Systemic administration of interleukin-1 beta activates select populations of central amygdala afferents

The central nucleus of the amygdala (CeA) is activated robustly by an immune challenge such as the systemic administration of the proinflammatory cytokine interleukin-1beta (IL-1beta). Because IL-1beta is not believed to cross the blood-brain barrier in any significant amount, it is likely that IL-1beta elicits CeA cell recruitment by means of activation of afferents to the CeA. However, although many studies have investigated the origins of afferent inputs to the CeA, we do not know which of these also respond to IL-1beta. Therefore, to identify candidate neurons responsible for the recruitment of CeA cells by an immune challenge, we iontophoretically deposited a retrograde tracer, cholera toxin b-subunit (CTb), into the CeA of rats 7 days before systemic delivery of IL-1beta (1 mug/kg, i.a.). By using combined immunohistochemistry, we then quantified the number of Fos-positive CTb cells in six major regions known to innervate the CeA. These included the medial prefrontal cortex, paraventricular thalamus (PVT), ventral tegmental area, parabrachial nucleus (PB), nucleus tractus solitarius, and ventrolateral medulla. Our results show that after deposit of CTb into the CeA, the majority of double-labeled cells were located in the PB and the PVT, suggesting that CeA cell activation by systemic IL-1beta is likely to arise predominantly from cell bodies located in these regions. These findings may have significant implications in determining the central pathways involved in generating acute central responses to a systemic immune challenge. J. Comp. Neurol. 452:288-296, 2002. (C) 2002 Wiley-Liss, Inc.

Opposing roles for medial and central amygdala in the initiation of noradrenergic cell responses to a psychological stressor

Psychological stressors trigger the activation of medullary noradrenergic cells, an effect that has been shown to depend upon yet-to-be-identified structures located higher in the brain. To test whether the amygdala is important in this regard, we examined the effects of amygdala lesions on noradrenergic cell responses to restraint, and also looked at whether any amygdala cells that respond to restraint project directly to the medulla. Ibotenic acid lesions of the medial amygdala completely abolished restraint-induced Fos expression in A1 and A2 noradrenergic cells. In contrast, lesions of the central amygdala actually facilitated noradrenergic cell responses to restraint. Tracer deposits in the dorsomedial (but not ventrolateral) medulla retrogradely labelled many cells in the central nucleus of the amygdala, but none of these cells expressed Fos in response to restraint. These data suggest for the first time that the medial amygdala is critical to the activation of medullary noradrenergic cells by a psychological stressor whereas the central nucleus exerts an opposing, inhibitory influence upon noradrenergic cell recruitment. The initiation of noradrenergic cell responses by the medial amygdala does not involve a direct projection to the medulla. Accordingly, a relay through some other structure, such as the hypothalamic paraventricular nucleus, warrants careful consideration.

The embryonic development of the bodywall and nervous system of the cestode flatworm Hymenolepis diminuta

Cestodes (tapeworms) are a derived, parasitic clade of the phylum Platyhelminthes (flatworms). The cestode body wall represents an adaptation to its endoparasitic lifestyle. The epidermis forms a nonciliated syncytium, and both muscular and nervous system are reduced. Morphological differences between cestodes and free-living flatworms become apparent already during early embryogenesis. Cestodes have a complex life cycle that begins with an infectious larva, called the oncosphere. In regard to cell number, cestode oncospheres are among the simplest multicellular organisms, containing in the order of 50-100 cells. As part of our continuing effort to analyze embryonic development in flatworms, we describe here the staining pattern obtained with acTub in embryos and larvae of the cestode Hymenolepis diminuta and, briefly, the monogenean Neoheterocotyle rhinobatidis. In addition, we labeled the embryonic musculature of Hymenolepis with phalloidin. In Hymenolepis embryos, two different cell types that we interpret as neurons and epidermal gland cells express acTub. There exist only two neurons that develop close to the midline at the anterior pole of the embryo. The axons of these two neurons project posteriorly into the center of the oncosphere, where they innervate the complex of muscles that is attached to the booklets. In addition to neurons, acTub labels a small and invariant set of epidermal gland cells that develop at superficial positions, anteriorly adjacent to the neurons, in the dorsal midline, and around the posteriorly located hooklets. During late stages of embryogenesis they spread and form a complete covering of the embryo. We discuss these data in the broader context of platyhelminth embryology.

Analysis of the mouse transcriptome for genes involved in the function of the nervous system

We analyzed the mouse Representative Transcript and Protein Set for molecules involved in brain function. We found full-length cDNAs of many known brain genes and discovered new members of known brain gene families, including Family 3 G-protein coupled receptors, voltage-gated channels, and connexins. We also identified previously unknown candidates for secreted neuroactive molecules. The existence of a large number of unique brain ESTs suggests an additional molecular complexity that remains to be explored. A list of genes containing CAG stretches in the coding region represents a first step in the potential identification of candidates for hereditary neurological disorders.

Reorganização dos componentes neuro-motores com influência na marcha em indivíduos com lesão do sistema nervoso central - impacto funcional

Objectivo: Avaliar o impacto qualitativo de um programa de intervenção em fisioterapia, segundo o Conceito de Bobath, nas actividades e participação de dois indivíduos com lesão do Sistema Nervoso Central. Avaliar as modificações no comportamento da actividade muscular ao longo da fase de apoio do ciclo da marcha, na força de reacção ao solo e respectiva contribuição muscular. Metodologia: A avaliação realizou-se antes e após um programa de intervenção, segundo a abordagem do Conceito de Bobath, através da Classificação Internacional de Funcionalidade, Incapacidade e Saúde, electromiografia, plataforma de forças e máquina fotográfica. Resultados: Obteve-se melhorias na restrição da participação e na limitação da actividade. Verifica-se uma tendência de modificação do comportamento muscular ao longo da fase de apoio e na componente antero-posterior (Fy), mais evidente no mecanismo de aceleração. A mudança na contribuição muscular para a este mecanismo é mais evidente. Conclusão: O programa de intervenção, segundo o Conceito de Bobath, induziu mudanças positivas quanto à funcionalidade dos indivíduos, reflectindo-se na possibilidade de reorganização dos componentes neuro-motores em indivíduos com lesão do Sistema Nervoso Central.

Intelligent Bio-Inspired system for manufacturing scheduling under uncertainties

A novel approach to scheduling resolution by combining Autonomic Computing (AC), Multi-Agent Systems (MAS), Case-based Reasoning (CBR), and Bio-Inspired Optimization Techniques (BIT) will be described. AC has emerged as a paradigm aiming at incorporating applications with a management structure similar to the central nervous system. The main intentions are to improve resource utilization and service quality. In this paper we envisage the use of MAS paradigm for supporting dynamic and distributed scheduling in Manufacturing Systems with AC properties, in order to reduce the complexity of managing manufacturing systems and human interference. The proposed CBR based Intelligent Scheduling System was evaluated under different dynamic manufacturing scenarios.

Lesões do Sistema Nervoso Central na Síndroma de Adams-Oliver

Reportam-se dois casos de doentes do sexo feminino com dois anos de idade e síndrome Adams-Oliver, que se caracteriza por um defeito congénito do escalpe e alterações malformativas congénitas dos membros, a que se associaram malformações e complicações do SNC. O diagnóstico foi feito à nascença e a aplasia cútis congénita caracterizava-se não só por extenso defeito no escalpe, mas também no osso subjacente, com exposição dos seios durais. A variabilidade das duas situações clinicas, traduziu-se essencialmente pela exetnsão e gravidade das lesões osteocutâneas dos membros e do crânio, pelas anomalias do SNC e pelo tipo de intercorrências. Numa criança detectou-se por TC e RM hemimegalencefalia focal do hemisfério direito e a outra apresentou durante o decuros da doença lesões encefaloclásticas e herniação encefálica, que necessitou de correcção cirúrgica. Ambas sobreviveram, mas o diagnóstico de lesão malformativa do SNC e a ocorrência de lesões encefaloclásticas modificaram de forma determinante o prognóstico inicial.

Linfoma Primitivo do Sistema Nervoso Central em Doente com Sida

O aumento da incidência do linfoma cerebral primitivo parece ser real em pessoas imunologicamente normais. Contudo, os linfomas do sistema nervoso central têm uma muito maior incidência em doentes imunodeprimidos tais como os submetidos a transplantes cardíacos ou renais, doentes com deficiência de IgA ou síndrome de Wiskott-Aldrich. Assim, não é surpreendente o aumento da predisposição dos doentes com a síndrome de imunodeficiência adquirida para os linfomas do sistema nervoso central, sendo esta a segunda causa mais frequente de lesão ocupando espaço intracerebral nesta população. Os autores descrevem o caso de uma mulher de 36 anos com síndrome de imunodeficiência adquirida e uma lesão ocupando espaço intracerebral que demonstraram tratar-se de um linfoma cerebral.

Involvement of the autonomic nervous system in Chagas heart disease

The autonomic nervous system and especially the intracardiac autonomic nervous system is involved in Chagas' disease. Ganglionitis and periganglionitis were noted in three groups ofpatients dying with Chagas'disease: 1) Those in heart failure; 2) Those dying a sudden, non violent death and; 3) Those dying as a consequence ofaccidents or homicide. Hearts in the threegroups also revealed myocarditis and scattered involvement of intramyocardial ganglion cells as well as lesions of myelinic and unmyelinic fibers ascribable to Chagas'disease. In mice with experimentally induced Chagas' disease weobserved more intensive neuronal lesions of the cardiac ganglia in the acute phase of infection. Perhaps neuronal loss has a role in the pathogenesis of Chagas cardiomyopathy. However based on our own experience and on other data from the literature we conclude that the loss of neurones is not the main factor responsible for the manifestations exhibited by chronic chagasic patients. On the other hand the neuronal lesions may have played a role in the sudden death ofone group of patients with Chagas'disease but is difficult to explain the group of patients who did not die sudderly but instead progressed to cardiac failure.