Role of phosphorylated Y1252, Y1336 and Y1472 on NR2B subunits in hypoxia tolerance of neuronal cell in vitro.

The N-methyl-D-aspartate (NMDA) receptors are related to the various functioning of the nervous system. It has been shown that the NR2B subunit plays an important role in neurological hypoxic/ischemic diseases by regulating NMDA receptor function. NR2B tyrosine phosphorylation is also an important regulatory mechanism for NMDA receptor function. However, the mechanism of NR2B tyrosine phosphorylation in hypoxic/ischemic injury is still unclear. Therefore, in the present study, we aimed to further clarify the changes in NR2B tyrosine phosphorylation in hypoxic/ischemic damage in the brain and its relationship with neuronal survival under hypoxic/ischemic conditions. Four types of NR2B tyrosine site mutants (Tyr → Phe at 1252, 1336, and 1472, and all three mutations together, named Y1252F, Y1336F, Y1472F, and Triple) and wild-type plasmids were transfected into HT22 cells. The cells were then exposed to oxygen-glucose deprivation and reoxygenation (OGD/R). NR2B, cell apoptosis-related molecules, and neuronal survival factor CREB-related signaling proteins (CaMKII, ERK, Akt) were measured. Cell viability was assessed using the CCK-8 assay. Cell apoptosis and cell cycle were evaluated using flow cytometry. The death ratio of HT22 cells under OGD conditions was further tested using a live cell analysis platform. The viability of HT22 cells in the Y1252F, Y1336F, Y1472F, Triple mutants, and wild-type groups was elevated. Compared to the wild-type, western blotting and real-time PCR showed that Y1252F, Y1336F, Y1472F, and Triple mutants downregulated the expression of apoptosis factors and upregulated anti-apoptosis factors in the OGD/R model. Flow cytometry and cell cycle analysis demonstrated that Y1252F, Y1336F, Y1472F, and Triple mutants reduced the apoptosis rate. The percentage of cells in the S phase decreased significantly. Live cell analysis illustrated that the Y1252F, Y1336F, Y1472F, and Triple mutants contributed to HT22 cell survival under OGD conditions. Additionally, the Y1252F, Y1336F, Y1472F, and Triple mutants activated the survival signaling pathway. Furthermore, compared to the control group (without plasmid), only the Y1336F, Y1472F, and Triple mutants groups showed significant differences in the above tests. The tyrosine phosphorylation of NR2B at Y1336 and Y1472 plays key roles in hypoxic/ischemic injury. These phosphorylation sites may be potential targets for hypoxic/ischemic neural protection.