Influence of catch up growth on spatial learning and memory in a mouse model of intrauterine growth restriction.
Cristina Duran Fernandez-FeijooCristina Carrasco CarrascoNúria Villalmazo FranciscoJudit Cebrià RomeroJose Ramon Fernández LorenzoJ C Jiménez-ChillaronMarta Camprubí-CamprubíPublished in: PloS one (2017)
The RN+ group presented a learning curve similar to the NN animals. The RR animals without CUG showed learning disabilities. PSD95 was lower in the RR group than in the NN and RN+ mice. In contrast, synaptophysin was similar in all groups. IR showed an inverse expression pattern to that of the PSD95. In conclusion, perinatal nutrition plays an important role in learning. CUG after a period of prenatal malnutrition seems to improve learning skills. The functional alterations observed might be related to lower PSD95 activity and a possible dysfunction in the hormone regulation of synaptic plasticity.