Purpose: To analyze the response of different retinal ganglion cell (RGC) populations to NMDA-induced retinal excitotoxicity and the effect of an intraperitoneal treatment with 7,8-Dihydroxyflavone (DHF), a potent selective TrkB agonist.
Methods: Adult albino rats were treated the day prior to NMDA injection and the three following days with intraperitoneal vehicle (1 %DMSO in 0.09 %NaCl) or DHF (5 mg/kg in vehicle) injections. DHF-afforded protection was studied in the population of Brn3a+RGCs, OPN+RGCs (α-RGCs), OPN+ Tbr2+RGCs (αONs-RGCs), OPN+ Tbr2-Brn3a-RGCs (αONt-RGCs) and OPN+Brn3a+RGCs (αOFF-RGCs) at 3,7,14, or 21 days. The functional response was analyzed longitudinally with full-field electroretinograms. The mechanisms underlying DHF-afforded neuroprotection were assessed by western blot (WB) analysis of the levels of phosphorylated and total TrkB, phosphatidylinositol 3 kinase (PIK3/AKT) and mitogen-activated protein kinase (MAPK).
Results: NMDA intravitreal injection resulted in a significant diminution of the mean amplitudes of the pSTR and b-waves, as well as in severe depletion of all RGCs studied except αONt-RGCs. DHF treatment resulted in rescued mean amplitudes of the pSTR and b-waves up to 21 days after NMDA. WB analysis revealed an increase in p-TrkB which correlates to the increase of TRKB protein and an increase in normalized pAKT/AKT. pMAPK/MAPK was upregulated earlier and significantly higher in DHF-treated retinas. DHF afforded survival of up to 49 % of the Brn3a+RGCs versus 25 % of the vehicle group at 21 days after NMDA, and improved survival of the α-RGC and αONs-RGCs but did not rescue the αOFF-RGCs.
Conclusion: Different RGC types exhibit variable susceptibilities to NMDA injury, and DHF-mediated activation of TrkB affords neuroprotection.
Keywords: 7-8 Dihidroxyflavone; N-methyl-D-aspartate; Neuroprotection; Retinal ganglion cells; Signaling pathway; TrkB.
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