Cornelia M Weyand1, Brian R Younge, Jörg J Goronzy. 1. Kathleen B. and Mason Lowance Center for Human Immunology and Rheumatology, Emory University, Atlanta, Georgia 30322, USA. cweyand@emory.edu
Abstract
PURPOSE OF REVIEW: Inflammatory vasculopathies, spanning from atherosclerosis to vasculitides, are driven by innate and adaptive immune responses. Instructed by antigen-presenting cells, T cells have unsurpassed skills to orchestrate protective and pathogenic immunity. Pro-inflammatory and anti-inflammatory T cells regulate master pathogenic pathways, providing a framework for novel immunotherapeutic strategies. RECENT FINDINGS: The multilayered wall of macrovessels creates a unique tissue niche; professional antigen-presenting cells, specifically dendritic cells, are superior in triggering and maintaining T-cell responses in this tissue milieu. Plaque-residing dendritic cells sense pathogen-derived motifs and edit inflammatory responses. T cells respond to antigen but antigen-nonspecific factors setting cellular response thresholds may be equally important. Dysregulated signal transduction pathways emerge as highly relevant in biasing T cells toward hyperresponsiveness. In the inflamed atheroma and in arteritic lesions, pathogenic T cells coordinate multiple injury pathways. Besides inducing tissue-damaging macrophage functions, they directly inflict cellular injury within the arterial wall. Distinctively, selected T cells induce smooth muscle cell apoptosis, most prominently by upregulating the death-receptor ligand TRAIL. SUMMARY: Innate sentinels, specifically dendritic cells, populate normal arteries, intramural vasculitic lesions, and the inflamed atheroma. They sense microbial motifs and instruct T cells toward pro-inflammatory and tissue-destructive effector functions. Microenvironmental factors imposed by the unique structure of the arterial wall appear to be highly conserved across disease entities, modulating inflammation in atherosclerosis and arteritis.
PURPOSE OF REVIEW: Inflammatory vasculopathies, spanning from atherosclerosis to vasculitides, are driven by innate and adaptive immune responses. Instructed by antigen-presenting cells, T cells have unsurpassed skills to orchestrate protective and pathogenic immunity. Pro-inflammatory and anti-inflammatory T cells regulate master pathogenic pathways, providing a framework for novel immunotherapeutic strategies. RECENT FINDINGS: The multilayered wall of macrovessels creates a unique tissue niche; professional antigen-presenting cells, specifically dendritic cells, are superior in triggering and maintaining T-cell responses in this tissue milieu. Plaque-residing dendritic cells sense pathogen-derived motifs and edit inflammatory responses. T cells respond to antigen but antigen-nonspecific factors setting cellular response thresholds may be equally important. Dysregulated signal transduction pathways emerge as highly relevant in biasing T cells toward hyperresponsiveness. In the inflamed atheroma and in arteritic lesions, pathogenic T cells coordinate multiple injury pathways. Besides inducing tissue-damaging macrophage functions, they directly inflict cellular injury within the arterial wall. Distinctively, selected T cells induce smooth muscle cell apoptosis, most prominently by upregulating the death-receptor ligand TRAIL. SUMMARY: Innate sentinels, specifically dendritic cells, populate normal arteries, intramural vasculitic lesions, and the inflamed atheroma. They sense microbial motifs and instruct T cells toward pro-inflammatory and tissue-destructive effector functions. Microenvironmental factors imposed by the unique structure of the arterial wall appear to be highly conserved across disease entities, modulating inflammation in atherosclerosis and arteritis.
Authors: Wei Ma Krupa; Misha Dewan; Myung-Shin Jeon; Paul J Kurtin; Brian R Younge; Jörg J Goronzy; Cornelia M Weyand Journal: Am J Pathol Date: 2002-11 Impact factor: 4.307
Authors: Astrid Borkowski; Brian R Younge; Luke Szweda; Bettina Mock; Johannes Björnsson; Kerstin Moeller; Jörg J Goronzy; Cornelia M Weyand Journal: Am J Pathol Date: 2002-07 Impact factor: 4.307
Authors: Jiusheng Deng; Brian R Younge; Richard A Olshen; Jörg J Goronzy; Cornelia M Weyand Journal: Circulation Date: 2010-02-08 Impact factor: 29.690
Authors: Zuzana Tobiasova; Lufeng Zhang; Tai Yi; Linfeng Qin; Thomas D Manes; Sanjay Kulkarni; Marc I Lorber; Frederick C Rodriguez; Je-Min Choi; George Tellides; Jordan S Pober; Ivana Kawikova; Alfred L M Bothwell Journal: Circulation Date: 2011-06-20 Impact factor: 29.690