RÉSUMÉ
The impact of neurological disorders in society is growing with alarming estimations for an incidence increase in the next decades. These disorders are generally chronic and can affect individuals early during productive life, imposing real limitations on the performance of their social roles. Patients can have their independence, autonomy, freedom, self-image, and self-confidence affected. In spite of their availability, drugs for the treatment of these disorders are commonly associated with side effects, which can vary in frequency and severity. Currently, no effective cure is known. Nowadays, the biopharmaceutical research community widely recognizes arthropod venoms as a rich source of bioactive compounds, providing a plethora of possibilities for the discovery of new neuroactive compounds, opening up novel and attractive opportunities in this field. Several identified molecules with a neuropharmacological profile can act in the central nervous system on different neuronal targets, rendering them useful tools for the study of neurological disorders. In this context, this review aims to describe the current main compounds extracted from arthropod venoms for the treatment of five major existing neurological disorders: stroke, Alzheimers disease, epilepsy, Parkinsons disease, and pathological anxiety.
Sujet(s)
Animaux , Animaux venimeux , Maladies du système nerveux/thérapie , Venins d'arthropode/usage thérapeutiqueRÉSUMÉ
Hyaluronidases are enzymes that mainly degrade hyaluronan, the major glycosaminoglycan of the interstitial matrix. They are involved in several pathological and physiological activities including fertilization, wound healing, embryogenesis, angiogenesis, diffusion of toxins and drugs, metastasis, pneumonia, sepsis, bacteremia, meningitis, inflammation and allergy, among others. Hyaluronidases are widely distributed in nature and the enzymes from mammalian spermatozoa, lysosomes and animal venoms belong to the subclass EC 3.2.1.35. To date, only five three-dimensional structures for arthropod venom hyaluronidases (Apis mellifera and Vespula vulgaris) were determined. Additionally, there are four molecular models for hyaluronidases fromMesobuthus martensii, Polybia paulista and Tityus serrulatus venoms. These enzymes are employed as adjuvants to increase the absorption and dispersion of other drugs and have been used in various off-label clinical conditions to reduce tissue edema. Moreover, a PEGylated form of a recombinant human hyaluronidase is currently under clinical trials for the treatment of metastatic pancreatic cancer. This review focuses on the arthropod venom hyaluronidases and provides an overview of their biochemical properties, role in the envenoming, structure/activity relationship, and potential medical and biotechnological applications.
Sujet(s)
Animaux , Animaux venimeux , Hyaluronoglucosaminidase , Venins d'arthropode/analyse , Venins d'arthropode/usage thérapeutiqueRÉSUMÉ
CONTEXT AND OBJECTIVE: The only effective treatment for patients who have severe reactions after Hymenoptera stings is venom immunotherapy. The aim of this study was to review the literature to assess the effects of venom immunotherapy among patients presenting severe reactions after Hymenoptera stings. DESIGN AND SETTING: Randomized controlled trials in the worldwide literature were reviewed. The manuscript was produced in the Discipline of Allergy and Clinical Immunology, Universidade de São Paulo (USP). METHODS: Randomized controlled trials involving venom immunotherapy versus placebo or only patient follow-up were evaluated. The risk of systemic reactions after specific immunotherapy was evaluated by calculating odds ratios (OR) and their 95 percent confidence intervals. RESULTS: 2,273 abstracts were identified by the keywords search. Only four studies were included in this review. The chi-square test for heterogeneity showed that two studies were homogeneous and could be included in a meta-analysis. By combining the two studies, the odds ratio became significant: 0.29 (0.10-0.87). However, analysis on the severity of the reactions after immunotherapy showed that the benefits may not be so significant because the reactions were mostly similar to or milder than the original reaction. CONCLUSIONS: Specific immunotherapy should be recommended for adults and children with moderate to severe reactions, but there is no need to prescribe it for children with skin reactions alone, especially if the exposure is very sporadic. On the other hand, the risk-benefit relation should always be assessed in each case.
CONTEXTO E OBJETIVO: O único tratamento eficaz para pacientes que têm reações graves após ferroada de Hymenoptera é a imunoterapia com veneno. O objetivo deste estudo foi rever a literatura para avaliar os efeitos da imunoterapia com veneno em pacientes com reações graves após ferroada de Hymenoptera. TIPO DE ESTUDO E LOCAL: Foram revisados na literatura mundial ensaios clínicos controlados e aleatórios. O manuscrito foi realizado na Disciplina de Alergia e Imunologia Clínica, Universidade de São Paulo (USP). MÉTODOS: Ensaios clínicos controlados e aleatórios envolvendo imunoterapia com veneno de Hymenoptera versus placebo ou apenas acompanhamento dos pacientes foram avaliados. Realizada imunoterapia específica, o risco de reações sistêmicas foi avaliado através de cálculo do "odds ratio" e intervalo de confiança de 95 por cento. RESULTADOS: 2.273 resumos foram identificados na busca pelas palavras chave. Apenas quatro estudos foram incluídos nesta revisão. O teste qui-quadrado de heterogeneidade mostrou que dois estudos foram homogêneos e puderam ser incluídos na metanálise. Ao combinar os dois estudos, o "odds ratio" passou a ser significativo: 0.29 (0.10-0.87). Entretanto, ao analisar a gravidade das reações ocorridas após a imunoterapia, observou-se que os benefícios podem não ser tão relevantes, pois as reações foram, na grande maioria, ou mais leves ou semelhantes à reação original. CONCLUSÕES: A imunoterapia específica deve ser recomendada para adultos e crianças com reações moderadas a graves, porém não há necessidade de prescrevê-la para as crianças apenas com reações cutâneas, especialmente se a exposição é muito esporádica. No outro lado, a relação risco-benefício deve ser sempre avaliada em cada caso.
Sujet(s)
Humains , Animaux , Venins d'arthropode/usage thérapeutique , Hymenoptera/immunologie , Hypersensibilité/thérapie , Immunothérapie/méthodes , Venins d'arthropode/immunologie , Venins d'abeille/immunologie , Venins d'abeille/usage thérapeutique , Loi du khi-deux , Hypersensibilité/immunologie , Morsures et piqûres d'insectes/immunologie , Morsures et piqûres d'insectes/thérapie , Odds ratio , Résultat thérapeutique , Venins de guêpe/immunologie , Venins de guêpe/usage thérapeutiqueRÉSUMÉ
El veneno del alacrán azul, Rophalurus junceus es comercializado con el nombre de Escozul. Este producto natural se emplea en el tratamiento de diferentes patologías. Este trabajo evaluó el efecto citotóxico in vitro de este producto en las líneas tumorales P3-X63/AG8/653 y Dunning R3327-G provenientes de mieloma murino y próstata de rata, respectivamente. La citotoxicidad fue evaluada mediante la cinética de crecimiento celular y el daño metabólico. Se utilizaron dosis de 1, 10, 20, 50, 100 y 200 mg/mL. El veneno presentó un efecto citostático dependiente de la línea tumoral en cuestión. Las dosis efectivas variaron entre las líneas celulares ensayadas. Se estudió además la estabilidad del producto almacenado durante 30 días a temperaturas de -20 y 4ºC, se evidenció la pérdida de la actividad biológica. El trabajo demostró la citotoxicidad del veneno crudo del alacrán azul en cultivos celulares.
Poison of blue scorpion (Rophalurus junceus) is marketed as Escozul. This natural product is used in treatment of different pathologies. Present paper evaluated the in vitro cytotoxic effect of this product in P3-X63/AG8/653 and Dunning R3327-G tumor lines from murine myeloma and rat prostate, respectively. Cytotoxic effect was evaluated by means of cellular growing kinetics and the metabolic damage. Doses of 1,10, 20, 50, 100, and 200 ìg/mL. Poison had a cytostatic effect dependent of tumor line at issue. Doses effective varied among the cellular lines assessed. We studied also stability of product stored during 30 days at temperatures of -20° and 4° C, evidenced the loss of biological activity. We showed cytotoxic effect of crude poison of blue scorpion in cellular cultures.