The inhibition of DYRK1A (Dual Specificity Tyrosine-Phosphorylation-Regulated Kinase 1A) activity, triplicated in trisomy 21 subjects, has been proved as a promising therapy for Down syndrome. Epigallocatechin-3-gallate (EGCG), a polyphenol of green tea, is an allosteric inhibitor of DYRK1A that showed beneficial pro-cognitive effects in clinical trials with DS individuals. However, EGCG induces several pharmacological effects, and there is no proof that the observed improvements result from DYRK1A inhibition. Besides, the direct consequences of Dyrk1A overexpression are not well defined. We therefore used quantitative proteomics to decipher the proteome and phosphoproteome alterations resulting from Dyrk1A overexpression and its inhibition to get insight into the mechanism of action of EGCG. Towards this aim, we used mice overexpressing Dyrk1A, and compared the hippocampal proteome and phosphoproteome with their wild type counterparts, in basal conditions, and after treatment with EGCG. Moreover, given that the human clinical trials found that the effects of EGCG potentiated the effects of cognitive stimulation, we also included in our study treatment with environmental enrichment and its combination with EGCG. We found that DYRK1A overexpression leads to alterations in protein and phosphoprotein levels of hundreds of proteins, and that the levels of proteins involved in key postsynaptic pathways are restored by the cognitive enhancer treatments, which could help conceiving new therapeutic strategies.