Age-Induced Spatial Memory Deficits in Rats Are Correlated with Specific Brain Region Alterations in Microglial Morphology and Gene Expression.

Abstract

Effect of age and ladostigil treatment (1mg/kg/day), given for 6months to 16month old rats, was investigated on microglial morphology in brain regions associated with control of spatial learning. This was assessed in the Morris water maze (MWM). Microglial morphology was assessed with diaminobenzidine and fluorescent staining with Iba1 and CD11b in these brain regions. Aging did not change the number of microglia in the parietal cortex (PC) or hippocampal CA1 region (CA1-HC), but decreased microglial process tips in the CA1-HC, increased the area fraction stained by CD11b and number of bulbs on processes in PC and CA1-HC and thickness of microglial processes in corpus callosum (CC) and fornix (Fx). Performance in MWM (distance swam to escape platform) was negatively correlated with number of bulbs in PC and thickness of process in CC, and positively correlated with number of process tips in CA1-HC. Aging increased expression of MHC class II genes and others associated with motility and membrane adhesion in the PC and hippocampus, but Adora2a (Adenosine A2a receptor), only in hippocampus. Age-related increase in the number of bulbs and expression of inflammatory genes was prevented by ladostigil in PC. In the CA1-HC, ladostigil increased the number of process tips and prevented the increase in expression of Adora2a and genes regulating ion channels. Ladostigil also decreased thickening of the processes in CC and Fx. The data show brain region-specific relations induced by age in spatial learning, microglial morphology and associated genes and their response to ladostigil treatment. Graphical Abstract.