Introducción: Los rafts constituyen nano-dominios estructurales de naturaleza lipoproteica que propician la eficiente transducción de señales y la modulación de procesos fisiológicos asociados a la membrana plasmática. En el sistema nervioso, la alteración de estos dominios se ha asociado con el desarrollo de diversos padecimientos. Desarrollo: En el presente artículo se revisa el concepto de rafts, los procesos del sistema nervioso en los cuales están involucrados y su papel en distintas afectaciones, entre las que se destacan las enfermedades de Parkinson, Alzheimer y Huntington. Conclusiones: Dadas las evidencias de su participación en diversas neuropatologías, la preservación y/o reconstitución de los rafts se vislumbran como una atractiva estrategia terapéutica.(AU)
Introduction: Rafts are function-structural cell membrane nano-domains. They contribute to explain the efficiency of signal transduction at the low physiological membrane concentrations of the signaling partners by their clustering inside specialized signaling domains. Development: In this article, we review the current model of the membrane rafts and their physio-pathological relevance in the nervous system, including their role in Parkinson, Alzheimer, and Huntington diseases. Conclusions: Rafts disruption/dysfunction has been shown to relate diverse neurological diseases. Therefore, it has been suggested that preservation of membrane rafts may represent a strategy to prevent or delay neuronal dysfunctions in several diseases.(AU)
Humans , Male , Female , Nervous System , Parkinson Disease , Alzheimer Disease , Huntington Disease , Cell Membrane , Neurology , Nervous System Diseases , Caveolae , Cholesterol
INTRODUCTION: Rafts are protein-lipid structural nanodomains involved in efficient signal transduction and the modulation of physiological processes of the cell plasma membrane. Raft disruption in the nervous system has been associated with a wide range of disorders. DEVELOPMENT: We review the concept of rafts, the nervous system processes in which they are involved, and their role in diseases such as Parkinson's disease, Alzheimer disease, and Huntington disease. CONCLUSIONS: Based on the available evidence, preservation and/or reconstitution of rafts is a promising treatment strategy for a wide range of neurological disorders.
Alzheimer Disease , Caveolae , Humans , Caveolae/chemistry , Caveolae/metabolism , Membrane Microdomains/chemistry , Membrane Microdomains/metabolism , Cholesterol/analysis , Cholesterol/chemistry , Cholesterol/metabolism , Cell Membrane/metabolism
INTRODUCTION: Rafts are function-structural cell membrane nano-domains. They contribute to explain the efficiency of signal transduction at the low physiological membrane concentrations of the signaling partners by their clustering inside specialized signaling domains. DEVELOPMENT: In this article, we review the current model of the membrane rafts and their physio-pathological relevance in the nervous system, including their role in Parkinson, Alzheimer, and Huntington diseases. CONCLUSIONS: Rafts disruption/dysfunction has been shown to relate diverse neurological diseases. Therefore, it has been suggested that preservation of membrane rafts may represent a strategy to prevent or delay neuronal dysfunctions in several diseases.
