming caused by all medically important European snakes, were comparatively tested for the first time. Emphasis was placed on their physicochemical properties, primarily purity and aggregate content, as well as their in vivo protective efficacies. As Zagreb antivenom is no longer available on the European market, Viperfav is the highest-quality product currently available and the only antivenom whose neutralisation potency against V. ammodytes and V. berus venoms was above regulatory requirements.

Published
2021
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13. Impact of complement and difference of cell-based assay and ELISA in determination of neutralization capacity against mumps and measles virus.

Author

Brgles M, Kurtović T, Lang Balija M, Hećimović A, Mušlin T, and Halassy B

Subjects
Adult, Animals, Enzyme-Linked Immunosorbent Assay, Female, Guinea Pigs, Humans, Male, Measles diagnosis, Middle Aged, Mumps diagnosis, Young Adult, Antibodies, Neutralizing blood, Complement System Proteins metabolism, Measles immunology, Measles virus physiology, Mumps immunology, Mumps virus physiology, Neutralization Tests methods
Abstract

Neutralizing antibodies against mumps and measles virus are considered a correlate of protection against these diseases. Measurement of neutralizing antibodies is mostly performed using plaque reduction neutralization assay or 50% cell culture infective dose (CCID 50 ) neutralization assay, but there are attempts for measuring neutralizing antibodies using enzyme-linked immunosorbent assay (ELISA) which is simpler, but the literature data regarding its convenience are diverse. The role of complement and antibodies in neutralizing capacity of sera is not completely defined. Here, CCID 50 neutralization assay and ELISA were used to determine the neutralization capacity against mumps and measles virus in human sera and therapeutic immunoglobulins (IVIGs). Results showed no correlation of neutralization titers obtained by CCID 50 neutralization assay and IgG content obtained by ELISA for mumps or measles in human sera. Data showed some neutralization activity against measles virus and quite high against mumps virus of naïve guinea pig serum and that its addition increases neutralization capacity of IVIG and human sera against mumps and measles viruses. Heat inactivation of human sera reduced neutralization capacity against measles to small extent, and substantially against mumps virus. There is a significant impact of complement in measurement of neutralization capacity against mumps virus., (Copyright © 2021. Published by Elsevier B.V.)

Published
2021
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14. Quality-Related Properties of Equine Immunoglobulins Purified by Different Approaches.

Author

Mateljak Lukačević S, Kurtović T, Lang Balija M, Brgles M, Steinberger S, Marchetti-Deschmann M, and Halassy B

Subjects
Animals, Antivenins analysis, Chromatography, Ion Exchange methods, Female, Gas Chromatography-Mass Spectrometry methods, Immunoglobulin G analysis, Male, Mice, Viper Venoms antagonists & inhibitors, Antivenins blood, Horses blood, Immunoglobulin G blood, Qualitative Research, Viper Venoms toxicity
Abstract

Whole IgG antivenoms are prepared from hyperimmune animal plasma by various refinement strategies. The ones most commonly used at industrial scale are precipitation by sodium or ammonium sulphate (ASP), and caprylic acid precipitation (CAP) of non-immunoglobulin proteins. The additional procedures, which have so far been used for experimental purposes only, are anion-exchange (AEX) and cation-exchange chromatography (CEX), as well as affinity chromatography (AC) using IgG's Fc-binding ligands. These protocols extract the whole IgG fraction from plasma, which contains both venom-specific and therapeutically irrelevant antibodies. Such preparations represent a complex mixture of various IgG subclasses whose functional and/or structural properties, as well as relative distribution, might be affected differently, depending on employed purification procedure. The aim of this work was to compare the influence of aforementioned refinement strategies on the IgG subclass distribution, venom-specific protective efficacy, thermal stability, aggregate formation and retained impurity profile of the final products. A unique sample of Vipera ammodytes ammodytes specific hyperimmune horse plasma was used as a starting material, enabling direct comparison of five purification approaches. The highest purity was achieved by CAP and AC (above 90% in a single step), while the lowest aggregate content was present in samples from AEX processing. Albumin was the main contaminant in IgG preparations obtained by ASP and CEX, while transferrin dominantly contaminated IgG sample from AEX processing. Alpha-1B-glycoprotein was present in CAP IgG fraction, as well as in those from ASP- and AEX-based procedures. AC approach induced the highest loss of IgG(T) subclass. CEX and AEX showed the same tendency, while CAP and ASP had almost no impact on subclass distribution. The shift in IgG subclass composition influenced the specific protective efficacy of the respective final preparation as measured in vivo. AC and CEX remarkably affected drug's venom-neutralization activity, in contrary to the CAP procedure, that preserved protective efficacy of the IgG fraction. Presented data might improve the process of designing and establishing novel downstream processing strategies and give guidance for optimization of the current ones by providing information on potency-protecting and purity-increasing properties of each purification principle.

Published
2020
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15. Biological Activities and Proteomic Profile of the Venom of Vipera ursinii ssp., a very Rare Karst Viper from Croatia.

Author

Lang Balija M, Leonardi A, Brgles M, Sviben D, Kurtović T, Halassy B, and Križaj I

Subjects
Animals, Croatia, Lectins, C-Type analysis, Lethal Dose 50, Metalloproteases analysis, Phospholipases A2, Secretory analysis, Proteomics, Endangered Species, Proteome analysis, Viper Venoms chemistry, Viper Venoms toxicity, Viperidae
Abstract

The karst viper ( Vipera ursinii ssp.) favours high-mountain dry grasslands in southern and south-eastern Croatia. It is medically less important than other Vipera species, because of its remote habitat and the very small amount of venom that it injects by its relatively short fangs. The scientific literature on Vipera ursinii deals mostly with the morphology, ecology and distribution range of this snake, due to the species' conservation issues, while the toxinological aspects of its venom have not so far been investigated. Here we report on the composition and biological activity of the Vipera ursinii ssp. venom. Using a proteomics approach, we have identified 25 proteins in the venom that belong to seven protein families: snake venom metalloproteinase, serine protease, secreted phospholipase A 2 , cysteine-rich secretory protein, snake C-type lectin-like protein, serine protease inhibitor and nerve growth factor. The Vipera ursinii ssp. venom was found to be distinctively insecticidal. Its lethal toxicity towards crickets was more than five times greater than that of Vipera ammodytes ammodytes venom, while the opposite held in mice. Interestingly, the mode of dying after injecting a mouse with Vipera ursinii ssp. venom may suggest the presence of a neurotoxic component. Neurotoxic effects of European vipers have so far been ascribed exclusively to ammodytoxins and ammodytoxin-like basic secreted phospholipases A 2 . Structural and immunological analyses of the Vipera ursinii ssp. venom, however, confirmed that ammodytoxin-like proteins are not present in this venom.

Published
2020
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16. Refinement strategy for antivenom preparation of high yield and quality.

Author

Kurtović T, Lang Balija M, Brgles M, Sviben D, Tunjić M, Cajner H, Marchetti-Deschmann M, Allmaier G, and Halassy B

Subjects
Animals, Horses, Antivenins immunology, Antivenins isolation & purification, Immunoglobulin Fab Fragments immunology, Immunoglobulin Fab Fragments isolation & purification, Immunologic Factors immunology, Immunologic Factors isolation & purification, Technology, Pharmaceutical methods
Abstract

Antivenoms from hyperimmune animal plasma are the only specific pharmaceuticals against snakebites. The improvement of downstream processing strategies is of great interest, not only in terms of purity profile, but also from yield-to-cost perspective and rational use of plasma of animal origin. We report on development of an efficient refinement strategy for F(ab')2-based antivenom preparation. Process design was driven by the imperative to keep the active principle constantly in solution as a precautionary measure to preserve stability of its conformation (precipitation of active principle or its adsorption to chromatographic stationary phase has been completely avoided). IgG was extracted from hyperimmune horse plasma by 2% (V/V) caprylic acid, depleted from traces of precipitating agent and digested by pepsin. Balance between incomplete IgG fraction breakdown, F(ab')2 over-digestion and loss of the active principle's protective efficacy was achieved by adjusting pepsin to substrate ratio at the value of 4:300 (w/w), setting pH to 3.2 and incubation period to 1.5 h. Final polishing was accomplished by a combination of diafiltration and flow-through chromatography. Developed manufacturing strategy gave 100% pure and aggregate-free F(ab')2 preparation, as shown by size-exclusion HPLC and confirmed by MS/MS. The overall yield of 75% or higher compares favorably to others so far reported. This optimised procedure looks also promising for large-scale production of therapeutic antivenoms, since high yield of the active drug and fulfillment of the regulatory demand considering purity was achieved. The recovery of the active substance was precisely determined in each purification step enabling accurate estimation of the process cost-effectiveness., Competing Interests: The authors have declared that no competing interests exist.

Published
2019
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17. Concept of sample-specific correction of immunoassay results for precise and accurate IgG quantification in horse plasma.

Author

Halassy B, Kurtović T, Lang Balija M, Brgles M, Tunjić M, and Sviben D

Subjects
Animals, Caprylates chemistry, Chemical Precipitation, Chromatography, Gel instrumentation, Chromatography, Gel methods, Enzyme-Linked Immunosorbent Assay instrumentation, Enzyme-Linked Immunosorbent Assay methods, Enzyme-Linked Immunosorbent Assay standards, Female, Horses, Immunoglobulin G chemistry, Immunoglobulin G isolation & purification, Male, Mice, Neutralization Tests instrumentation, Reference Standards, Immune Sera analysis, Immunoglobulin G blood
Abstract

The hyperimmune horse plasma (HHP), prepared through active immunisation of horses with an antigen of interest, is the most common starting material for antitoxin (animal antibody-based therapeutics) production. Precise IgG quantification in plasma is a prerequisite for accurate estimation of the purification process efficiency. Although immunoglobulins from HHP have been purified for over a century, there is still no in vitro method for precise and accurate determination of IgG content in HHP. For this reason, the purification process efficiency has been assessed by antibody activity measurements, mostly performed in vivo. Here we describe the development of a precise and accurate in vitro immunoassay for IgG quantification in HHP. We showed and highlighted that any difference in composition of IgG population between the standard and the sample, with respect to both IgG subclass distribution and antigen-specific IgG content, leads to inaccurate IgG quantification. We demonstrated that caprylic acid precipitation as the method for IgG isolation from horse plasma renders the composition of IgG population unchanged. This very efficient, fast, simple and inexpensive method was used to prepare internal, sample-specific reference IgG for each plasma sample, which was tested simultaneously to a respective plasma sample. Deviation of IgG quantity determined by ELISA for each sample-specific reference from its nominal value was used for correction of the results of respective plasma sample, which led to accurate and precise IgG quantification as shown by method validation. The here presented novel concept of sample-specific correction of immunoassay results could be widely applicable and easily introduced in different immunoassays for more accurate and precise plasma IgG quantification., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2019
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19. Vipera ammodytes bites treated with antivenom ViperaTAb: a case series with pharmacokinetic evaluation.

Author

Brvar M, Kurtović T, Grenc D, Lang Balija M, Križaj I, and Halassy B

Subjects
Aged, Aged, 80 and over, Animals, Antiemetics blood, Antiemetics pharmacokinetics, Antiemetics therapeutic use, Antivenins blood, Emergency Service, Hospital, Humans, Immunoglobulin Fab Fragments blood, Male, Middle Aged, Prospective Studies, Snake Bites blood, Thiethylperazine blood, Thiethylperazine pharmacokinetics, Thiethylperazine therapeutic use, Viperidae, Antivenins therapeutic use, Immunoglobulin Fab Fragments therapeutic use, Snake Bites drug therapy, Viper Venoms toxicity
Abstract

Context: In clinical practice it is difficult to differentiate between V. berus and V. ammodytes venomous bites. In the past this was not a concern, but due to the current shortage in Viperfav™ and European viper venom antiserum availability, V. a. ammodytes venomous bites have recently been treated with ViperaTAb ® , which is a pharmaceutical formulation containing a monospecific ovine Fab fragments against the venom of V. berus., Objective: To evaluate ViperaTAb ® in V. a. ammodytes envenomations., Materials and Methods: This is a prospective case series of three consecutive patients envenomed by V. a. ammodytes snakebite treated with ViperaTAb ® . V. ammodytes venom, neurotoxic ammodytoxins, and Fab fragment levels were determined in serum samples and a pharmacokinetic analysis of the antivenom Fab fragments was carried out., Results: Three patients bitten by V. a. ammodytes with extensive local swelling, neurological symptoms and recurrent thrombocytopenia were treated with ViperaTAb ® . V. ammodytes venom was detected in serum of all three patients. Ammodytoxins were detected in the serum of only the most severely envenomed patient who developed neurological symptoms. In the presented moderate cases, a dose of 8 mL of ViperaTAb ® reduced swelling and improved systemic effects, such as thrombocytopenia. However, this dose of ViperaTAb ® was not effective in the most severely envenomed patient with the highest serum values of V. ammodytes venom. In this case ViperaTAb ® did not stop local swelling and it had no effect on neurological signs. ViperaTAb ® 's systemic clearance, distribution and elimination half-lives were 4.3-13.4 mL/h/kg, 1.2-3.2 h and 14.1-55.4 h, respectively., Conclusions: In patients envenomed by V. a. ammodytes venom, ViperaTAb ® reduces moderate swelling and temporarily improves systemic effects, except neurological symptoms. ViperaTAb ® application induces a decrement of V. ammodytes venom level in the blood, but did not affect serum concentration of neurotoxic ammodytoxins in the one patient with measurable concentrations.

Published
2017
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20. A Single Dose of Viperfav(TM) May Be Inadequate for Vipera ammodytes Snake Bite: A Case Report and Pharmacokinetic Evaluation.

Author

Kurtović T, Brvar M, Grenc D, Lang Balija M, Križaj I, and Halassy B

Subjects
Adult, Animals, Antivenins blood, Blood Cell Count, Blood Coagulation drug effects, Blood Coagulation Tests, Drug Monitoring methods, Half-Life, Humans, Immunoglobulin Fab Fragments blood, Male, Metabolic Clearance Rate, Snake Bites blood, Snake Bites diagnosis, Time Factors, Treatment Outcome, Antivenins administration & dosage, Immunoglobulin Fab Fragments administration & dosage, Snake Bites drug therapy, Viper Venoms, Viperidae
Abstract

Viperfav(TM) is a commercial F(ab')₂ antivenom prepared against European vipers venom. It is safe and effective for treating envenomation caused by Vipera aspis and Vipera berus. Therapeutic efficacy for treating Vipera ammodytes ammodytes (V. a. ammodytes) envenoming has not been yet described, although protective efficacy has been demonstrated in preclinical studies. We report on a 32-year-old man bitten by V. a. ammodytes who was treated with Viperfav™. Viperfav™ promptly reduced local extension and improved systemic pathological signs, but 24 h after the incident a recurrence of thrombocytopenia occurred despite a favorable pharmacokinetic profile with systemic clearance (1.64 (mL·h(-1))·kg(-1)) and elimination half-life (97 h) among the highest ever reported. The recommended dose of Viperfav™ for V. aspis and V. berus bites may be inadequate for serious V. a. ammodytes envenomations. Following V. a. ammodytes bite, serial blood counts and coagulation profiles should be performed to help guide Viperfav™ treatment, along with supplemental administration as indicated.

Published
2016
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21. Paraspecificity of Vipera a. ammodytes-specific antivenom towards Montivipera raddei and Macrovipera lebetina obtusa venoms.

Author

Kurtović T, Lang Balija M, Ayvazyan N, and Halassy B

Subjects
Animals, Blotting, Western, Caseins, Electrophoresis, Gel, Two-Dimensional, Hemorrhage chemically induced, Metalloproteases antagonists & inhibitors, Neutralization Tests, Rats, Serine Proteases metabolism, Species Specificity, Viper Venoms toxicity, Antivenins pharmacology, Viper Venoms antagonists & inhibitors, Viperidae metabolism
Abstract

Antivenom raised against the venom of nose-horned viper, Vipera ammodytes (V. a.) ammodytes (European viper venom antiserum, Zagreb antivenom), contains neutralising equine F(ab')₂ fragments that are clinically successful against homologous venom, but also against the venoms of several others medically important European snakes due to its paraspecific action. In this work we demonstrated that Zagreb antivenom is preclinically effective in neutralising lethal toxicity and hemorrhagicity of venoms of Armenian mountain snakes--Montivipera raddei and Macrovipera lebetina obtusa as well. In order to better understand the biochemical basis of the observed paraspecificity, the ability of anti-V. a. ammodytes serum to recognise and neutralise proteinases of the two venoms was also investigated. Anti-V. a. ammodytes serum showed surprisingly low capacity to inhibit metalloproteinases of both venoms included in the study, probably due to weak immunorecognition of their P-I representatives. Also, it completely failed to abolish enzymatic action of serine proteinases from Macrovipera lebetina obtusa venom. Relevance of such finding is yet to be established., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2014
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22. Hemorrhagin VaH4, a covalent heterodimeric P-III metalloproteinase from Vipera ammodytes ammodytes with a potential antitumour activity.

Author

Leonardi A, Sajevic T, Kovačič L, Pungerčar J, Lang Balija M, Halassy B, Trampuš Bakija A, and Križaj I

Subjects
Amino Acid Sequence, Animals, Antineoplastic Agents pharmacology, Base Sequence, Blood Coagulation drug effects, Cell Adhesion drug effects, Cell Survival drug effects, Collagen, Dimerization, Drug Combinations, Fluorometry, HeLa Cells, Humans, Hydrolysis drug effects, Laminin, Metalloproteases genetics, Metalloproteases metabolism, Metalloproteases pharmacology, Molecular Sequence Data, Proteoglycans, Prothrombin Time, Sequence Analysis, DNA, Time Factors, Hemorrhage chemically induced, Metalloproteases chemistry, Metalloproteases toxicity, Models, Molecular, Viperidae metabolism
Abstract

In the envenomation caused by a bite of Vipera ammodytes ammodytes, the most venomous snake in Europe, hemorrhage is usually the most severe consequence in man. Identifying and understanding the hemorrhagic components of its venom is therefore particularly important in optimizing medical treatment of patients. We describe a novel high molecular mass hemorrhagin, VaH4. The isolated molecule is a covalent dimer of two homologous subunits, VaH4-A and VaH4-B. Complete structural characterization of A and partial characterization of B revealed that both belong to the P-III class of snake venom metalloproteinases (SVMPs), comprising a metalloproteinase, a disintegrin-like domain and a cysteine-rich domain. However, neither VaH4-A nor VaH4-B possess the Cys174 involved in the inter-subunit disulphide bond of P-III SVMPs. A three-dimensional model of the VaH4 dimer suggests that Cys132 serves this function. This implies that dimers in the P-III class of SVMPs can be formed either between their Cys132 or Cys174 residues. The proteolytic activity and stability of VaH4 depend on Zn²⁺ and Ca²⁺ ions and the presence of glycosaminoglycans, which indicates physiological interaction of VaH4 with the latter element of the extracellular matrix (ECM). The molecular mass of VaH4, determined by MALDI/TOF mass spectrometry, is 110.2 kDa. N-deglycosylation reduced the mass of each monomer by 8.7 kDa. The two possible N-glycosylation sites in VaH4-A are located at completely different positions from those in homodimeric P-IIIc VaH3 from the same venom, however, without any evident functional implications. The hemorrhagic activity of this slightly acidic SVMP is ascribed to its hydrolysis of components of the ECM, particularly fibronectin and nidogen, and of some blood coagulation proteins, in particular the α-chain of fibrinogen. VaH4 is also significant medically as we found it cytotoxic against cancer cells and due to its substantial sequence similarity to ADAM/ADAMTS family of physiologically very important human proteins of therapeutic potential., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2014
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23. VaSP1, catalytically active serine proteinase from Vipera ammodytes ammodytes venom with unconventional active site triad.

Author

Kurtović T, Brgles M, Leonardi A, Lang Balija M, Sajevic T, Križaj I, Allmaier G, Marchetti-Deschmann M, and Halassy B

Subjects
Amino Acid Sequence, Animals, Benzamidines pharmacology, Blood Coagulation drug effects, Catalytic Domain genetics, Electrophoresis, Polyacrylamide Gel, Hydrogen-Ion Concentration, Molecular Sequence Data, Prothrombin Time, Sequence Analysis, Protein, Serine Proteases classification, Serine Proteases genetics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Sulfones pharmacology, Zinc pharmacology, Serine Proteases metabolism, Serine Proteinase Inhibitors pharmacology, Viper Venoms enzymology, Viperidae metabolism
Abstract

VaSP1, a serine proteinase from Vipera ammodytes ammodytes venom, is a glycosylated monomer of 31.5 kDa, as determined by MALDI mass spectrometry, showing multiple isoelectric points between pH 6.5 and pH 8.5. Partial amino acid sequencing of VaSP1 by Edman degradation and MS/MS analysis identified sequences which allowed its classification among the so-called snake venom serine proteinase homologues, members of the peptidase S1 family, however being devoid of the canonical catalytic triad. Only few representatives of this group have been identified so far with just two of them characterised in detail at the protein level. Despite substitution of His57 with Arg, VaSP1 possesses proteolytic activity which can be inhibited by Pefabloc, benzamidine, Zn²⁺ ions, DTT and trypsin inhibitor II, a Kunitz/BPTI group member. It hydrolyses N(α)-benzoyl-Phe-Val-Arg-p-NA, exhibiting Michaelis-Menten behaviour with K(m) = 48.2 μM and V(m) = 0.019 nM s⁻¹. The pH for optimal activity on tested substrate is around 9.0. VaSP1 also cleaves insulin B-chain, digesting it at positions His¹⁰-Leu¹¹, Ala¹⁴-Leu¹⁵ and Tyr¹⁶-Leu¹⁷. Furthermore, the novel serine proteinase is active towards wide array of proteins involved in haemostasis where its degradation of fibrinogen, fibrin, prothrombin, factor X and plasminogen in vivo probably results in depletion of coagulation factors in blood circulation. The possibility that VaSP1 possesses anticoagulant properties has been further indicated by its ability to prolong prothrombin time and activated partial thromboplastin time., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2014
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24. Identification of proteins interacting with ammodytoxins in Vipera ammodytes ammodytes venom by immuno-affinity chromatography.

Author

Brgles M, Kurtović T, Kovačič L, Križaj I, Barut M, Lang Balija M, Allmaier G, Marchetti-Deschmann M, and Halassy B

Subjects
Animals, Chromatography, Affinity, Mass Spectrometry, Protein Binding, Protein Interaction Mapping, Viperidae physiology, Antibodies, Immobilized chemistry, Peptides chemistry, Plant Proteins chemistry, Reptilian Proteins chemistry, Viper Venoms chemistry
Abstract

In order to perform their function, proteins frequently interact with other proteins. Various methods are used to reveal protein interacting partners, and affinity chromatography is one of them. Snake venom is composed mostly of proteins, and various protein complexes in the venom have been found to exhibit higher toxicity levels than respective components separately. Complexes can modulate envenomation activity of a venom and/or potentiate its effect. Our previous data indicate that the most toxic components of the Vipera ammodytes ammodytes (Vaa) venom isolated so far-ammodytoxins (Atxs)-are contributing to the venom's toxicity only moderately; therefore, we aimed to explore whether they have some interacting partner(s) potentiating toxicity. For screening of possible interactions, immuno-affinity chromatography combined with identification by mass spectrometry was used. Various chemistries (epoxy, carbonyldiimidazole, ethylenediamine) as well as protein G functionality were used to immobilize antibodies on monolith support, a Convective Interaction Media disk. Monoliths have been demonstrated to better suit the separation of large biomolecules. Using such approach, several proteins were indicated as potential Atx-binding proteins. Among these, the interaction of Atxs with a Kunitz-type inhibitor was confirmed by far-Western dot-blot and surface plasmon resonance measurement. It can be concluded that affinity chromatography on monolithic columns combined with mass spectrometry identification is a successful approach for screening of protein interactions and it resulted with detection of the interaction of Atx with Kunitz-type inhibitor in Vaa venom for the first time.

Published
2014
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25. VaH3, one of the principal hemorrhagins in Vipera ammodytes ammodytes venom, is a homodimeric P-IIIc metalloproteinase.

Author

Sajevic T, Leonardi A, Kovačič L, Lang-Balija M, Kurtović T, Pungerčar J, Halassy B, Trampuš-Bakija A, and Križaj I

Subjects
Amino Acid Sequence, Animals, Electrophoresis, Polyacrylamide Gel, Humans, Metalloendopeptidases isolation & purification, Models, Molecular, Molecular Sequence Data, Protein Structure, Quaternary, Rats, Reverse Transcriptase Polymerase Chain Reaction, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Viper Venoms isolation & purification, Metalloendopeptidases chemistry, Metalloendopeptidases metabolism, Viper Venoms chemistry, Viper Venoms metabolism
Abstract

Hemorrhage is the most potent manifestation of envenomation by Vipera ammodytes ammodytes (V. a. ammodytes) venom in man. A detailed description of the venom components contributing to this effect is thus medically very important. We have characterized a novel component, termed here VaH3, as a potently hemorrhagic snake venom metalloproteinase (SVMP). Its proteolytic activity and overall stability depend on the presence of Zn(2+) and Ca(2+) ions. The molecular mass of this slightly acidic molecule, determined by MALDI/TOF analysis, is 104 kDa. Chemical reduction and S-carbamoylmethylation result in a single monomer of 53.7 kDa. N-deglycosylation decreased this mass by 4.6 kDa. The complete amino acid sequence of VaH3 was determined by protein and cDNA sequencing, showing that each of the identical glycoprotein subunits comprise a metalloproteinase, a disintegrin-like domain and a cysteine-rich domain, VaH3 belongs to the P-IIIc class of SVMPs. It shows strong sequence similarity to vascular endothelial cell apoptosis-inducing reprolysins. Anti-ammodytagin antibodies strongly cross-reacted with VaH3 and completely neutralized its hemorrhagic activity in rat, despite the fact that the two hemorrhagic P-III SVMPs from V. a. ammodytes venom do not share a very high degree of amino acid sequence identity. In spite of its narrow proteolytic specificity, VaH3 rapidly cleaved some basal membrane and extracellular matrix proteins, such as collagen IV, fibronectin and nidogen. Moreover, it also hydrolyzed plasma proteins involved in blood coagulation. It is an effective α-fibrinogenase that cleaves prothrombin and factor X without activating them. The degradation of these proteins likely contributes to the hemorrhagic activity of VaH3. A three-dimensional model of VaH3 was built to help explain structure-function relationships in ADAM/ADAMTS, a family of proteins having significant therapeutic potential and substantial sequence similarity to VaH3., (Copyright © 2013 Elsevier Masson SAS. All rights reserved.)

Published
2013
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26. The standard mouse assay of anti-venom quality does not measure antibodies neutralising the haemorrhagic activity of Vipera ammodytes venom.

Author

Kurtović T, Leonardi A, Lang Balija M, Brgles M, Habjanec L, Križaj I, and Halassy B

Subjects
Animals, Antibodies immunology, Antigens blood, Antigens immunology, Antivenins analysis, Blotting, Western, Female, Hybridization, Genetic, Immune Sera immunology, Immune Sera pharmacology, Lethal Dose 50, Metalloproteases metabolism, Mice, Neurotoxins analysis, Neurotoxins chemistry, Phospholipases A2, Secretory antagonists & inhibitors, Phospholipases A2, Secretory immunology, Phospholipases A2, Secretory toxicity, Rabbits, Viper Venoms chemistry, Antibodies blood, Antivenins pharmacology, Hemorrhage metabolism, Viper Venoms antagonists & inhibitors, Viper Venoms toxicity, Viperidae metabolism
Abstract

The venom of Vipera ammodytes ammodytes (Vaa), like the venoms of other Viperinae snakes, is largely haemorrhagic and necrotising, and only to a lesser extent neurotoxic to humans. The components most extensively studied so far, and most probably involved in generating the observed pathologies, are haemorrhagins (H), members of the metalloproteinase group of enzymes, and neurotoxic ammodytoxins (Atxs), that belong to the secretory phospholipases A2. Rabbit antisera were prepared containing functional antibodies specific for each class of pathology-inducing venom constituents and for both classes together. The involvement of these antibodies in neutralising the toxicity of whole Vaa venom was assessed using the ED50 assay in mice. This assay is the only regulatorily approved assay for estimating anti-venom potency and as such has the task to quantify the active compound neutralising venom-induced pathology of the anti-venom. Fully functional anti-Atx antibodies were shown to be responsible for neutralising the portion of venom toxicity, while anti-H antibodies were not protective in this assay. Thus, the mouse ED50 assay, intended to measure the active principle of the anti-venom, does not measure antibodies specific for Vaa venom haemorrhagins, and consequently does not fulfil its primary task from the regulatory point of view., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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