TRKB signalling controls the expression of N-methyl-d-aspartate receptors in the visual cortex

Ontogeny of postsynaptic density proteins at glutamatergic synapses

In glutamatergic synapses, glutamate receptors (GluRs) associate with many other proteins involved in scaffolding and signal transduction. The ontogeny of these postsynaptic density (PSD) proteins involves changes in their composition during development, paralleling changes in GluR type and function. In the CA1 region of the hippocampus, at postnatal day 2 (P2), many synapses already have a distinct PSD. We used immunoblot analysis, subcellular fractionation, and quantitative immunogold electron microscopy to examine the distribution of PSD proteins during development of the hippocampus. Synapses at P2 contained substantial levels of NR1 and NR2B and most GluR-associated proteins, including SAP102, SynGAP, the chain of proteins from GluRs/SAP102 through GKAP/Shank/Homer and metabotropic glutamate receptors, and the adhesion factors, cadherin, catenin, neuroligin, and Nr-CAM. Development was marked by substantial decreases in NR2B and SAP102 and increases in NR2A, PSD-95, AMPA receptors, and CaMKII. Other components showed more moderate changes.

Cloning and characterization of the chick NMDA receptor subunit-1 gene

The N-methyl-D-aspartate family of glutamate receptors (NMDARs) are tetrameric cation channels including NR1, NR2, and possibly NR3 subunits. The physiological properties of the receptor are directly related to the subunit composition of the oligomer. Whereas NR1 is essential for the formation of functional channels, NR2 and NR3 play a modulatory role. This work reports, for the first time, the cloning of a non-mammalian NR1 gene, including the 5'-regulatory region. The chick gene spans 31 kb of genomic DNA sequence composed of 22 exons interrupted by 21 introns. The exon/intron organization and the deduced amino acid sequence up to the end of exon 19 showed 85% homology to mammalian NR1 cloned genes. Significant differences from mammals were found at the C-terminal region which in the chick gene, includes a novel exon (exon 20) previously identified at the mRNA level in the chick retina. The basal promoter activity was shown to reside within the proximal 377 bp of 5'-regulatory region. The transcriptional activity of the 5'-flanking region of the chick NR1 gene was shown to be higher in neuronally-differentiated PC12 cells and in chick retinal neurons, than in non-differentiated PC12 cells and Müller glia. Comparison of the 5'-flanking region of chick NR1 gene with mammalian NR1 genes suggests that, in spite of significant differences in the nucleotide sequence, they share common DNA binding sites such as RE1, SP1, AP2, CREB, NFkappaB, and MEF2; therefore, some of the molecular mechanisms involved in transcriptional regulation of NR1 gene expression could be conserved among species.

Alpha7 but not alpha4 AChR subunit expression is regulated by light in developing primary visual cortex

In the present paper we analyzed the expression pattern of the alpha4 and alpha7 nicotinic acetylcholine receptor (nAChR) subunits in the rat visual cortex through postnatal development, to clarify whether their expression is developmentally regulated and whether eventual developmental changes are regulated by visual experience. We found that both alpha4 and alpha7 mRNA levels accumulate from postnatal day 12 (P12) before eye opening, to around P35. The immunohistochemical results indicated that both subunits are expressed throughout all cortical laminae, except layer I. Alpha4 subunit immunohistochemistry revealed significant increments in the number of positive cells in layers V and VI after eye opening. In the case of the alpha7 subunit, the number of immunoreactive cells increased in all cortical layers soon after eye opening, except in layer VI, matching the results found at the transcriptional level. In animals reared in darkness from P9 to P22, the relative amount of the alpha4 mRNA and the number of immunoreactive cells exhibited no changes. 3H-epibatidine binding experiments showed that the number of heteromeric nAChR subunits in dark-reared rats did not change with respect to age-matched controls, thus confirming the immunohistochemical results. The mRNA of the alpha7 subunit remained stable in dark-reared rats, whereas the number and distribution of immunoreactive cells changed. Moreover, the number of 125I alphabungarotoxin-binding nAChRs was significantly increased in dark-reared animals. These results indicate that visual cortex stimulation by visual input is an essential step for alpha7 nAChR normal expression, suggesting a possible role for these receptors in an experience-dependent fashion on the maturation of this cortical area.

Dark-rearing decreases NR2A N-methyl-D-aspartate receptor subunit in all visual cortical layers

Maturation of the visual cortex is a visual experience-dependent process. It has been shown that visual input triggers changes in N-methyl-D-aspartate receptor (NMDAR) subunit expression in the visual cortex. However, no data are available on the layer distribution of these molecular changes. Here we describe the laminar distribution of the cells expressing the NMDAR subunits NR2A and NR2B in the rat primary visual cortex at postnatal day (P) 21 and 37 using anti-NR2A and anti-NR2B antibodies and a stereological method to count labelled neurons. The percentage of neurons expressing the NR2A subunit in the layers II-VI remained unchanged between P21 and P37 with a slight decrease in layer V. Dark-rearing from P21 to P37 induced a pronounced decrease of the staining intensity and a significant decrease in the percentage of NR2A-expressing neurons. The changes in NR2A expression caused by dark rearing occur at similar levels in layers II-VI. The percentage of NR2B-positive cells in the different cortical layers remains unchanged from P21 to P37. The NR2B pattern was not significantly affected by dark-rearing. Thusly, the expression of NR2A depends upon visual experience after P21.

NR2A but not NR2B N-methyl-D-aspartate receptor subunit is altered in the visual cortex of BDNF-knock-out mice

1. Aim of the present paper is to study the expression of N-Methyl-D-Aspartate receptor (NMDAR) subunits NR2A and NR2B within mouse visual cortex. 2. To investigate the influence of neurotrophic factor of NGF family (neurotrophins) on NMDAR expression we used mutant mice carrying a deletion in the gene for brain-derived neurotrophic factor (BDNF), a well-known neurotrophin expressed in visual cortex. 3. Western blot and immunohistochemistry were performed at postnatal day P12-14, P21-23, and adulthood showing that both subunits change during postnatal development. 4. Absence of BDNF induced a reduction of NR2A level. This effect was specific since the other subunit investigated, NR2B, was not affected in mutant mice. 5. We conclude that endogenous BDNF modulates NMDAR expression in the developing visual cortex.