NFκB Inhibition Mitigates Serum Amyloid A-Induced Pro-Atherogenic Responses in Endothelial Cells and Leukocyte Adhesion and Adverse Changes to Endothelium Function in Isolated Aorta.

Abigail Vallejo,Paul Witting,Joanne Dennis,Belal Chami,Arpeeta Sharma,Martin Simone,Gulfam Ahmad,Nathan Martin,Adrian Abdo,Judy De Haan,Jaye Chin-Dusting,Waled Shihata

doi:10.3390/ijms20010105

Abstract

The acute phase protein serum amyloid A (SAA) is associated with endothelial dysfunction and early-stage atherogenesis. Stimulation of vascular cells with SAA increases gene expression of pro-inflammation cytokines and tissue factor (TF). Activation of the transcription factor, nuclear factor kappa-B (NFκB), may be central to SAA-mediated endothelial cell inflammation, dysfunction and pro-thrombotic responses, while targeting NFκB with a pharmacologic inhibitor, BAY11-7082, may mitigate SAA activity. Human carotid artery endothelial cells (HCtAEC) were pre-incubated (1.5 h) with 10 μM BAY11-7082 or vehicle (control) followed by SAA (10 μg/mL; 4.5 h). Under these conditions gene expression for TF and Tumor Necrosis Factor (TNF) increased in SAA-treated HCtAEC and pre-treatment with BAY11-7082 significantly (TNF) and marginally (TF) reduced mRNA expression. Intracellular TNF and interleukin 6 (IL-6) protein also increased in HCtAEC supplemented with SAA and this expression was inhibited by BAY11-7082. Supplemented BAY11-7082 also significantly decreased SAA-mediated leukocyte adhesion to apolipoprotein E-deficient mouse aorta in ex vivo vascular flow studies. In vascular function studies, isolated aortic rings pre-treated with BAY11-7082 prior to incubation with SAA showed improved endothelium-dependent vasorelaxation and increased vascular cyclic guanosine monophosphate (cGMP) content. Together these data suggest that inhibition of NFκB activation may protect endothelial function by inhibiting the pro-inflammatory and pro-thrombotic activities of SAA.

Highlights

The endothelium plays a critical role in regulating immune processes in the vasculature by providing a structural barrier, a non-thrombogenic surface and maintaining vascular tone [1]
Endothelium activation and dysfunction impact on cardiovascular risk factors such as hypertension [4], type 1 diabetes [5] and rheumatic disorders [6] all diseases characterized by a sustained increase in circulatory levels of several inflammatory biomarkers including serum amyloid A (SAA)
MCool.nSsci.s2te01n8t, 1w9,ixthFOpRrPeEvEioRuRsEVdIEaWta indicating that SAA increased VEGF expression in pri3moaf r1y8 endothelial cells [22], cultured Human carotid artery endothelial cells (HCtAEC) supplemented with 10 μg/mL SAA showed ~2-fold increase iinn sseeccrreettoorryy lleevveellss ooff VVEEGGFF rreellaattiivvee ttoo ccoonnttrrooll cceellllss ((FFiigguurree 11)), aallbbeeiitt tthhiiss ddiidd nnoott rreeaacchh ssttaattiissttiiccaall ssiiggnniiffiiccaannccee

Summary

Introduction

The endothelium plays a critical role in regulating immune processes in the vasculature by providing a structural barrier, a non-thrombogenic surface and maintaining vascular tone [1]. Endothelium activation and dysfunction impact on cardiovascular risk factors such as hypertension [4], type 1 diabetes [5] and rheumatic disorders [6] all diseases characterized by a sustained increase in circulatory levels of several inflammatory biomarkers including serum amyloid A (SAA). SAA is an acute phase protein that is significantly up-regulated by infection or injury [7] Under these conditions (cardiovascular diseases, type 1 diabetes, rheumatic disorders) SAA is produced primarily in the liver [8] other source include coronary artery endothelial cells [9]. Whilst SAA is an acute phase protein, circulating levels are evident in various inflammatory disorders such as non-insulin dependent diabetes and can exceed 2 mg/L in chronic inflammatory conditions [10]

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