The nonsynaptic plasticity in Parkinson's disease: Insights from an animal model

Abstract Background The 6-OHDA nigro-striatal lesion model has already been related to disorders in the excitability and synchronicity of neural networks and variation in the expression of transmembrane proteins that control intra and extracellular ionic concentrations, such as cation-chloride cotransporters (NKCC1 and KCC2) and Na+/K+-ATPase and, also, to the glial proliferation after injury. All these non-synaptic mechanisms have already been related to neuronal injury and hyper-synchronism processes. Objective The main objective of this study is to verify whether mechanisms not directly related to synaptic neurotransmission could be involved in the modulation of nigrostriatal pathways. Methods Male Wistar rats, 3 months old, were submitted to a unilateral injection of 24 µg of 6-OHDA, in the striatum (n= 8). The animals in the Control group (n= 8) were submitted to the same protocol, with the replacement of 6-OHDA by 0.9% saline. The analysis by optical densitometry was performed to quantify the immunoreactivity intensity of GFAP, NKCC1, KCC2, Na+/K+-ATPase, TH and Cx36. Results The 6-OHDA induced lesions in the striatum, were not followed by changes in the expression cation-chloride cotransporters and Na+/K+-ATPase, but with astrocytic reactivity in the lesioned and adjacent regions of the nigrostriatal. Moreover, the dopaminergic degeneration caused by 6-OHDA is followed by changes in the expression of connexin-36. Conclusions The use of the GJ blockers directly along the nigrostriatal pathways to control PD motor symptoms is conjectured. Electrophysiology of the striatum and the substantia nigra, to verify changes in neuronal synchronism, comparing brain slices of control animals and experimental models of PD, is needed.

The amygdala lesioning due to status epilepticus - Changes in mechanisms controlling chloride homeostasis

Objective: Amygdala has been demonstrated as one of the brain sites involved in the control of cardiorespiratory functioning. The structural and physiological alterations induced by epileptic activity are also present in the amygdala and reflect functional changes that may be directly associated with a sudden unexpected death. Seizures are always associated with neuronal damage and changes in the expression of cation-chloride cotransporters and Na/K pumps. In this study, the authors aimed to investigate if these changes are present in the amygdala after induction of status epilepticus with pilocarpine, which may be directly correlated with Sudden Unexpected Death in Epilepsy (SUDEP). Methods: Pilocarpine-treated wistar rats 60 days after Status Epilepticus (SE) were compared with control rats. Amygdala nuclei of brain slices immunostained for NKCC1, KCC2 and α1-Na+/K+-ATPase, were quantified by optical densitometry. Results: The amygdaloid complex of the animals submitted to SE had no significant difference in the NKCC1 immunoreactivity, but KCC2 immunoreactivity reduced drastically in the peri-somatic sites and in the dendritic-like processes. The α1-Na+/K+-ATPase peri-somatic immunoreactivity was intense in the rats submitted to pilocarpine SE when compared with control rats. The pilocarpine SE also promoted intense GFAP staining, specifically in the basolateral and baso-medial nuclei with astrogliosis and cellular debris deposition. Interpretation: The findings revealed that SE induces lesion changes in the expression of KCC2 and α1-Na + /K + -ATPase meaning intense change in the chloride regulation in the amygdaloid complex. These changes may contribute to cardiorespiratory dysfunction leading to SUDEP.

Sudden unexpected death in Parkinson's disease: Insights from clinical practice

Abstract Classified as the second most common neurodegenerative disorder associated with aging after Alzheimer's disease, Parkinson's disease (PD) is the most common movement disorder. In the last decade, despite advances in treatment, mortality rates linked with PD continued to reach significant figures. Available studies have shown that compared with healthy controls, patients with PD are accompanied by high rates of premature death. This is usually caused by factors such as pneumonia and cerebrovascular and cardiovascular diseases. Recently, it has been demonstrated that a significant proportion of patients with PD die suddenly. This is referred to as a sudden and unexpected death in PD (SUDPAR). Here, we focus on the magnitude of SUDPAR. Finally, it is important to learn more about SUDPAR for the implementation of effective prevention strategies.

Alcohol consumption and sudden unexpected death in epilepsy: experimental approach / Consumo de álcool e morte súbita em epilepsia: uma abordagem experimental

Using the pilocarpine model of epilepsy, we investigated the effects of alcohol consumption on the frequency of seizures in animals with epilepsy as well the underlying a possible association between alcohol intake and sudden unexpected death in epilepsy (SUDEP) occurrence. Rats were divided randomly into two groups: (A) rats with epilepsy and (B) rats with epilepsy that received a daily dose of ethanol solution (350 mg kg-1, i.p.) for 30 days. The basal frequency of seizures observed in the A and B groups during the first 30 days were 3.4±1.5 and 3.2±1.9 seizures per week per animal, respectively. In B group, it was observed a significant seizure increase (11.6±5.3) during the first 2 weeks of alcohol administration and quite interesting, one rat died suddenly after a generalized tonic-clonic seizure during this period. We concluded in our experimental study that exist a possible association between alcohol abuse and SUDEP occurrence.

Utilizando o modelo de epilepsia induzido pela pilocarpina, investigamos os efeitos do consumo de álcool sobre a frequência de crises epilépticas em animais com epilepsia, como também uma possível associação entre a ingestão de álcool e ocorrência de morte súbita e inesperada nas epilepsias (SUDEP). Os animais foram randomicamente divididos em dois grupos: (A) ratos com epilepsia e (B) ratos com epilepsia que receberam uma dose diária de etanol (350 mg kg-1, i.p.) por 30 dias consecutivos. A frequência basal de crises epilépticas observadas nos grupos A e B durante os primeiros 30 dias foram de 3,4±1,5 e 3,2±1,9 crises por semana/animal, respectivamente. No grupo B, ocorreu aumento significativo na frequência de crises (11,6±5,3) durante as duas primeiras semanas de administração do álcool e de forma interessante, um animal morreu subitamente após uma crise generalizada tônico-clonica durante esse período. Concluímos em nossa abordagem experimental que existe uma possível associação entre o consumo de álcool e a ocorrência de SUDEP.

Could sudden cardiac death in epilepsy be related to the occurrence of thalamic dysfunction or anatomic change? / A morte súbita cardíaca em epilepsia poderia estar relacionada com a ocorrência de alterações anatômicas ou funcionais do tálamo?

Sudden unexpected death in epilepsy (SUDEP) is the most important direct epilepsy-related cause of death in people with chronic epilepsy. Its physiopathology is still unknown; however, the most commonly suggested potential mechanisms involve cardiac or respiratory abnormalities. As the anatomical substrate of epileptic activity in the central nervous system (CNS) shows a direct relationship with cardiovascular alterations, this may suggests that patients with epilepsy associated with focal CNS lesions may be at particular risk of SUDEP. Currently, experimental and clinical data support an important role for thalamic nuclei in the behavioural manifestations, initiation and propagation of seizures. In view of the above findings, we purpose that SUDEP, at least in some cases, could be related to the occurrence of thalamic dysfunction or anatomic change.

A morte súbita e inesperada nas epilepsias (SUDEP) é a mais importante causa de morte em pacientes com epilepsia. A fisiopatologia da SUDEP ainda é desconhecida, no entanto, os prováveis mecanismos estão relacionados com alterações cardiovasculares ou respiratórias. Como o substrato anatômico da atividade epiléptica no sistema nervoso central (SNC) apresenta direta relação com alterações cardiovasculares, esse fato sugere que pacientes com epilepsia e lesões focais no SNC podem apresentar maior risco para SUDEP. Atualmente, dados experimentais e clínicos demonstram um importante papel dos núcleos talâmicos nas manifestações comportamentais, bem como no início e propagação das crises epilépticas. Sendo assim, nós acreditamos que a SUDEP, pelo menos em alguns casos, poderia estar relacionada com a ocorrência de alterações anatômicas ou disfunções talâmicas.

Is cold the new hot in sudden unexpected death in epilepsy? Effect of low temperature on heart rate of rats with epilepsy / É o frio responsável por mortes inesperadas em epilepsia? Efeito de temperaturas baixas na frequência cardíaca de ratos com epilepsia

Sudden unexpected death in epilepsy (SUDEP) is the commonest cause of seizure-related mortality in people with refractory epilepsy. Several risk factors for SUDEP are described; however, the importance of including low temperatures as risk factor for SUDEP was never explored. Based on this, the aim of this study was to evaluate the heart rate of rats with epilepsy during low temperature exposure. Our results showed that low temperature clearly increased the heart rate of rats with epilepsy. Taken together, we concluded that exposure to low temperatures could be considered important risk factors from cardiovascular abnormalities and hence sudden cardiac death in epilepsy.

A morte súbita e inesperada nas epilepsias (SUDEP) é considerada a maior causa de morte em indivíduos com epilepsia refratária. Vários fatores de risco para SUDEP têm sido descritos, no entanto, a inclusão das baixas temperaturas como um possível fator de risco para SUDEP não foi verificada até o momento. Nesse sentido, o objetivo desse estudo foi verificar a freqüência cardíaca de animais com epilepsia expostos as temperaturas baixas. Nossos resultados demonstraram que as baixas temperaturas são capazes de aumentar significativamente a freqüência cardíaca de animais com epilepsia. Dessa forma, concluímos que as baixas temperaturas podem ser consideradas um importante fator de risco de possíveis alterações cardiovasculares e até mesmo morte súbita cardíaca nas epilepsias.

Descriçäo compartimentalizada das dinâmicas iônicas intra e extracelulares de tecidos neuronais / Compartment description of intracellular and extracellular ionic dynamics of neuronal tissues

Em geral, a modelagem realística de sistemas neuronais considera os circuitos elétricos análogos aos mecanismos de geração de correntes elétricas, potenciais e campos elétricos, não considerando os de difusão e eletrodifusão. Entretanto, na simulação de fenômenos que envolvem grandes fluxos iônicos, tais como o fenômeno da Depressão Alastrante de Leão, onde esses mecanismos são comprovadamente essenciais, faz-se necessária a descrição das dinâmicas iônicas envolvidas. Com esse objetivo, este trabalho apresenta o desenvolvimento de uma representação compartimentalizada para as dinâmicas intra e extracelulares em tecidos neuronais, a qual pode ser verificada como representativa de um modelo analítico, de onde leis básicas, tais como a lei de Fick e a equação de Nerst, podem ser deduzidas.