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NADPH oxidase 2 inhibitors CPP11G and CPP11H attenuate endothelial cell inflammation & vessel dysfunction and restore mouse hind-limb flow.

Li, Y; Cifuentes-Pagano, E; DeVallance, ER; de Jesus, DS; Sahoo, S; Meijles, DN; Koes, D; Camacho, CJ; Ross, M; St Croix, C; et al. Li, Y; Cifuentes-Pagano, E; DeVallance, ER; de Jesus, DS; Sahoo, S; Meijles, DN; Koes, D; Camacho, CJ; Ross, M; St Croix, C; Pagano, PJ (2019) NADPH oxidase 2 inhibitors CPP11G and CPP11H attenuate endothelial cell inflammation & vessel dysfunction and restore mouse hind-limb flow. Redox Biol, 22. p. 101143. ISSN 2213-2317 https://doi.org/10.1016/j.redox.2019.101143
SGUL Authors: Meijles, Daniel Nathan

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Abstract

First described as essential to the phagocytic activity of leukocytes, Nox2-derived ROS have emerged as mediators of a range of cellular and tissue responses across species from salubrious to deleterious consequences. Knowledge of their role in inflammation is limited, however. We postulated that TNFα-induced endothelial reactive oxygen species (ROS) generation and pro-inflammatory signaling would be ameliorated by targeting Nox2. Herein, we in silico-modelled two first-in-class Nox2 inhibitors developed in our laboratory, explored their cellular mechanism of action and tested their efficacy in in vitro and mouse in vivo models of inflammation. Our data show that these inhibitors (CPP11G and CPP11H) disrupted canonical Nox2 organizing factor, p47phox, translocation to Nox2 in the plasma membrane; and abolished ROS production, markedly attenuated stress-responsive MAPK signaling and downstream AP-1 and NFκB nuclear translocation in human cells. Consequently, cell adhesion molecule expression and monocyte adherence were significantly inhibited by both inhibitors. In vivo, TNFα-induced ROS and inflammation were ameliorated by targeted Nox2 inhibition, which, in turn, improved hind-limb blood flow. These studies identify a proximal role for Nox2 in propagated inflammatory signaling and support therapeutic value of Nox2 inhibitors in inflammatory disease.

Item Type: Article
Additional Information: © 2019 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/BY-NC-ND/4.0/).
Keywords: Endothelial dysfunction, NADPH oxidase, Reactive oxygen species, Small-molecule inhibitor, Vascular inflammation
SGUL Research Institute / Research Centre: Academic Structure > Molecular and Clinical Sciences Research Institute (MCS)
Journal or Publication Title: Redox Biol
ISSN: 2213-2317
Language: eng
Dates:
DateEvent
April 2019Published
15 February 2019Published Online
13 February 2019Accepted
Publisher License: Creative Commons: Attribution-Noncommercial-No Derivative Works 4.0
Projects:
Project IDFunderFunder ID
R01HL079207National Institutes of Healthhttp://dx.doi.org/10.13039/100000002
P01HL103455-01National Institutes of Healthhttp://dx.doi.org/10.13039/100000002
AHA#18TPA34170069National Institutes of Healthhttp://dx.doi.org/10.13039/100000002
2R01GM097082National Institutes of Healthhttp://dx.doi.org/10.13039/100000002
17POST33660330AHA FellowshipUNSPECIFIED
PubMed ID: 30897521
Go to PubMed abstract
URI: https://openaccess.sgul.ac.uk/id/eprint/110793
Publisher's version: https://doi.org/10.1016/j.redox.2019.101143

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