TY - JOUR A2 - Tolias, Kimberly AU - Domínguez-Iturza, Nuria AU - Calvo, María AU - Benoist, Marion AU - Esteban, José Antonio AU - Morales, Miguel PY - 2016 DA - 2016/01/10 TI - Hippocampal Dendritic Spines Are Segregated Depending on Their Actin Polymerization SP - 2819107 VL - 2016 AB - Dendritic spines are mushroom-shaped protrusions of the postsynaptic membrane. Spines receive the majority of glutamatergic synaptic inputs. Their morphology, dynamics, and density have been related to synaptic plasticity and learning. The main determinant of spine shape is filamentous actin. Using FRAP, we have reexamined the actin dynamics of individual spines from pyramidal hippocampal neurons, both in cultures and in hippocampal organotypic slices. Our results indicate that, in cultures, the actin mobile fraction is independently regulated at the individual spine level, and mobile fraction values do not correlate with either age or distance from the soma. The most significant factor regulating actin mobile fraction was the presence of astrocytes in the culture substrate. Spines from neurons growing in the virtual absence of astrocytes have a more stable actin cytoskeleton, while spines from neurons growing in close contact with astrocytes show a more dynamic cytoskeleton. According to their recovery time, spines were distributed into two populations with slower and faster recovery times, while spines from slice cultures were grouped into one population. Finally, employing fast lineal acquisition protocols, we confirmed the existence of loci with high polymerization rates within the spine. SN - 2090-5904 UR - https://doi.org/10.1155/2016/2819107 DO - 10.1155/2016/2819107 JF - Neural Plasticity PB - Hindawi Publishing Corporation KW - ER -