Involvement of AQP4 in Phoneutria nigriventer envenoming

Orientador: Maria Alice da Cruz HöflingDissertação (mestrado) - Universidade Estadual de Campinas, Instituto de BiologiaResumo: O veneno da aranha Phoneutria nigriventer (PNV), também conhecida como aranha armadeira, é uma mistura complexa de peptídeos com ação neurotóxica em alguns canais iônicos. No sistema nervoso central (SNC) alguns peptídeos do PNV causam permeabilização da barreira hematoencefálica (BHE) e interferem na liberação de neurotransmissores. A BHE, embora essencial para a manutenção da homeostase do SNC, pode representar uma barreira muito restritiva para o acesso de drogas terapêuticas ao microambiente neural. O entendimento dos mecanismos associados à disfunção da BHE é relevante do ponto de vista científico e médico. O objetivo do estudo foi investigar alguns mecanismos envolvidos na neurotoxicidade do veneno da Phoneutria nigriventer em ratos Wistar (Rattus norvegicus). Para esse fim, o efeito vasogênico causado pela neurotoxicidade do veneno no cérebro, foi examinado através da avaliação da expressão de aquaporina 4 (AQP4), uma proteína formadora dos canais de água e abundantemente localizada nos pés astrocitários perivasculares e relacionada com o aparecimento de edema no cérebro. A análise da expressão da proteína foi feita por imunohistoquímica e western blotting e a expressão de RNAm por PCR em tempo real no cerebelo e hipocampo de animais neonatos (14 dias) e adultos (8 semanas). Os resultados obtidos mostraram aumento da expressão de AQP4 e seu RNAm nos animais envenenados, que entretanto foi variável em função do tempo de envenenamento (2, 5 ou 24 h), da região do cerebelo ou hipocampo examinada e da idade dos animais. Os resultados mostraram também intensa marcação anti-AQP4 ao redor de vasos com edema perivascular ou não, como também entre os corpos neuronais e seus prolongamentos. Concluímos que a AQP4 tem papel nas alterações de volume dos astrócitos perivasculares e na formação e resolução do edema ao redor da BHE causado pelo PNV. A dinâmica da expressão da AQP4 no cerebelo e hipocampo em função do tempo, região e idade dos animais sugere a existência de fatores intrínsicos que modulam diferencialmente a funcionalidade da BHE em função do microambiente local. A compreensão dos mecanismos envolvidos no envenenamento por PNV pode contribuir para o desenvolvimento de ferramentas úteis para a intervenção clínica, bem como pode ser relevante para o entendimento dos mecanismos relacionados ao funcionamento da BHE e de proteínas envolvidas na formação de canais de água, como a AQP4Abstract: The Phoneutria nigriventer spider venom (PNV), also known as armed-spider, is a complex mixture of ion channels-acting peptides which exhibit neurotoxic action. In the central nervous system (CNS), PNV-containing peptides cause permeabilization of the blood-brain barrier (BBB) and interfere with neurotransmitter release. The BBB, although essential for the maintenance of homeostasis of the CNS, may represent a very restrictive barrier for the access of therapeutic drugs into the neural microenvironment. The understanding of BBB impairment-associated mechanisms are of scientific and medical importance. The aim of this study was to investigate some of the mechanisms involved in the neurotoxicity caused by Phoneutria nigriventer venom in Wistar rats (Rattus norvegicus). To this end, the vasogenic effect caused by the venom neurotoxicity in the brain was examined by evaluating the expression of aquaporin 4 (AQP4), a water channel forming protein abundantly expressed in perivascular astrocytic endfeet processes and associated to the formation and resolution of edema in the brain. The analysis of AQP4 expression was assessed in the cerebellum and hippocampus of neonate (14 day-old) and adult rats (8 week-old) through immunohistochemistry and western blotting, and the expression of mRNA by Real Time-PCR. The results showed increases of AQP4 expression and its mRNA in the envenomed animals, which though showed time- (2, 5 or 24h), regional- (regions of the cerebellum and hippocampus examined) and age-associated differences. Marked anti-AQP4 labeling was found around vessels with or without edema and among the neuron bodies and their processes. We conclude that AQP4 has a role in the volume alterations of the perivascular astrocytes and in the formation and resolution of edema around the BBB induced by PNV. The variability of the dynamics of AQP4 expression in the cerebellum and hippocampus in function of the time, region and animals age suggests the existence of intrinsic factors that modulate the BBB functionality depending on the molecular biology dynamics of the local microenvironment. The understanding of the mechanisms involved in the envenomation by PNV can contribute to the development of useful tools for clinical intervention, and may be relevant for understanding the mechanisms related to the functioning of the BBB and proteins involved in the formation of water channels, such as AQP4MestradoHistologiaMestra em Biologia Celular e Estrutura

Age-related modulations of AQP4 and caveolin-1 in the hippocampus predispose the toxic effect of phoneutria nigriventer spider venom

We have previously demonstrated that Phoneutria nigriventer venom (PNV) causes blood–brain barrier (BBB) breakdown, swelling of astrocytes end-feet and fluid permeation into brain interstitium in rats. Caveolae and water channels respond to BBB alterations by co-participation in shear stress response and edema formation/resolution. Herein, we showed post-natal developmental-related changes of two BBB-associated transporter proteins: the endothelial caveolin-1 (Cav-1), the major scaffolding protein from caveolae frame, and the astroglial aquaporin-4 (AQP4), the main water channel protein expressed in astrocytic peri-vascular end-feet processes, in the hippocampus of rats intraperitoneally-administered PNV. Western blotting protein levels; immunohistochemistry (IHC) protein distribution in CA1, CA2, and CA3 subfields; and gene expression by Real Time-Polymerase Chain Reaction (qPCR) were assessed in post-natal Day 14 (P14) and 8–10-week-old rats over critical periods of envenomation. The intensity and duration of the toxic manifestations indicate P14 neonate rats more vulnerable to PNV than adults. Histologically, the capillaries of P14 and 8–10-week-old rats treated with PNV showed perivascular edema, while controls did not. The intensity of the toxic manifestations in P14 decreases temporally (2 > 5 > 24 h), while inversely the expression of AQP4 and Cav-1 peaked at 24 h when clinically PNV-treated animals do not differ from saline controls. IHC of AQP4 revealed that hippocampal CA1 showed the least expression at 2 h when toxic manifestation was maximal. Subfield IHC quantification revealed that in P14 rats Cav-1 peaked at 24 h when toxic manifestations were absent, whereas in 8–10-week-old rats Cav-1 peaked at 2 h when toxic signs were highest, and progressively attenuated such increases until 24 h, remaining though significantly above baseline. Considering astrocyte-endothelial physical and functional interactions, we hypothesize that age-related modulations of AQP4 and Cav-1 might be linked both to changes in functional properties of astrocytes during post-natal development and in the BBB breakdown induced by the venom of P. nigriventer1711CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQFUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP302206/2008-6; 481316/2008-6; 305099/2011-62008/55748-1; 2005/53625-1; 2012/24782-

Vascular Endothelial Growth Factor Increases During Blood-brain Barrier-enhanced Permeability Caused By Phoneutria Nigriventer Spider Venom.

Phoneutria nigriventer spider accidental envenomation provokes neurotoxic manifestations, which when critical, results in epileptic-like episodes. In rats, P. nigriventer venom (PNV) causes blood-brain barrier breakdown (BBBb). The PNV-induced excitotoxicity results from disturbances on Na(+), K(+) and Ca(2+) channels and glutamate handling. The vascular endothelial growth factor (VEGF), beyond its angiogenic effect, also, interferes on synaptic physiology by affecting the same ion channels and protects neurons from excitotoxicity. However, it is unknown whether VEGF expression is altered following PNV envenomation. We found that adult and neonates rats injected with PNV showed immediate neurotoxic manifestations which paralleled with endothelial occludin, β-catenin, and laminin downregulation indicative of BBBb. In neonate rats, VEGF, VEGF mRNA, and Flt-1 receptors, glutamate decarboxylase, and calbindin-D28k increased in Purkinje neurons, while, in adult rats, the BBBb paralleled with VEGF mRNA, Flk-1, and calbindin-D28k increases and Flt-1 decreases. Statistically, the variable age had a role in such differences, which might be due to age-related unequal maturation of blood-brain barrier (BBB) and thus differential cross-signaling among components of the glial neurovascular unit. The concurrent increases in the VEGF/Flt-1/Flk-1 system in the cerebellar neuron cells and the BBBb following PNV exposure might imply a cytokine modulation of neuronal excitability consequent to homeostatic perturbations induced by ion channels-acting PNV neuropeptides. Whether such modulation represents neuroprotection needs further investigation.201472196

Expression Of Vegf And Flk-1 And Flt-1 Receptors During Blood-brain Barrier (bbb) Impairment Following Phoneutria Nigriventer Spider Venom Exposure.

Apart from its angiogenic and vascular permeation activity, the vascular endothelial growth factor (VEGF) has been also reported as a potent neuronal protector. Newborn rats with low VEGF levels develop neuron degeneration, while high levels induce protective mechanisms in several neuropathological conditions. Phoneutria nigriventer spider venom (PNV) disrupts the blood-brain barrier (BBB) and causes neuroinflammation in central neurons along with excitotoxic signals in rats and humans. All these changes are transient. Herein, we examined the expression of VEGF and its receptors, Flt-1 and Flk-1 in the hippocampal neurons following envenomation by PNV. Adult and neonatal rats were evaluated at time limits of 2, 5 and 24 h. Additionally, BBB integrity was assessed by measuring the expression of occludin, β-catenin and laminin and neuron viability was evaluated by NeuN expression. VEGF, Flt-1 and Flk-1 levels increased in PNV-administered rats, concurrently with respective mRNAs. Flt-1 and Flk-1 immunolabeling was nuclear in neurons of hippocampal regions, instead of the VEGF membrane-bound typical location. These changes occurred simultaneously with the transient decreases in BBB-associated proteins and NeuN positivity. Adult rats showed more prominent expressional increases of the VEGF/Flt-1/Flk-1 system and earlier recovery of BBB-related proteins than neonates. We conclude that the reactive expressional changes seen here suggest that VEGF and receptors could have a role in the excitotoxic mechanism of PNV and that such role would be less efficient in neonate rats.52572-8

Not informed by the author

A aprendizagem é um processo de aquisição do conhecimento sobre os eventos do mundo, decorrentes da experiência individual. Várias evidências têm demonstrado a possibilidade de se utilizar o direcionamento do olhar para analisar o processo ensino-aprendizagem. As técnicas de rastreamento de movimentos oculares têm sido utilizadas no estudo da leitura e da compreensão de figuras e, nos últimos anos, passou a ser utilizado em situações reais de ensino. O presente trabalho teve a intenção de investigar a participação da alocação atencional e de movimentos oculares no processo ensino-aprendizagem. Para isso, registramos o comportamento visual de 52 alunos de graduação durante vídeo aula ministrada com o auxílio de slides. A aprendizagem sobre o tema foi avaliada por questionário pré e pós-aula. Além da análise descritiva do rastreamento da atenção visual detectado Eye Tracker, para três áreas de interesse - professor, imagem e texto - organizadas em diferentes áreas temáticas de slides, analisamos as relações entre o número e duração das fixações e visitas do olhar dos alunos com o seu desempenho no questionário pós-aula. A análise de Modelos Lineares Misto demonstrou significante interação área temática*área de interesse para média da duração da fixação (P < 0,001, F660;11 = 18,6), média do número de fixações (P < 0,001, F653;11 = 127,4), média da duração da visita (P < 0,001, F654;11 = 69,7) e média do número de visitas (P < 0,001, F654;11 = 88,8), além de significante interação área de interesse*momento da aula para duração da fixação (P = 0,03, F345;3 = 3,0), número de fixações (P < 0,001, F313;3 = 39,5), duração da visita (P < 0,001, F318;3 = 9,7) e número de visitas (P < 0,001, F302;3 = 38,9). Não houve diferenças em relação aos erros e acertos das questões sobre aprendizado. Embora a análise dos dados tenha colocado o professor seguido da imagem como os elementos mais atendidos ao longo da aula, não foi possível identificar um padrão de comportamento ocular que favorecesse os processos cognitivos envolvidos com a aprendizagem, no modelo aqui proposto. Tomados em conjunto, os resultados do presente trabalho apresentam resultados exploratórios sobre o comportamento ocular que podem direcionar importantes questões metodológicas para futuros trabalhos, como também traz novos questionamentos sobre a importância da interação entre os diversos elementos que compõem uma aulaLearning is a process of acquiring knowledge about the events of the world, arising from the individual experience. A large amount of evidence has demonstrated the possibility of using the direction of the gaze to analyze the teaching-learning process. Techniques for tracking ocular movements have been used in the study of Reading and comprehension of images, and, in the past years, they have begun to be used in real teaching situations. The current work had the intention of investigating the participation of attentional allocation and ocular movements in the teaching-learning process. For that, we recorded the visual behavior of 52 undergraduate students during a video class taught with the aid of slides. Their learning about the topic was assessed through pre- and post-class questionnaires. Besides the descriptive analysis of the visual attention tracking detected by the Eye Tracker, for three areas of interest teacher, image and text organized in different thematic areas of slides, we analyzed the relationship between number and extent of the fixations and visits of the students gaze and their performance in the post-class questionnaire. The analysis of Mixed Linear Models demonstrated a significant thematic area*area of interest interaction for the average of the extent of duration (P < 0.001, F660;11 = 18.6), average of the number of fixations (P < 0.001, F653;11 = 127.4), average of the extent of the visit (P < 0.001, F654;11 = 69.7) and average of the number of visits (P < 0.001, F654;11 = 88.8), as well as a significant area of interest*moment of the class interaction for the extent of the fixation (P < 0.03, F345;3 = 3.0), the number of fixations (P < 0.001, F313;3 = 39.5), the extent of the visit (P < 0.001, F318;3 = 9.7) and the number of visits (P < 0.001, F302;3 = 38.9). There was no difference in relation to the errors and successes in the questions about learning. Although the analysis of the data placed the teacher followed by the image as the most focused on elements throughout the class, it was not possible to identify a pattern of ocular behavior which would favor the cognitive processes involved in learning, in the model proposed here. Taken as a whole, the results of the current research present exploratory results about ocular behavior which may direct important methodological questions for future research, as well as bringing new questioning about the importance of the interaction of the diverse elements which compose a clas

Age-Related Modulations of AQP4 and Caveolin-1 in the Hippocampus Predispose the Toxic Effect of Phoneutria nigriventer Spider Venom

We have previously demonstrated that Phoneutria nigriventer venom (PNV) causes blood–brain barrier (BBB) breakdown, swelling of astrocytes end-feet and fluid permeation into brain interstitium in rats. Caveolae and water channels respond to BBB alterations by co-participation in shear stress response and edema formation/resolution. Herein, we showed post-natal developmental-related changes of two BBB-associated transporter proteins: the endothelial caveolin-1 (Cav-1), the major scaffolding protein from caveolae frame, and the astroglial aquaporin-4 (AQP4), the main water channel protein expressed in astrocytic peri-vascular end-feet processes, in the hippocampus of rats intraperitoneally-administered PNV. Western blotting protein levels; immunohistochemistry (IHC) protein distribution in CA1, CA2, and CA3 subfields; and gene expression by Real Time-Polymerase Chain Reaction (qPCR) were assessed in post-natal Day 14 (P14) and 8–10-week-old rats over critical periods of envenomation. The intensity and duration of the toxic manifestations indicate P14 neonate rats more vulnerable to PNV than adults. Histologically, the capillaries of P14 and 8–10-week-old rats treated with PNV showed perivascular edema, while controls did not. The intensity of the toxic manifestations in P14 decreases temporally (2 &gt; 5 &gt; 24 h), while inversely the expression of AQP4 and Cav-1 peaked at 24 h when clinically PNV-treated animals do not differ from saline controls. IHC of AQP4 revealed that hippocampal CA1 showed the least expression at 2 h when toxic manifestation was maximal. Subfield IHC quantification revealed that in P14 rats Cav-1 peaked at 24 h when toxic manifestations were absent, whereas in 8–10-week-old rats Cav-1 peaked at 2 h when toxic signs were highest, and progressively attenuated such increases until 24 h, remaining though significantly above baseline. Considering astrocyte-endothelial physical and functional interactions, we hypothesize that age-related modulations of AQP4 and Cav-1 might be linked both to changes in functional properties of astrocytes during post-natal development and in the BBB breakdown induced by the venom of P. nigriventer

Expression of VEGF and Flk-1 and Flt-1 Receptors during Blood-Brain Barrier (BBB) Impairment Following Phoneutria nigriventer Spider Venom Exposure

Apart from its angiogenic and vascular permeation activity, the vascular endothelial growth factor (VEGF) has been also reported as a potent neuronal protector. Newborn rats with low VEGF levels develop neuron degeneration, while high levels induce protective mechanisms in several neuropathological conditions. Phoneutria nigriventer spider venom (PNV) disrupts the blood-brain barrier (BBB) and causes neuroinflammation in central neurons along with excitotoxic signals in rats and humans. All these changes are transient. Herein, we examined the expression of VEGF and its receptors, Flt-1 and Flk-1 in the hippocampal neurons following envenomation by PNV. Adult and neonatal rats were evaluated at time limits of 2, 5 and 24 h. Additionally, BBB integrity was assessed by measuring the expression of occludin, β-catenin and laminin and neuron viability was evaluated by NeuN expression. VEGF, Flt-1 and Flk-1 levels increased in PNV-administered rats, concurrently with respective mRNAs. Flt-1 and Flk-1 immunolabeling was nuclear in neurons of hippocampal regions, instead of the VEGF membrane-bound typical location. These changes occurred simultaneously with the transient decreases in BBB-associated proteins and NeuN positivity. Adult rats showed more prominent expressional increases of the VEGF/Flt-1/Flk-1 system and earlier recovery of BBB-related proteins than neonates. We conclude that the reactive expressional changes seen here suggest that VEGF and receptors could have a role in the excitotoxic mechanism of PNV and that such role would be less efficient in neonate rats