ABSTRACT
A esclerose múltipla é uma doença inflamatória crônica, de origem autoimune, que acarreta diversas alterações motoras, cognitivas e sensitivas. Dentre as alterações sensitivas, a dor é um dos graves problemas que afetam pessoas portadoras desta doença, interferindo com diversos aspectos da vida do paciente. É importante ressaltar que a esclerose múltipla não tem cura, sendo que a terapêutica se concentra nas ações que retardam a progressão da doença e promovem o alívio dos sintomas, melhorando a qualidade da vida do paciente...
Multiple sclerosis is a Central Nervous System Inflamatory demyelinating disease that has as primary symptomps losses of sensory, cognitive and motor functions. Among the sensory alternations, pain is one of the major concern, afecting various aspects of the patients lives...
Subject(s)
Female , Mice , Crotalus/blood , Crotoxin/administration & dosage , Crotoxin/therapeutic use , Multiple Sclerosis/chemically induced , Crotalid Venoms/administration & dosage , Crotalid Venoms/isolation & purification , Crotalid Venoms/therapeutic use , Encephalomyelitis , Encephalomyelitis, Autoimmune, Experimental/physiopathology , Encephalomyelitis, Autoimmune, Experimental/chemically induced , Pain MeasurementABSTRACT
Multiple sclerosis is a neuroinflammatory disease that results in serious neurological disability. Besides physical impairment, behavioral symptoms are also common in patients with multiple sclerosis. Experimental autoimmune encephalomyelitis (EAE) is considered to be a model of multiple sclerosis and mimics the main features of the disease, such as demyelination and motor impairment. In this work, we aimed to study behavioral parameters in animals with EAE using the MOG35-55 model in C57BL/6 mice. We analyzed memory and anxiety in animals using the elevated plus maze, the step down inhibitory avoidance task and the memory recognition test. No differences in any tests were found when comparing controls and animals induced with EAE. Therefore, we conclude that behavioral changes in animals with EAE induced with MOG35-55 are probably subtle or absent.
Esclerose múltipla é uma doença neuroinflamatória que resulta em séria incapacidade neurológica. Além do comprometimento físico, sintomas comportamentais também são comuns em pacientes com esclerose múltipla. A encefalomielite autoimune experimental (EAE) é considerada um modelo de esclerose múltipla e mimetiza as principais caracte-rísticas da doença, como a desmielinização e a fraqueza motora. Neste trabalho, objetivamos estudar parâmetros comportamentais em animais com EAE usando o modelo de MOG35-55 em camundongos C57BL/6. Analisamos memória e ansiedade em animais utilizando o labirinto em cruz elevado, o teste da esquiva inibitória e o teste de memória de reconhecimento. Nenhuma diferença em quaisquer dos testes foi encontrada comparando animais controles e animais induzidos com EAE. Assim, concluímos que alterações comportamentais em animais com EAE induzidos com MOG35-55 são provavelmente sutis ou ausentes.
Subject(s)
Animals , Female , Mice , Anxiety/psychology , Behavior, Animal/physiology , Disease Models, Animal , Encephalomyelitis, Autoimmune, Experimental/psychology , Memory/physiology , Anxiety/physiopathology , Avoidance Learning/physiology , Encephalomyelitis, Autoimmune, Experimental/physiopathology , Maze Learning/physiologyABSTRACT
La esclerosis múltiple (EM) ha sido considerada clásicamente como una enfermedad desmielinzante. Si bien el compromiso neurodegenerativo fue previamente descripto, sólo recientemente ha sido enfatizado. Por estudiosos recientes se ha identificado la degeneración axonal como el mayor determinante de discapacidad neurológica irreversible en pacientes con EM. El daño axonal se inicia tempranamente y permanece silente durante años, la discapacidad neurológica se desarrolla cuando se alcanza cierto umbral de pérdida axonal y los mecanismos de compensación se agotan. Se han propuesto tres hipótesis para explicar el daño axonal: 1) El daño es causado por un proceso inflamatorio, 2) Existe una excesiva acumulación de Ca2+ intra-axonal, 3) Los axones desmienlinizados evolucionan a un proceso degenerativo producto de la falta de soporte trófico provisto por la mielina o células formadoras de mielina. Si bien la EM fue tradicionalmente considerada como una enfermedad de la sustancia blanca, el proceso de desmielinización tambiém ocurre en la corteza cerebral
The concept of multiple sclerosis (MS) as a demyelinating disease is deeply ingrained. Although the existence of a neurodegenerative component has always been apparent, it has only recently become emphasized. Thus, in recent years several studies have identified axonal degeneration as the major determinant of irreversible neurological disability in patients with MS. Axonal injury begins at disease onset and remains clinically silent for many years; irreversible neurological disability develops when a threshold of axonal loss is reached and CNS compensatory mechanisms are exhausted. The precise mechanisms of axonal loss are poorly understood, and three hypotheses have been proposed: 1) The damage is caused by an inflammatory process, 2) There is an excessive accumulation of intra-axonal Ca2+, 3) Demyelinated axons undergo degeneration due to lack of trophic support by myelin, or myelin forming cells. Although MS has traditionally been regarded as a disease of white matter, demyelination can also occur in the cerebral cortex. Cortical lesions exhibit neuronal injury represented by dendritic and axonal transection as well as neuronal apoptosis. Because conventional nuclear magnetic resonance (NMR) is limited in its ability to provide specific information about axonal pathology in MS, new techniques such as, diffusion-weighted MRI, proton magnetic resonance spectroscopy, functional MRI, as well as novel techniques designed to measure atrophy have been developed to monitor MS evolution. Recognition that MS is in part a neurodegenerative disease should trigger critical rethinking on the pathogenic mechanisms of this disease and provides new targets for a rational treatment