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PLoS Comput Biol ; 5(1): e1000260, 2009 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-19132078

RESUMEN

T-killer cells of the immune system eliminate virus-infected and tumorous cells through direct cell-cell interactions. Reorientation of the killing apparatus inside the T cell to the T-cell interface with the target cell ensures specificity of the immune response. The killing apparatus can also oscillate next to the cell-cell interface. When two target cells are engaged by the T cell simultaneously, the killing apparatus can oscillate between the two interface areas. This oscillation is one of the most striking examples of cell movements that give the microscopist an unmechanistic impression of the cell's fidgety indecision. We have constructed a three-dimensional, numerical biomechanical model of the molecular-motor-driven microtubule cytoskeleton that positions the killing apparatus. The model demonstrates that the cortical pulling mechanism is indeed capable of orienting the killing apparatus into the functional position under a range of conditions. The model also predicts experimentally testable limitations of this commonly hypothesized mechanism of T-cell polarization. After the reorientation, the numerical solution exhibits complex, multidirectional, multiperiodic, and sustained oscillations in the absence of any external guidance or stochasticity. These computational results demonstrate that the strikingly animate wandering of aim in T-killer cells has a purely mechanical and deterministic explanation.


Asunto(s)
Polaridad Celular/inmunología , Activación de Linfocitos/fisiología , Modelos Biológicos , Células T Asesinas Naturales/metabolismo , Animales , Compartimento Celular/inmunología , Centrosoma/inmunología , Centrosoma/metabolismo , Corriente Citoplasmática/inmunología , Humanos , Uniones Intercelulares/inmunología , Microtúbulos/inmunología , Proteínas Motoras Moleculares/inmunología , Células T Asesinas Naturales/inmunología
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