PURPOSE: Because prostaglandins (PGs) are implicated in acute hypercapnia-induced hyperemia, this study was conducted to test the hypothesis that prolonged hypercapnia may cause a sustained increase in retinal blood flow (RBF) through a PG-dependent induction of endothelial nitric oxide synthase (eNOS). METHODS: Time-dependent RBF (microsphere technique), PGE(2), nitrite (NO(2)(-)), and NOS protein (reduced nicotinamide adenine dinucleotide phosphate [NADPH]-diaphorase staining) production were measured in hypercapnia (6% CO(2))-treated piglets. From the same species, PGE(2), eNOS mRNA, NOS protein, and vasomotor responses were measured in eyecup preparations, as were Ca(2+) transients in neuroretinovascular endothelial cells. RESULTS: Hypercapnia caused biphasic (at 0.5 hours and 6-8 hours) increases in RBF that were abolished with normalization of the pH. The early phase (0.5 hour) was associated with an increase in PGE(2) levels and the latter phase (6-8 hours) with an increase in NO(2)(-) and NOS protein. Inhibition of cyclooxygenase by diclofenac prevented the early and late increase in RBF. NOS inhibitor L-nitro-arginine prevented only the latter. Hypercapnic acidosis increased retinal PGE(2) levels and eNOS-dependent vasorelaxation ex vivo. The ex vivo time course of eNOS mRNA expression corresponded with the late-phase increase in RBF and was blocked by the transcription inhibitor actinomycin D and the receptor-operated Ca(2+) channel blocker SK&F96365. In neuroretinovascular cells, acidosis increased Ca(2+) transients, which were inhibited by SK&F96365, but not diclofenac. CONCLUSIONS: This study discloses a previously unexplored mechanism for late retinal hyperemia during sustained hypercapnia that appears secondary to the induced expression of eNOS mediated by PGE(2).
PURPOSE: Because prostaglandins (PGs) are implicated in acute hypercapnia-induced hyperemia, this study was conducted to test the hypothesis that prolonged hypercapnia may cause a sustained increase in retinal blood flow (RBF) through a PG-dependent induction of endothelial nitric oxide synthase (eNOS). METHODS: Time-dependent RBF (microsphere technique), PGE(2), nitrite (NO(2)(-)), and NOS protein (reduced nicotinamide adenine dinucleotide phosphate [NADPH]-diaphorase staining) production were measured in hypercapnia (6% CO(2))-treated piglets. From the same species, PGE(2), eNOS mRNA, NOS protein, and vasomotor responses were measured in eyecup preparations, as were Ca(2+) transients in neuroretinovascular endothelial cells. RESULTS:Hypercapnia caused biphasic (at 0.5 hours and 6-8 hours) increases in RBF that were abolished with normalization of the pH. The early phase (0.5 hour) was associated with an increase in PGE(2) levels and the latter phase (6-8 hours) with an increase in NO(2)(-) and NOS protein. Inhibition of cyclooxygenase by diclofenac prevented the early and late increase in RBF. NOS inhibitor L-nitro-arginine prevented only the latter. Hypercapnic acidosis increased retinal PGE(2) levels and eNOS-dependent vasorelaxation ex vivo. The ex vivo time course of eNOS mRNA expression corresponded with the late-phase increase in RBF and was blocked by the transcription inhibitor actinomycin D and the receptor-operated Ca(2+) channel blocker SK&F96365. In neuroretinovascular cells, acidosis increased Ca(2+) transients, which were inhibited by SK&F96365, but not diclofenac. CONCLUSIONS: This study discloses a previously unexplored mechanism for late retinal hyperemia during sustained hypercapnia that appears secondary to the induced expression of eNOS mediated by PGE(2).
Authors: Dina K Gaynullina; Olga S Tarasova; Anastasia A Shvetsova; Anna A Borzykh; Rudolf Schubert Journal: Int J Mol Sci Date: 2022-05-26 Impact factor: 6.208