4.6 Article

Morris water maze overtraining increases the density of thorny excrescences in the basal dendrites of CA3 pyramidal neurons

Journal

BEHAVIOURAL BRAIN RESEARCH
Volume 379, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.bbr.2019.112373

Keywords

Overtraining; Morris water maze; Hippocampus; CA3; Dendritic spines; Thorny excrescences

Funding

  1. Direccion General de Asuntos del Personal Academico, UNAM (Programa de Apoyo a Proyectos de Investigacion e Innovacion Tecnologica), Mexico [IN203616, IN203918]
  2. Consejo Nacional de Ciencia y Tecnologia, Mexico [CB255399]

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The hippocampus plays a fundamental role in spatial learning and memory. Dentate gyrus (DG) granular neurons project mainly to proximal apical dendrites of neurons in the CA3 stratum lucidum and also, to some extent, to the basal dendrites of CA3 pyramidal cells in the stratum oriens. The terminal specializations of DG neurons are the mossy fibers (MF), and these huge axon terminals show expansion in the CA3 stratum oriens after the animals undergo overtraining in the Morris Water Maze task (MWM). However, to our knowledge there are no reports regarding the possible changes in density of post-synaptic targets of these terminals in the basal dendrites of CA3 neurons after overtraining in the MWM. The purpose of this work was to study the density of thorny excrescences (TE) and other dendritic spine types (stubby, thin, and mushroom) in the CA3 stratum oriens in animals overtrained in the MWM for three consecutive days and in animals trained for only one day. Seven days after MWM training, the animals were sacrificed, and their brains removed and processed for rapid Golgi staining to visualize the different types of dendritic protrusions. Our results revealed that the relative quantity of stubby, thin, and mushroom dendritic spines did not change, regardless of amount of training. However, a significant increase in the density of TE was detected in the overtrained animals. These results strongly suggest that spatial water maze overtraining induces an increased density of MF-TE connections, which might be functionally relevant for long-term spatial memory formation.

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