OBJECTIVE: The present study was aimed to assess the in vivo acute effects of oleuropein or/and pinoresinol, polyphenols widely diffused in natural sources, on rat pial microvascular responses during transient BCCAO and reperfusion. METHODS: Rat pial microcirculation was visualized by fluorescence microscopy through a closed cranial window. Pial arterioles were classified into five orders of branching. Capillaries were assigned order 0, the smallest arterioles order 1 and the largest ones order 5. RESULTS: Rats subjected to BCCAO and reperfusion showed: arteriolar diameter decrease, microvascular leakage, leukocyte adhesion in venules, and reduction in capillary perfusion. Pretreatment with oleuropein or pinoresinol, a higher dose before BCCAO determined dilation in all arteriolar orders RE. Microvascular leakage was reduced as well as leukocyte adhesion and ROS formation, while capillary perfusion was protected. Inhibition of endothelium nitric oxide synthase prior to oleuropein or pinoresinol reduced the effect of these polyphenols on pial arteriolar diameter and leakage. These substances, administered together, prevented microvascular damage to a larger extent. CONCLUSION: Oleuropein and pinoresinol were both able to protect pial microcirculation from I-reperfusion injury, to increase nitric oxide release and to reduce oxidative stress preserving pial blood flow distribution.
OBJECTIVE: The present study was aimed to assess the in vivo acute effects of oleuropein or/and pinoresinol, polyphenols widely diffused in natural sources, on rat pial microvascular responses during transient BCCAO and reperfusion. METHODS:Rat pial microcirculation was visualized by fluorescence microscopy through a closed cranial window. Pial arterioles were classified into five orders of branching. Capillaries were assigned order 0, the smallest arterioles order 1 and the largest ones order 5. RESULTS:Rats subjected to BCCAO and reperfusion showed: arteriolar diameter decrease, microvascular leakage, leukocyte adhesion in venules, and reduction in capillary perfusion. Pretreatment with oleuropein or pinoresinol, a higher dose before BCCAO determined dilation in all arteriolar orders RE. Microvascular leakage was reduced as well as leukocyte adhesion and ROS formation, while capillary perfusion was protected. Inhibition of endothelium nitric oxide synthase prior to oleuropein or pinoresinol reduced the effect of these polyphenols on pial arteriolar diameter and leakage. These substances, administered together, prevented microvascular damage to a larger extent. CONCLUSION: Oleuropein and pinoresinol were both able to protect pial microcirculation from I-reperfusion injury, to increase nitric oxide release and to reduce oxidative stress preserving pial blood flow distribution.
Authors: María L González; D Mariano A Vera; Jerónimo Laiolo; Mariana B Joray; Mariana Maccioni; Sara M Palacios; Gabriela Molina; Priscila A Lanza; Samanta Gancedo; Vivian Rumjanek; María C Carpinella Journal: Front Pharmacol Date: 2017-04-25 Impact factor: 5.810
Authors: Teresa Mastantuono; Noemy Starita; Daniela Sapio; Sabato Andrea D'Avanzo; Martina Di Maro; Espedita Muscariello; Marco Paterni; Antonio Colantuoni; Dominga Lapi Journal: PLoS One Date: 2016-04-12 Impact factor: 3.240
Authors: Teresa Mastantuono; Noemy Starita; Laura Battiloro; Martina Di Maro; Martina Chiurazzi; Gilda Nasti; Espedita Muscariello; Mario Cesarelli; Luigi Iuppariello; Gianni D'Addio; Alexander Gorbach; Antonio Colantuoni; Dominga Lapi Journal: Front Cell Neurosci Date: 2017-09-25 Impact factor: 5.505