INTRODUCTION: The cytoskeleton is a complex network of protein fibers that determines the shape of cells. It is essential for the movements of cells and provides the structural support and movements of organelles within the cells, α and β the framework for moving and separating chromosomes during the cell division. The main components of the cytoskeleton are microfilaments, intermediate filaments and microtubules. Microtubules are assembled dimers of a and b tubulin that bind to specific proteins, the microtubules associated proteins (MAPs). Differential association between these proteins enables a wide variety in functional modulation of the cytoskeleton components in the cellular environment. The MAPs expressed in the central nervous system (CNS), MAP2 and tau, have different isoforms generated by alternative splicing. The aim of the present short review is to describe and discuss the key functions of cytoskeleton proteins in physiological and pathological states, mainly in the epileptic condition. RESULTS: The MAPs have critical roles in neurons, they act mainly on the structural formation of these cells, ensuring their morphology and regulating specific functions. Changes in the expression levels of structural proteins are involved in various CNS pathologies such as schizophrenia, temporal lobe epilepsy, cortical dysplasia and developmental disorders. Studies with animal models of epilepsy and human tissue from epileptic patients have shown that seizures can change the expression of cytoskeletal proteins. CONCLUSIONS: Despite the significant amount of knowledge on cytoskeleton and microtubules associated proteins, the precise mechanisms responsible for structural changes found in some pathological conditions are still not known. Besides the well-established role of the cytoskeleton as a structural and cytoarchitectural component, its participation in the facilitation of intracellular trafficking of neurotransmitters and other macromolecules is a function to be further explored and understood.
cytoskeleton; microtubules associated proteins; temporal lobe epilepsy; neuropathology; neurodevelopmental disorders
