Abstract
mGlu5 metabotropic glutamate receptors are highly expressed and functional in the early postnatal life, and are known to positively modulate NMDA receptor function. Here, we examined the expression of NMDA receptor subunits and interneuron-related genes in the prefrontal cortex and hippocampus of mGlu5−/− mice and wild-type littermates at three developmental time points (PND9, − 21, and − 75). We were surprised to find that expression of all NMDA receptor subunits was greatly enhanced in mGlu5−/− mice at PND21. In contrast, at PND9, expression of the GluN2B subunit was enhanced, whereas expression of GluN2A and GluN2D subunits was reduced in both regions. These modifications were transient and disappeared in the adult life (PND75). Changes in the transcripts of interneuron-related genes (encoding parvalbumin, somatostatin, vasoactive intestinal peptide, reelin, and the two isoforms of glutamate decarboxylase) were also observed in mGlu5−/− mice across postnatal development. For example, the transcript encoding parvalbumin was up-regulated in the prefrontal cortex of mGlu5−/− mice at PND9 and PND21, whereas it was significantly reduced at PND75. These findings suggest that in mGlu5−/− mice a transient overexpression of NMDA receptor subunits may compensate for the lack of the NMDA receptor partner, mGlu5. Interestingly, in mGlu5−/− mice the behavioral response to the NMDA channel blocker, MK-801, was significantly increased at PND21, and largely reduced at PND75. The impact of adaptive changes in the expression of NMDA receptor subunits should be taken into account when mGlu5−/− mice are used for developmental studies.
Highlights
One of the earliest discovery in the field of metabotropic glutamate receptors was that glutamatestimulated polyphosphoinositide (PI) hydrolysis was Imbriglio et al Mol Brain (2021) 14:77 NamePrimer Seq 5′– > 3′Gad1 (GAD67) Gad2 (GAD65) Grin1 (GluN1) Grin2A(GluN2A) Grin2B (GluN2B) Grin2C (GluN2C) Grin2D (GluN2D) Parvalbumin gene (Pvalb) Reelin gene (Reln) Sst Tfrc vasoactive intestinal peptide (Vip) hippocampus and corpus striatum [6]
Developmental profile of interneuron‐related genes in the prefrontal cortex and hippocampus of mGlu5−/− mice We first measured the transcripts of interneuron-related genes in the prefrontal cortex and hippocampus of mGlu5−/− mice and their wild-type littermates at three developmental stages (PND9, PND21, and PND75)
We focused on Glutamate decarboxylase 1 (GAD1) and Glutamate decarboxylase 2 (GAD2), encoding the two isoforms (See figure on page.) Fig. 1 Influence of genetic deletion of mGlu5 receptors on the expression of interneuron-related genes in the prefrontal cortex and hippocampus across postnatal development. mRNA levels encoding interneuron-related proteins in the prefrontal cortex and hippocampus at PND9 -21 and -75 are shown in a and b, respectively
Summary
Gad (GAD67) Gad (GAD65) Grin (GluN1) Grin2A(GluN2A) Grin2B (GluN2B) Grin2C (GluN2C) Grin2D (GluN2D) Pvalb (parvalbumin) Reln (reelin) Sst (somatostatin) Tfrc (transferrin receptor) Vip (vasoactive intestinal peptide) hippocampus and corpus striatum [6]. This evidence suggests that mGlu receptors are involved in mechanisms that shape the developmental trajectory of the CNS in the postnatal life. Genetic deletion of mGlu receptors causes alterations in the expression of interneuron-related genes in the prefrontal/frontal cortex and hippocampus of adult mice [18], and disrupted latent inhibition [19]. We have found recently that the density of perineuronal nets (PNNs), which are specialized formations of the extracellular matrix surrounding parvalbuminpositive (PV+) interneurons, was largely increased in the somatosensory cortex of mice lacking mGlu receptors at PND16 [21], suggesting a role for mGlu receptors in mechanisms of developmental plasticity of cortical interneurons
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