Literature DB >> 33717054

Innate and Adaptive Immunity in Giant Cell Arteritis.

Mitsuhiro Akiyama1, Shozo Ohtsuki1, Gerald J Berry2, David H Liang1, Jörg J Goronzy1, Cornelia M Weyand1.   

Abstract

Autoimmune diseases can afflict every organ system, including blood vessels that are critically important for host survival. The most frequent autoimmune vasculitis is giant cell arteritis (GCA), which causes aggressive wall inflammation in medium and large arteries and results in vaso-occlusive wall remodeling. GCA shares with other autoimmune diseases that it occurs in genetically predisposed individuals, that females are at higher risk, and that environmental triggers are suspected to beget the loss of immunological tolerance. GCA has features that distinguish it from other autoimmune diseases and predict the need for tailored diagnostic and therapeutic approaches. At the core of GCA pathology are CD4+ T cells that gain access to the protected tissue niche of the vessel wall, differentiate into cytokine producers, attain tissue residency, and enforce macrophages differentiation into tissue-destructive effector cells. Several signaling pathways have been implicated in initiating and sustaining pathogenic CD4+ T cell function, including the NOTCH1-Jagged1 pathway, the CD28 co-stimulatory pathway, the PD-1/PD-L1 co-inhibitory pathway, and the JAK/STAT signaling pathway. Inadequacy of mechanisms that normally dampen immune responses, such as defective expression of the PD-L1 ligand and malfunction of immunosuppressive CD8+ T regulatory cells are a common theme in GCA immunopathology. Recent studies are providing a string of novel mechanisms that will permit more precise pathogenic modeling and therapeutic targeting in GCA and will fundamentally inform how abnormal immune responses in blood vessels lead to disease.
Copyright © 2021 Akiyama, Ohtsuki, Berry, Liang, Goronzy and Weyand.

Entities:  

Keywords:  CD8 Treg; NOTCH; PD-L1; T cell; endothelial cell; exosome; macrophage; vasculitis

Mesh:

Substances:

Year:  2021        PMID: 33717054      PMCID: PMC7947610          DOI: 10.3389/fimmu.2020.621098

Source DB:  PubMed          Journal:  Front Immunol        ISSN: 1664-3224            Impact factor:   7.561


  116 in total

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Journal:  Am J Hum Genet       Date:  2013-07-03       Impact factor: 11.025

2.  Assessment for varicella zoster virus in patients newly suspected of having giant cell arteritis.

Authors:  Anthony M Sammel; Susan Smith; Katherine Nguyen; Rodger Laurent; Janice Brewer; Nathan Hall; Christopher B Little
Journal:  Rheumatology (Oxford)       Date:  2020-08-01       Impact factor: 7.580

3.  Treatment of giant cell arteritis: interleukin-6 as a biologic marker of disease activity.

Authors:  C M Weyand; J W Fulbright; G G Hunder; J M Evans; J J Goronzy
Journal:  Arthritis Rheum       Date:  2000-05

Review 4.  VEGF targets the tumour cell.

Authors:  Hira Lal Goel; Arthur M Mercurio
Journal:  Nat Rev Cancer       Date:  2013-12       Impact factor: 60.716

5.  An uneven expression of T cell receptor V genes in the arterial wall and peripheral blood in giant cell arteritis.

Authors:  C Schaufelberger; R Andersson; E Nordborg; G K Hansson; C Nordborg; J Wahlström
Journal:  Inflammation       Date:  2008-12       Impact factor: 4.092

6.  Glucose metabolism controls disease-specific signatures of macrophage effector functions.

Authors:  Ryu Watanabe; Marc Hilhorst; Hui Zhang; Markus Zeisbrich; Gerald J Berry; Barbara B Wallis; David G Harrison; John C Giacomini; Jörg J Goronzy; Cornelia M Weyand
Journal:  JCI Insight       Date:  2018-10-18

Review 7.  The Dawn of the Age of Amino Acid Sensors for the mTORC1 Pathway.

Authors:  Rachel L Wolfson; David M Sabatini
Journal:  Cell Metab       Date:  2017-08-01       Impact factor: 27.287

Review 8.  Therapeutic opportunities of the IL-22-IL-22R1 system.

Authors:  Robert Sabat; Wenjun Ouyang; Kerstin Wolk
Journal:  Nat Rev Drug Discov       Date:  2014-01       Impact factor: 84.694

9.  A Genome-wide Association Study Identifies Risk Alleles in Plasminogen and P4HA2 Associated with Giant Cell Arteritis.

Authors:  F David Carmona; Augusto Vaglio; Sarah L Mackie; José Hernández-Rodríguez; Paul A Monach; Santos Castañeda; Roser Solans; Inmaculada C Morado; Javier Narváez; Marc Ramentol-Sintas; Colin T Pease; Bhaskar Dasgupta; Richard Watts; Nader Khalidi; Carol A Langford; Steven Ytterberg; Luigi Boiardi; Lorenzo Beretta; Marcello Govoni; Giacomo Emmi; Francesco Bonatti; Marco A Cimmino; Torsten Witte; Thomas Neumann; Julia Holle; Verena Schönau; Laurent Sailler; Thomas Papo; Julien Haroche; Alfred Mahr; Luc Mouthon; Øyvind Molberg; Andreas P Diamantopoulos; Alexandre Voskuyl; Elisabeth Brouwer; Thomas Daikeler; Christoph T Berger; Eamonn S Molloy; Lorraine O'Neill; Daniel Blockmans; Benedicte A Lie; Paul Mclaren; Timothy J Vyse; Cisca Wijmenga; Yannick Allanore; Bobby P C Koeleman; Jennifer H Barrett; María C Cid; Carlo Salvarani; Peter A Merkel; Ann W Morgan; Miguel A González-Gay; Javier Martín
Journal:  Am J Hum Genet       Date:  2016-12-29       Impact factor: 11.025

10.  Increased expression of interleukin-22 in patients with giant cell arteritis.

Authors:  Alessandro Zerbini; Francesco Muratore; Luigi Boiardi; Francesco Ciccia; Martina Bonacini; Lucia Belloni; Alberto Cavazza; Luca Cimino; Antonio Moramarco; Riccardo Alessandro; Aroldo Rizzo; Maria Parmeggiani; Carlo Salvarani; Stefania Croci
Journal:  Rheumatology (Oxford)       Date:  2018-01-01       Impact factor: 7.580
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  8 in total

Review 1.  Giant cell arteritis successfully treated with subcutaneous tocilizumab monotherapy.

Authors:  Misako Higashida-Konishi; Mitsuhiro Akiyama; Tatsuya Shimada; Satoshi Hama; Tatsuhiro Oshige; Keisuke Izumi; Hisaji Oshima; Yutaka Okano
Journal:  Rheumatol Int       Date:  2022-09-24       Impact factor: 3.580

Review 2.  Novel PET Imaging of Inflammatory Targets and Cells for the Diagnosis and Monitoring of Giant Cell Arteritis and Polymyalgia Rheumatica.

Authors:  Kornelis S M van der Geest; Maria Sandovici; Pieter H Nienhuis; Riemer H J A Slart; Peter Heeringa; Elisabeth Brouwer; William F Jiemy
Journal:  Front Med (Lausanne)       Date:  2022-06-06

Review 3.  Highlights in clinical medicine-Giant cell arteritis, polymyalgia rheumatica and Takayasu's arteritis: pathogenic links and therapeutic implications.

Authors:  Antonio Giovanni Solimando; Angelo Vacca; Franco Dammacco
Journal:  Clin Exp Med       Date:  2021-11-06       Impact factor: 5.057

Review 4.  Global epidemiology of vasculitis.

Authors:  Richard A Watts; Gulen Hatemi; Jane C Burns; Aladdin J Mohammad
Journal:  Nat Rev Rheumatol       Date:  2021-12-01       Impact factor: 20.543

Review 5.  Age as a risk factor in vasculitis.

Authors:  Andrea D Gloor; Gerald J Berry; Jorg J Goronzy; Cornelia M Weyand
Journal:  Semin Immunopathol       Date:  2022-02-09       Impact factor: 11.759

6.  Intimal macrophages develop from circulating monocytes during vasculitis.

Authors:  Angus T Stock; Sarah Parsons; Varun J Sharma; Fiona James; Graham Starkey; Rohit D'Costa; Claire L Gordon; Ian P Wicks
Journal:  Clin Transl Immunology       Date:  2022-08-13

7.  Intergrated Transcriptomic and Proteomic Analysis Revealed the Differential Responses to Novel Duck Reovirus Infection in the Bursa of Fabricius of Cairna moschata.

Authors:  Tao Yun; Jionggang Hua; Weicheng Ye; Zheng Ni; Liu Chen; Yinchu Zhu; Cun Zhang
Journal:  Viruses       Date:  2022-07-25       Impact factor: 5.818

Review 8.  Advances in the Treatment of Giant Cell Arteritis.

Authors:  Santos Castañeda; Diana Prieto-Peña; Esther F Vicente-Rabaneda; Ana Triguero-Martínez; Emilia Roy-Vallejo; Belén Atienza-Mateo; Ricardo Blanco; Miguel A González-Gay
Journal:  J Clin Med       Date:  2022-03-13       Impact factor: 4.241
  8 in total

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