Alterations in protein and gene expression within the barrel cortices of ZnT3 knockout mice: Experience-independent and dependent changes

Much evidence exists for the involvement of vesicular zinc in neurotransmission and cortical plasticity. Recent studies have reported that mice deficient in zinc transporter-3 protein (ZnT3) and thus, vesicular zinc, have significant behavioural and biochemical deficits. Here, we examined whether phenotypic differences existed in the barrel cortices of ZnT3 KO mice using functional proteomics and quantitative PCR. Additionally, by manipulating whisker input, we also investigated experience-dependent changes in protein and gene expression, thereby assaying how cortical plasticity is different in the absence of vesicular zinc. The GABA metabolizing protein ABAT was observed in lower abundances consistently in KO mice. Several presynaptic proteins were identified that were abundant in differing amounts between the WT and KO groups in an experience-dependent manner. At baseline, we observed a decrease in the relative expression of Dlg4, Grin2a, Mt3, and Ntrkb genes in KO mice. The reduced expression of Nrtkb persisted with whisker plucking. These data demonstrate that fundamental changes in the expression of proteins and genes important in neurotransmission occur in the absence of vesicular zinc. Furthermore, the complement of experience-dependent changes were different between WT and KO mice, indicating that the lack of vesicular zinc affects the process of cortical plasticity.

► Vesicular zinc is involved in neurotransmission and cortical plasticity.
► ZnT3 KO mice do not have vesicular zinc and have deficits in learning and memory.
► Changes in protein abundance and gene expression were detected in ZnT3 KO brains.
► Several of the changes are related to neurotransmission and cortical plasticity.
► Some of the observed changes occurred with experience-dependent plasticity.