Your search keyword '"Weyand, Cornelia M."' showing total 87 results

1. Immunoinhibitory checkpoint deficiency in medium and large vessel vasculitis

Author

Zhang, Hui, Watanabe, Ryu, Berry, Gerald J., Vaglio, Augusto, Liao, Yaping Joyce, Warrington, Kenneth J., Goronzy, Jörg J., and Weyand, Cornelia M.

Published

2017

2. Pathogenesis of Giant Cell Arteritis and Takayasu Arteritis—Similarities and Differences

Author

Watanabe, Ryu, Berry, Gerald J., Liang, David H., Goronzy, Jörg J., and Weyand, Cornelia M.

Published

2020

3. Stem-like CD4+ T cells in perivascular tertiary lymphoid structures sustain autoimmune vasculitis.

Author

Sato, Yuki, Jain, Abhinav, Ohtsuki, Shozo, Okuyama, Hirohisa, Sturmlechner, Ines, Takashima, Yoshinori, Le, Kevin-Phu C., Bois, Melanie C., Berry, Gerald J., Warrington, Kenneth J., Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

T cells, CYTOTOXIC T cells, TERTIARY structure, GIANT cell arteritis, B cell lymphoma

Abstract

Autoimmune vasculitis of the medium and large elastic arteries can cause blindness, stroke, aortic arch syndrome, and aortic aneurysm. The disease is often refractory to immunosuppressive therapy and progresses over decades as smoldering aortitis. How the granulomatous infiltrates in the vessel wall are maintained and how tissue-infiltrating T cells and macrophages are replenished are unknown. Single-cell and whole-tissue transcriptomic studies of immune cell populations in vasculitic arteries identified a CD4+ T cell population with stem cell–like features. CD4+ T cells supplying the tissue-infiltrating and tissue-damaging effector T cells survived in tertiary lymphoid structures around adventitial vasa vasora, expressed the transcription factor T cell factor 1 (TCF1), had high proliferative potential, and gave rise to two effector populations, Eomesodermin (EOMES)+ cytotoxic T cells and B cell lymphoma 6 (BCL6)+ T follicular helper-like cells. TCF1hiCD4+ T cells expressing the interleukin 7 receptor (IL-7R) sustained vasculitis in serial transplantation experiments. Thus, TCF1hiCD4+ T cells function as disease stem cells and promote chronicity and autonomy of autoimmune tissue inflammation. Remission-inducing therapies will require targeting stem-like CD4+ T cells instead of only effector T cells. Editor's summary: Giant cell arteritis (GCA) is an autoimmune disease of the medium and large arteries that affects older adults and is often refractory to standard immunosuppression. Although T cell infiltrates occupy the vessel walls in patients with GCA, the source of these cells, and their importance in driving disease, is unclear. Here, Sato et al. found, using both human aortic tissues and serial transplantation experiments in mice, that a population of stem-like CD4+ T cells residing in tertiary lymphoid structures replenishes pathogenic effector cells independent of secondary lymphoid organs. Targeting such stem-like CD4+ T cells may represent a therapeutic opportunity to halt the chronic progression of autoimmune vasculitis. —Courtney Malo [ABSTRACT FROM AUTHOR]

Published

2023

4. Heterogeneity of memory T cells in aging.

Author

Jain, Abhinav, Sturmlechner, Ines, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

IMMUNOLOGIC memory, CELLULAR aging, BIOLOGICAL systems, HOMEOSTASIS, T cells

Abstract

Immune memory is a requisite and remarkable property of the immune system and is the biological foundation of the success of vaccinations in reducing morbidity from infectious diseases. Some vaccines and infections induce longlasting protection, but immunity to other vaccines and particularly in older adults rarely persists over long time periods. Failed induction of an immune response and accelerated waning of immune memory both contribute to the immunocompromised state of the older population. Here we review how T cell memory is influenced by age. T cell memory is maintained by a dynamic population of T cells that are heterogeneous in their kinetic parameters under homeostatic condition and their function. Durability of T cell memory can be influenced not only by the loss of a clonal progeny, but also by broader changes in the composition of functional states and transition of T cells to a dysfunctional state. Genome-wide single cell studies on total T cells have started to provide insights on the influence of age on cell heterogeneity over time. The most striking findings were a trend to progressive effector differentiation and the activation of pro-inflammatory pathways, including the emergence of CD4+ and CD8+ cytotoxic subsets. Genome-wide data on antigen-specific memory T cells are currently limited but can be expected to provide insights on how changes in T cell subset heterogeneity and transcriptome relate to durability of immune protection. [ABSTRACT FROM AUTHOR]

Published

2023

5. DNA Methylation, Age-Related Immune Defects, and Autoimmunity

Author

Goronzy, Jörg J., Li, Guangjin, Weyand, Cornelia M., and Tollefsbol, Trygve O., editor

Published

2010

6. NADPH oxidase deficiency underlies dysfunction of aged [CD8.sup.+] Tregs

Author

Wen, Zhenke, Shimojima, Yasuhiro, Shirai, Tsuyoshi, Li, Yinyin, Ju, Jihang, Yang, Zhen, Tian, Lu, Goronzy, Jorg J., and Weyand, Cornelia M.

Subjects

CD8 lymphocytes -- Health aspects -- Research, T cells, Oxidases -- Health aspects -- Research, NADP (Coenzyme) -- Physiological aspects -- Research, Health care industry

Abstract

Immune aging results in progressive loss of both protective immunity and T cell-mediated suppression, thereby conferring susceptibility to a combination of immunodeficiency and chronic inflammatory disease. Here, we determined that older individuals fail to generate immunosuppressive [CD8.sup.+][CCR7.sup.+] Tregs, a defect that is even more pronounced in the agerelated vasculitic syndrome giant cell arteritis. In young, healthy individuals, [CD8.sup.+][CCR7.sup.+] Tregs are localized in T cell zones of secondary lymphoid organs, suppress activation and expansion of CD4 T cells by inhibiting the phosphorylation of membrane-proximal signaling molecules, and effectively inhibit proliferative expansion of CD4 T cells in vitro and in vivo. We identified deficiency of NADPH oxidase 2 (NOX2) as the molecular underpinning of CD8 Treg failure in the older individuals and in patients with giant cell arteritis. CD8 Tregs suppress by releasing exosomes that carry preassembled NOX2 membrane clusters and are taken up by CD4 T cells. Overexpression of NOX2 in aged CD8 Tregs promptly restored suppressive function. Together, our data support NOX2 as a critical component of the suppressive machinery of CD8 Tregs and suggest that repairing NOX2 deficiency in these cells may protect older individuals from tissue-destructive inflammatory disease, such as large-vessel vasculitis., Introduction The immune system has evolved to protect the host against pathogens and cancerous cells, while keeping tissue-damaging inflammation at a minimum (1). Tregs serve the imperative role of dampening [...]

Published

2016

7. Mitochondria as disease-relevant organelles in rheumatoid arthritis.

Author

Weyand, Cornelia M, Wu, Bowen, Huang, Tao, Hu, Zhaolan, and Goronzy, Jörg J

Subjects

*AUTOIMMUNE diseases, *ORGANELLES, *MITOCHONDRIA, *RHEUMATOID arthritis, *JOINT pain, *T cells, *TISSUE remodeling

Abstract

Mitochondria are the controllers of cell metabolism and are recognized as decision makers in cell death pathways, organizers of cytoplasmic signaling networks, managers of cellular stress responses, and regulators of nuclear gene expression. Cells of the immune system are particularly dependent on mitochondrial resources, as they must swiftly respond to danger signals with activation, trafficking, migration, and generation of daughter cells. Analogously, faulty immune responses that lead to autoimmunity and tissue inflammation rely on mitochondria to supply energy, cell building blocks and metabolic intermediates. Emerging data endorse the concept that mitochondrial fitness, and the lack of it, is of particular relevance in the autoimmune disease rheumatoid arthritis (RA) where deviations of bioenergetic and biosynthetic flux affect T cells during early and late stages of disease. During early stages of RA, mitochondrial deficiency allows naïve RA T cells to lose self-tolerance, biasing fundamental choices of the immune system toward immune-mediated tissue damage and away from host protection. During late stages of RA, mitochondrial abnormalities shape the response patterns of RA effector T cells engaged in the inflammatory lesions, enabling chronicity of tissue damage and tissue remodeling. In the inflamed joint, autoreactive T cells partner with metabolically reprogrammed tissue macrophages that specialize in antigen-presentation and survive by adapting to the glucose-deplete tissue microenvironment. Here, we summarize recent data on dysfunctional mitochondria and mitochondria-derived signals relevant in the RA disease process that offer novel opportunities to deter autoimmune tissue inflammation by metabolic interference. [ABSTRACT FROM AUTHOR]

Published

2023

8. Regulatory T Cells in Autoimmune Vasculitis.

Author

Jin, Ke, Parreau, Simon, Warrington, Kenneth J., Koster, Matthew J., Berry, Gerald J., Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

REGULATORY T cells, TAKAYASU arteritis, MUCOCUTANEOUS lymph node syndrome, GIANT cell arteritis, VASCULITIS, BLOOD vessels

Abstract

Blood vessels are indispensable for host survival and are protected from inappropriate inflammation by immune privilege. This protection is lost in patients with autoimmune vasculitides, a heterogeneous group of diseases causing damage to arteries, arterioles, and capillaries. Vasculitis leads to vascular wall destruction and/or luminal occlusion, resulting in hemorrhage and tissue ischemia. Failure in the quantity and quality of immunosuppressive regulatory T cells (Treg) has been implicated in the breakdown of the vascular immune privilege. Emerging data suggest that Treg deficiencies are disease-specific, affecting distinct pathways in distinct vasculitides. Mechanistic studies have identified faulty CD8+ Tregs in Giant Cell Arteritis (GCA), a vasculitis of the aorta and the large aortic branch vessels. Specifically, aberrant signaling through the NOTCH4 receptor expressed on CD8+ Treg cells leads to rerouting of intracellular vesicle trafficking and failure in the release of immunosuppressive exosomes, ultimately boosting inflammatory attack to medium and large arteries. In Kawasaki's disease, a medium vessel vasculitis targeting the coronary arteries, aberrant expression of miR-155 and dysregulated STAT5 signaling have been implicated in undermining CD4+ Treg function. Explorations of mechanisms leading to insufficient immunosuppression and uncontrolled vascular inflammation hold the promise to discover novel therapeutic interventions that could potentially restore the immune privilege of blood vessels and pave the way for urgently needed innovations in vasculitis management. [ABSTRACT FROM AUTHOR]

Published

2022

9. miR-181a-regulated pathways in T-cell differentiation and aging.

Author

Kim, Chulwoo, Ye, Zhongde, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

T cells, NON-coding RNA, ACTIVATION energy, VACCINE effectiveness

Abstract

MicroRNAs (miRNAs) are regulatory noncoding RNAs important for many aspects of cellular processes including cell differentiation and proliferation. Functions of numerous miRNAs have been identified in T cells, with miR-181a regulating T cell activation thresholds during thymic T cell development and during activation of peripheral T cells. Intriguingly, miR-181a is implicated in defective antiviral and vaccine responses in older individuals, as its expression declines in naïve T cells with increasing age. Here, we review the pathways that are regulated by miR-181a and that explain the unique role of miR-181a in T cell development, T cell activation and antiviral T cell responses. These studies provide a framework for understanding how a decline in miR-181a expression in T cells could contribute to age-related defects in adaptive immunity. We furthermore review the mechanisms that cause the age-related decline in miR-181a expression and discuss the potential of restoring miR-181a expression or targeting miR-181a-regulated pathways to improve impaired T cell responses in older individuals. [ABSTRACT FROM AUTHOR]

Published

2021

10. Metabolic Control of Autoimmunity and Tissue Inflammation in Rheumatoid Arthritis.

Author

Qiu, Jingtao, Wu, Bowen, Goodman, Stuart B., Berry, Gerald J., Goronzy, Jorg J., and Weyand, Cornelia M.

Subjects

METABOLIC regulation, RHEUMATOID arthritis, CD28 antigen, PENTOSE phosphate pathway, T cells, AUTOIMMUNITY

Abstract

Like other autoimmune diseases, rheumatoid arthritis (RA) develops in distinct stages, with each phase of disease linked to immune cell dysfunction. HLA class II genes confer the strongest genetic risk to develop RA. They encode for molecules essential in the activation and differentiation of T cells, placing T cells upstream in the immunopathology. In Phase 1 of the RA disease process, T cells lose a fundamental function, their ability to be self-tolerant, and provide help for autoantibody-producing B cells. Phase 2 begins many years later, when mis-differentiated T cells gain tissue-invasive effector functions, enter the joint, promote non-resolving inflammation, and give rise to clinically relevant arthritis. In Phase 3 of the RA disease process, abnormal innate immune functions are added to adaptive autoimmunity, converting synovial inflammation into a tissue-destructive process that erodes cartilage and bone. Emerging data have implicated metabolic mis-regulation as a fundamental pathogenic pathway in all phases of RA. Early in their life cycle, RA T cells fail to repair mitochondrial DNA, resulting in a malfunctioning metabolic machinery. Mitochondrial insufficiency is aggravated by the mis-trafficking of the energy sensor AMPK away from the lysosomal surface. The metabolic signature of RA T cells is characterized by the shunting of glucose toward the pentose phosphate pathway and toward biosynthetic activity. During the intermediate and terminal phase of RA-imposed tissue inflammation, tissue-residing macrophages, T cells, B cells and stromal cells are chronically activated and under high metabolic stress, creating a microenvironment poor in oxygen and glucose, but rich in metabolic intermediates, such as lactate. By sensing tissue lactate, synovial T cells lose their mobility and are trapped in the tissue niche. The linkage of defective DNA repair, misbalanced metabolic pathways, autoimmunity, and tissue inflammation in RA encourages metabolic interference as a novel treatment strategy during both the early stages of tolerance breakdown and the late stages of tissue inflammation. Defining and targeting metabolic abnormalities provides a new paradigm to treat, or even prevent, the cellular defects underlying autoimmune disease. [ABSTRACT FROM AUTHOR]

Published

2021

11. Arachidonic acid-regulated calcium signaling in T cells from patients with rheumatoid arthritis promotes synovial inflammation.

Author

Ye, Zhongde, Shen, Yi, Jin, Ke, Qiu, Jingtao, Hu, Bin, Jadhav, Rohit R., Sheth, Khushboo, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

RHEUMATOID arthritis, T cell receptors, T cells, CELL communication, SYSTEMIC lupus erythematosus, ARACHIDONIC acid, CALCIUM channels

Abstract

Rheumatoid arthritis (RA) and psoriatic arthritis (PsA) are two distinct autoimmune diseases that manifest with chronic synovial inflammation. Here, we show that CD4+ T cells from patients with RA and PsA have increased expression of the pore-forming calcium channel component ORAI3, thereby increasing the activity of the arachidonic acid-regulated calcium-selective (ARC) channel and making T cells sensitive to arachidonic acid. A similar increase does not occur in T cells from patients with systemic lupus erythematosus. Increased ORAI3 transcription in RA and PsA T cells is caused by reduced IKAROS expression, a transcriptional repressor of the ORAI3 promoter. Stimulation of the ARC channel with arachidonic acid induces not only a calcium influx, but also the phosphorylation of components of the T cell receptor signaling cascade. In a human synovium chimeric mouse model, silencing ORAI3 expression in adoptively transferred T cells from patients with RA attenuates tissue inflammation, while adoptive transfer of T cells from healthy individuals with reduced expression of IKAROS induces synovitis. We propose that increased ARC activity due to reduced IKAROS expression makes T cells more responsive and contributes to chronic inflammation in RA and PsA. ORAI3 is part of pore forming calcium channels involved in T cell activation. Here the authors show that there is increased expression of ORAI3 in T cells from patients with rheumatoid arthritis and that the transcription factor IKAROS negatively regulates the ORAI3 promoter, indicating a regulatory loop that can control auto-reactivity of T cells in these patients. [ABSTRACT FROM AUTHOR]

Published

2021

12. Distinct Age-Related Epigenetic Signatures in CD4 and CD8 T Cells.

Author

Hu, Bin, Jadhav, Rohit R., Gustafson, Claire E., Le Saux, Sabine, Ye, Zhongde, Li, Xuanying, Tian, Lu, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

T cells, RIBOSOMAL proteins, CELLULAR aging, CELL populations, CELL physiology, CO-sleeping

Abstract

Healthy immune aging is in part determined by how well the sizes of naïve T cell compartments are being maintained with advancing age. Throughout adult life, replenishment largely derives from homeostatic proliferation of existing naïve and memory T cell populations. However, while the subpopulation composition of CD4 T cells is relatively stable, the CD8 T cell compartment undergoes more drastic changes with loss of naïve CD8 T cells and accumulation of effector T cells, suggesting that CD4 T cells are more resilient to resist age-associated changes. To determine the epigenetic basis for these differences in behaviors, we compared chromatin accessibility maps of CD4 and CD8 T cell subsets from young and old individuals and related the results to the expressed transcriptome. The dominant age-associated signatures resembled hallmarks of differentiation, which were more pronounced for CD8 naïve and memory than the corresponding CD4 T cell subsets, indicating that CD8 T cells are less able to keep cellular quiescence upon homeostatic proliferation. In parallel, CD8 T cells from old adults, irrespective of their differentiation state, displayed greater reduced accessibility to genes of basic cell biological function, including genes encoding ribosomal proteins. One possible mechanism is the reduced expression of the transcription factors YY1 and NRF1. Our data suggest that chromatin accessibility signatures can be identified that distinguish CD4 and CD8 T cells from old adults and that may confer the higher resilience of CD4 T cells to aging. [ABSTRACT FROM AUTHOR]

Published

2020

13. Cellular Signaling Pathways in Medium and Large Vessel Vasculitis.

Author

Watanabe, Ryu, Berry, Gerald J., Liang, David H., Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

TAKAYASU arteritis, MULTINUCLEATED giant cells, GIANT cell arteritis, CELLULAR recognition, CD28 antigen, CLINICAL pathology, VASCULITIS, T cells

Abstract

Autoimmune and autoinflammatory diseases of the medium and large arteries, including the aorta, cause life-threatening complications due to vessel wall destruction but also by wall remodeling, such as the formation of wall-penetrating microvessels and lumen-stenosing neointima. The two most frequent large vessel vasculitides, giant cell arteritis (GCA) and Takayasu arteritis (TAK), are HLA-associated diseases, strongly suggestive for a critical role of T cells and antigen recognition in disease pathogenesis. Recent studies have revealed a growing spectrum of effector functions through which T cells participate in the immunopathology of GCA and TAK; causing the disease-specific patterning of pathology and clinical outcome. Core pathogenic features of disease-relevant T cells rely on the interaction with endothelial cells, dendritic cells and macrophages and lead to vessel wall invasion, formation of tissue-damaging granulomatous infiltrates and induction of the name-giving multinucleated giant cells. Besides antigen, pathogenic T cells encounter danger signals in their immediate microenvironment that they translate into disease-relevant effector functions. Decisive signaling pathways, such as the AKT pathway, the NOTCH pathway, and the JAK/STAT pathway modify antigen-induced T cell activation and emerge as promising therapeutic targets to halt disease progression and, eventually, reset the immune system to reestablish the immune privilege of the arterial wall. [ABSTRACT FROM AUTHOR]

Published

2020

14. Long-term immunomodulatory effects of T lymphocyte depletion in patients with systemic sclerosis

Author

Goronzy, Jorg J. and Weyand, Cornelia M.

Subjects

T cells, Scleroderma (Disease) -- Physiological aspects, Health

Abstract

Systemic sclerosis (SSc), also called scleroderma, is a disease that is not well understood. It is characterized by thickening and atrophy of the skin and the formation of fibrous tissue (a dense tissue similar to scar tissue). The disease also affects the lung membranes, kidneys and gastrointestinal tract. There are a few treatments for SSc, but none of them cure the disease. The prognosis or outcome of SSc depends on the severity of damage to the affected organs. Although the cause of the disease is unknown, some studies have suggested that the immune system may be involved. This article describes two patients with SSc who showed signs of improvement after they were treated with drugs that suppress the immune system. The first patient had developed lung and did not respond to standard therapy. The second patient had with extensive skin fibrosis, skin ulcerations, and gangrene in fingers and toes. Both patients were treated with antilymphocyte globulin (ALG), which is a protein that kills T lymphocytes. These lymphocytes are cells of the immune system that fight infection; they may be involved in autoimmune diseases (in which the immune system attacks the body's own tissues). When the two SSc patients were treated with AGL their T lymphocytes were almost completely eliminated. They improved after AGL treatment and continued to improve for six months. Roughly 60 to 90 days were required for the T lymphocytes to be restored. Further studies using larger numbers of SSC patients are needed to fully evaluate the effectiveness of AGL in treating SSc. These results indicate that the immune system plays a role in the onset of SSc. (Consumer Summary produced by Reliance Medical Information, Inc.)

Published

1990

15. Immunometabolism in the development of rheumatoid arthritis.

Author

Weyand, Cornelia M. and Goronzy, Jörg J.

Subjects

*T helper cells, *T cell differentiation, *PENTOSE phosphate pathway, *T cells, *GLUCOSE-6-phosphate dehydrogenase

Abstract

In rheumatoid arthritis (RA), breakdown of self‐tolerance and onset of clinical disease are separated in time and space, supporting a multi‐hit model in which emergence of autoreactive T cells is a pinnacle pathogenic event. Determining factors in T cell differentiation and survival include antigen recognition, but also the metabolic machinery that provides energy and biosynthetic molecules for cell building. Studies in patients with RA have yielded a disease‐specific metabolic signature, which enables naive CD4 T cells to differentiate into pro‐inflammatory helper T cells that are prone to invade into tissue and elicit inflammation through immunogenic cell death. A typifying property of RA CD4 T cells is the shunting of glucose away from glycolytic breakdown and mitochondrial processing toward the pentose phosphate pathway, favoring anabolic over catabolic reactions. Key defects have been localized to the mitochondria and the lysosome; including instability of mitochondrial DNA due to the lack of the DNA repair nuclease MRE11A and inefficient lysosomal tethering of AMPK due to deficiency of N‐myristoyltransferase 1 (NMT1). The molecular taxonomy of the metabolically reprogrammed RA T cells includes glycolytic enzymes (glucose‐6‐phosphate dehydrogenase, phosphofructokinase), DNA repair molecules (MRE11A, ATM), regulators of protein trafficking (NMT1), and the membrane adapter protein TSK5. As the mechanisms determining abnormal T cell behavior in RA are unraveled, opportunities will emerge to interject autoimmune T cells by targeting their metabolic checkpoints. [ABSTRACT FROM AUTHOR]

Published

2020

16. Determinants governing T cell receptor α/β-chain pairing in repertoire formation of identical twins.

Author

Tanno, Hidetaka, Gould, Timothy M., McDaniel, Jonathan R., Cao, Wenqiang, Tanno, Yuri, Durrett, Russell E., Park, Daechan, Cate, Steven J., Hildebrand, William H., Dekker, Cornelia L., Lu Tian, Weyand, Cornelia M., Georgiou, George, and Goronzy, Jörg J.

Subjects

T cell receptors, TWINS, MAJOR histocompatibility complex, AMINO acid sequence, T cells

Abstract

The T cell repertoire in each individual includes T cell receptors (TCRs) of enormous sequence diversity through the pairing of diverse TCR α- and β-chains, each generated by somatic recombination of paralogous gene segments. Whether the TCR repertoire contributes to susceptibility to infectious or autoimmune diseases in concert with disease-associated major histocompatibility complex (MHC) polymorphisms is unknown. Due to a lack in high-throughput technologies to sequence TCR α-β pairs, current studies on whether the TCR repertoire is shaped by host genetics have so far relied only on single-chain analysis. Using a high-throughput single T cell sequencing technology, we obtained the largest paired TCRαβ dataset so far, comprising 965,523 clonotypes from 15 healthy individuals including 6 monozygotic twin pairs. Public TCR α- and, to a lesser extent, TCR β-chain sequences were common in all individuals. In contrast, sharing of entirely identical TCRαβ amino acid sequences was very infrequent in unrelated individuals, but highly increased in twins, in particular in CD4 memory T cells. Based on nucleotide sequence identity, a subset of these shared clonotypes appeared to be the progeny of T cells that had been generated during fetal development and had persisted formore than 50 y. Additional shared TCRαβ in twins were encoded by different nucleotide sequences, implying that genetic determinants impose structural constraints on thymic selection that favor the selection of TCR α-β pairs with entire sequence identities. [ABSTRACT FROM AUTHOR]

Published

2020

17. Cytokines, growth factors and proteases in medium and large vessel vasculitis.

Author

Weyand, Cornelia M., Watanabe, Ryu, Zhang, Hui, Akiyama, Mitsuhiro, Berry, Gerald J., and Goronzy, Jörg J.

Subjects

*ACUTE phase reaction, *GROWTH factors, *GIANT cell arteritis, *TAKAYASU arteritis, *PROTEOLYTIC enzymes, *T cell differentiation, *T cells

Abstract

Giant cell arteritis and Takayasu arteritis are autoimmune vasculitides that cause aneurysm formation and tissue infarction. Extravascular inflammation consists of an intense acute phase response. Deeper understanding of pathogenic events in the vessel wall has highlighted the loss of tissue protective mechanisms, the intrusion of immune cells into "forbidden territory", and the autonomy of self-renewing vasculitic infiltrates. Adventitial vasa vasora critically control vessel wall access and drive differentiation of tissue-invasive T cells. Selected T cells establish tissue residency and build autonomous, self-sufficient inflammatory lesions. Pathogenic effector T cells intrude and survive due to failed immune checkpoint inhibition. Vasculitis-sustaining T cells and macrophages provide a broad portfolio of effector functions, involving heterogeneous populations of pro-inflammatory T cells and diverse macrophage subsets that ultimately induce wall capillarization and intimal hyperplasia. Redirecting diagnostic and therapeutic strategies from control of extravascular inflammatory markers to suppression of vascular inflammation will improve disease management. [ABSTRACT FROM AUTHOR]

Published

2019

18. T cell aging in hypertension.

Author

Weyand, Cornelia M and Goronzy, Jörg J

Subjects

*T cells, *CELLULAR aging, *HYPERTENSION, *SUPPRESSOR cells, *CELL receptors

Published

2021

19. Association of MHC and rheumatoid arthritis:HLA polymorphisms in phenotypic variants of rheumatoid arthritis

Author

Weyand, Cornelia M and Goronzy, Jörg J

Subjects

disease risk genes, T cells, Review, heterogeneity, synovitis, vascular injury

Abstract

Genes in the human leukocyte antigen (HLA) region remain the most powerful disease risk genes in rheumatoid arthritis (RA). Several allelic variants of HLA-DRB1 genes have been associated with RA, supporting a role for T-cell receptor-HLA-antigen interactions in the pathologic process. Disease-associated HLA-DRB1 alleles are similar but not identical and certain allelic variants are preferentially enriched in patient populations with defined clinical characteristics. Also, a gene dosing effect of HLA-DRB1 alleles has been suggested by the accumulation of patients with two RA-associated alleles, especially in patient subsets with a severe disease course. Therefore, polymorphisms in HLA genes are being explored as tools to dissect the clinical heterogeneity of the rheumatoid syndrome. Besides HLA polymorphisms, other risk genes will be helpful in defining genotypic profiles correlating with disease phenotypes. One such phenotype is the type of synovial lesion generated by the patient. HLA genes in conjunction with other genetic determinants may predispose patients to a certain pathway of synovial inflammation. Also, patients may or may not develop extraarticular manifestations, which are critical in determining morbidity and mortality. HLA genes, complemented by other RA risk genes, are likely involved in shaping the T-cell repertoire, including the emergence of an unusual T-cell population characterized by the potential of vascular injury, such as seen in extraarticular RA.

Published

2000

20. Epigenetics of T cell aging.

Author

Goronzy, Jörg J., Hu, Bin, Kim, Chulwoo, Jadhav, Rohit R., and Weyand, Cornelia M.

Subjects

T cells, CELL physiology, DNA methylation, EPIGENETICS, CELL differentiation

Abstract

Abstract: T cells are a heterogeneous population of cells that differ in their differentiation stages. Functional states are reflected in the epigenome that confers stability in cellular identity and is therefore important for naïve as well as memory T cell function. In many cellular systems, changes in chromatin structure due to alterations in histone expression, histone modifications and DNA methylation are characteristic of the aging process and cause or at least contribute to cellular dysfunction in senescence. Here, we review the epigenetic changes in T cells that occur with age and discuss them in the context of canonical epigenetic marks in aging model systems as well as recent findings of chromatin accessibility changes in T cell differentiation. Remarkably, transcription factor networks driving T cell differentiation account for many of the age‐associated modifications in chromatin structures suggesting that loss of quiescence and activation of differentiation pathways are major components of T cell aging. [ABSTRACT FROM AUTHOR]

Published

2018

21. Redox-sensitive signaling in inflammatory T cells and in autoimmune disease.

Author

Weyand, Cornelia M., Shen, Yi, and Goronzy, Jorg J.

Subjects

*ACTIVE oxygen in the body, *OXIDATION-reduction reaction kinetics, *T cells, *CELL cycle, *AUTOIMMUNE disease diagnosis, *PHYSIOLOGY

Abstract

Abstract Reactive oxygen species (ROS) are byproducts of oxygen metabolism best known for their damaging potential, but recent evidence has exposed their role as secondary messengers, which regulate cell function through redox-activatable signaling systems. In immune cells, specifically in T cells, redox-sensitive signaling pathways have been implicated in controlling several functional domains; including cell cycle progression, T effector cell differentiation, tissue invasion and inflammatory behavior. T cells from patients with the autoimmune disease rheumatoid arthritis (RA) have emerged as a valuable model system to examine the functional impact of ROS on T cell function. Notably, RA T cells are distinguished from healthy T cells based on reduced ROS production and undergo “reductive stress”. Upstream defects leading to the ROSlow status of RA T cells are connected to metabolic reorganization. RA T cells shunt glucose away from pyruvate and ATP production towards the pentose phosphate pathway, where they generate NADPH and consume cellular ROS. Downstream consequences of the ROSlow conditions in RA T cells include insufficient activation of the DNA repair kinase ATM, bypassing of the G2/M cell cycle checkpoint and biased differentiation of T cells into IFN-γ and IL-17–producing inflammatory cells. Also, ROSlow T cells rapidly invade into peripheral tissue due to dysregulated lipogenesis, excessive membrane ruffling, and overexpression of a motility module dominated by the scaffolding protein Tks5. These data place ROS into a pinnacle position in connecting cellular metabolism and protective versus auto-aggressive T cell immunity. Therapeutic interventions for targeted ROS enhancement instead of ROS depletion should be developed as a novel strategy to treat autoimmune tissue inflammation. Graphical abstract fx1 Highlights • Pro-inflammatory T cells in rheumatoid arthritis are metabolically reprogrammed. • RA T cells fail to produce ROS and are under “reductive stress. • ROSlow T cells insufficiently activate the kinase Ataxia telangiectasia mutated (ATM), bypass the G2/M cell cycle checkpoint and maldifferentiate. • ROSlow T cells are hypermobile and tissue-invasive due to membrane ruffling. • Targeted ROS enhancement instead of ROS depletion may be immunomodulatory. [ABSTRACT FROM AUTHOR]

Published

2018

22. The immunoinhibitory PD‐1/PD‐L1 pathway in inflammatory blood vessel disease.

Author

Weyand, Cornelia M., Berry, Gerald J., and Goronzy, Jörg J.

Subjects

BLOOD diseases, ATHEROSCLEROTIC plaque, GIANT cell arteritis, BLOOD vessels, T cells, PROGRAMMED cell death 1 receptors

Abstract

Abstract: Because of their vital function, the wall structures of medium and large arteries are immunoprivileged and protected from inflammatory attack. That vascular immunoprivilege is broken in atherosclerosis and in vasculitis, when wall‐invading T cells and macrophages (Mϕ) promote tissue injury and maladaptive repair. Historically, tissue‐residing T cells were studied for their antigen specificity, but recent progress has refocused attention to antigen‐nonspecific regulation, which determines tissue access, persistence, and functional differentiation of T cells. The coinhibitory receptor PD‐1, expressed on T cells, delivers negative signals when engaged by its ligand PD‐L1, expressed on dendritic cells, Mϕ, and endothelial cells to attenuate T cell activation, effector functions, and survival. Through mitigating signals, the PD‐1 immune checkpoint maintains tissue tolerance. In line with this concept, dendritic cells and Mϕs from patients with the vasculitic syndrome giant cell arteritis (GCA) are PD‐L1lo; including vessel‐wall–embedded DCs that guard the vascular immunoprivilege. GCA infiltrates in the arterial walls are filled with PD‐1+ T cells that secrete IFN‐γ, IL‐17, and IL‐21; drive inflammation‐associated angiogenesis; and facilitate intimal hyperplasia. Conversely, chronic tissue inflammation in the atherosclerotic plaque is associated with an overreactive PD‐1 checkpoint. Plaque‐residing Mϕs are PD‐L1hi, a defect induced by their addiction to glucose and glycolytic breakdown. PD‐L1hi Mϕs render patients with coronary artery disease immunocompromised and suppress antiviral immunity, including protective anti–varicella zoster virus T cells. Thus, immunoinhibitory signals affect several domains of vascular inflammation; failing PD‐L1 in vasculitis enables unopposed immunostimulation and opens the flood gates for polyfunctional inflammatory T cells, and excess PD‐L1 in the atherosclerotic plaque disables tissue‐protective T cell immunity. [ABSTRACT FROM AUTHOR]

Published

2018

23. The microvascular niche instructs T cells in large vessel vasculitis via the VEGF-Jagged1-Notch pathway.

Author

Zhenke Wen, Yi Shen, Berry, Gerald, Shahram, Farhad, Yinyin Li, Ryu Watanabe, Liao, Yaping Joyce, Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

T cells, LYMPHOCYTES, CELL membranes, MICROVASCULAR angina, GENE expression

Abstract

The article discusses the role of microvascular networks in the adventitia of large arteries. It mentions that the networks control access of inflammatory cells to the inner wall layers and protect the immune privilege of the aorta and its major branches. It notes the adventitial microvascular endothelial cells that perform immunoregulatory functions by up-regulating the expression of the Notch ligand Jagged.

Published

2017

24. Immune Checkpoint Function of CD85j in CD8 T Cell Differentiation and Aging.

Author

Gustafson, Claire E., Qian Qi, Hutter-Saunders, Jessica, Gupta, Sheena, Jadhav, Rohit, Newell, Evan, Maecker, Holden, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

T cells, DISEASE susceptibility, CELL differentiation, PHYSIOLOGY

Abstract

Aging is associated with an increased susceptibility to infection and a failure to control latent viruses thought to be driven, at least in part, by alterations in CD8 T cell function. The aging T cell repertoire is characterized by an accumulation of effector CD8 T cells, many of which express the negative regulatory receptor CD85j. To define the biological significance of CD85j expression on CD8 T cells and to address the question whether presence of CD85j in older individuals is beneficial or detrimental for immune function, we examined the specific attributes of CD8 T cells expressing CD85j as well as the functional role of CD85j in antigen-specific CD8 T cell responses during immune aging. Here, we show that CD85j is mainly expressed by terminally differentiated effector (TEMRAs) CD8 T cells, which increase with age, in cytomegalovirus (CMV) infection and in males. CD85j+ CMV-specific cells demonstrate clonal expansion. However, TCR diversity is similar between CD85j+ and CD85j- compartments, suggesting that CD85j does not directly impact the repertoire of antigen-specific cells. Further phenotypic and functional analyses revealed that CD85j identifies a specific subset of CMV-responsive CD8 T cells that coexpress a marker of senescence (CD57) but retain polyfunctional cytokine production and expression of cytotoxic mediators. Blocking CD85j binding enhanced proliferation of CMV-specific CD8 T cells upon antigen stimulation but did not alter polyfunctional cytokine production. Taken together, these data demonstrate that CD85j characterizes a population of "senescent," but not exhausted antigen-specific effector CD8 T cells and indicates that CD85j is an important checkpoint regulator controlling expansion of virus-specific T cells during aging. Inhibition of CD85j activity may be a mechanism to promote stronger CD8 T cell effector responses during immune aging. [ABSTRACT FROM AUTHOR]

Published

2017

25. Metabolic signatures of T-cells and macrophages in rheumatoid arthritis.

Author

Weyand, Cornelia M, Zeisbrich, Markus, and Goronzy, Jörg J

Subjects

*GENETICS of rheumatoid arthritis, *AUTOIMMUNE diseases, *IMMUNE response, *T cells, *NADPH oxidase, *PATIENTS

Abstract

In most autoimmune diseases, a decade-long defect in self-tolerance eventually leads to clinically relevant, tissue-destructive inflammatory disease. The pathogenic potential of chronic persistent immune responses during the pre-clinical and clinical phase is ultimately linked to the bioenergetic fitness of innate and adaptive immune cells. Chronic immune cell stimulation, high cellular turn-over, structural damage to the host tissue and maladaptive wound healing, all require a reliable supply of nutrients, oxygen, and biosynthetic precursors. Here, we use the model system of rheumatoid arthritis (RA) to discuss immunometabolism from the vantage point of T-cells and macrophages that encounter fundamentally different metabolic stress scenarios in the RA host. We outline the general principle that both insufficient nutrient supply, as well as nutrient excess generate cellular stress responses and guide immune function. ATP low , NADPH high , ROS low T-cells hyperproliferate and are forced into premature senescence. ATP high , ROS high macrophages dimerize the glycolytic enzyme pyruvate kinase to amplify STAT3-dependent inflammatory effector functions. A corollary of this model is that simple nutraceutical interventions will be insufficient to re-educate the immune system in RA. Instead, interference with cell-type-exclusive and differentiation-stage-dependent metabolic setpoints will be needed to reprogram arthritogenic pathways. [ABSTRACT FROM AUTHOR]

Published

2017

26. Successful and Maladaptive T Cell Aging.

Author

Goronzy, Jörg J. and Weyand, Cornelia M.

Subjects

*T cells, *CELLULAR aging, *CELLULAR immunity, *NEGATIVE regulatory factor, *INFLAMMATION, *PHYSIOLOGY

Abstract

Throughout life, the T cell system adapts to shifting resources and demands, resulting in a fundamentally restructured immune system in older individuals. Here we review the cellular and molecular features of an aged immune system and discuss the trade-offs inherent to these adaptive mechanisms. Processes include homeostatic proliferation that maintains compartment size at the expense of partial loss in stemness and incomplete differentiation and the activation of negative regulatory programs, which constrain effector T cell expansion and prevent increasing oligoclonality but also interfere with memory cell generation. We propose that immune failure occurs when adaptive strategies developed by the aging T cell system fail and also discuss how, in some settings, the programs associated with T cell aging culminates in a maladaptive response that directly contributes to chronic inflammatory disease. [ABSTRACT FROM AUTHOR]

Published

2017

27. Immunoinhibitory checkpoint deficiency in medium and large vessel vasculitis.

Author

Hui Zhang, Watanabe, Ryu, Berry, Gerald J., Vaglio, Augusto, Yaping Joyce Liao, Warrington, Kenneth J., Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

VASCULITIS, GIANT cell arteritis, AUTOIMMUNITY, T cells, NEOVASCULARIZATION

Abstract

Giant cell arteritis (GCA) causes autoimmune inflammation of the aorta and its large branches, resulting in aortic arch syndrome, blindness, and stroke. CD4+ T cells and macrophages form organized granulomatous lesions in the walls of affected arteries, destroy the tunica media, and induce ischemic organ damage through rapid intimal hyperplasia and luminal occlusion. Pathogenic mechanisms remain insufficiently understood; specifically, it is unknown whether the unopposed activation of the immune system is because of deficiency of immunoinhibitory checkpoints. Transcriptome analysis of GCA-affected temporal arteries revealed low expression of the coinhibitory ligand programmed death ligand-1 (PD-L1) concurrent with enrichment of the programmed death-1 (PD-1) receptor. Tissue-residing and ex vivo-generated dendritic cells (DC) from GCA patients were PD-L1lo, whereas the majority of vasculitic T cells expressed PD-1, suggesting inefficiency of the immunoprotective PD-1/PD-L1 immune checkpoint. DC-PD-L1 expression correlated inversely with clinical disease activity. In human artery-SCID chimeras, PD-1 blockade exacerbated vascular inflammation, enriched for PD-1+ effector T cells, and amplified tissue production of multiple T-cell effector cytokines, including IFN-γ, IL-17, and IL-21. Arteries infiltrated by PD-1+ effector T cells developed microvascular neoangiogenesis as well as hyperplasia of the intimal layer, implicating T cells in the maladaptive behavior of vessel wall endogenous cells. Thus, in GCA, a breakdown of the tissue-protective PD1/PD-L1 checkpoint unleashes vasculitic immunity and regulates the pathogenic remodeling of the inflamed arterial wall. [ABSTRACT FROM AUTHOR]

Published

2017

28. Aging of the Immune System. Mechanisms and Therapeutic Targets.

Author

Weyand, Cornelia M. and Goronzy, Jörg J.

Abstract

Beginning with the sixth decade of life, the human immune system undergoes dramatic aging-related changes, which continuously progress to a state of immunosenescence. The aging immune system loses the ability to protect against infections and cancer and fails to support appropriate wound healing. Vaccine responses are typically impaired in older individuals. Conversely, inflammatory responses mediated by the innate immune system gain in intensity and duration, rendering older individuals susceptible to tissue-damaging immunity and inflammatory disease. Immune system aging functions as an accelerator for other age-related pathologies. It occurs prematurely in some clinical conditions, most prominently in patients with the autoimmune syndrome rheumatoid arthritis (RA); and such patients serve as an informative model system to study molecular mechanisms of immune aging. T cells from patients with RA are prone to differentiate into proinflammatory effector cells, sustaining chronic-persistent inflammatory lesions in the joints and many other organ systems. RA T cells have several hallmarks of cellular aging; most importantly, they accumulate damaged DNA. Because of deficiency of the DNA repair kinase ataxia telangiectasia mutated, RA T cells carry a higher burden of DNA double-strand breaks, triggering cell-indigenous stress signals that shift the cell's survival potential and differentiation pattern. Immune aging in RA T cells is also associated with metabolic reprogramming; specifically, with reduced glycolytic flux and diminished ATP production. Chronic energy stress affects the longevity and the functional differentiation of older T cells. Altered metabolic patterns provide opportunities to therapeutically target the immune aging process through metabolic interference. [ABSTRACT FROM AUTHOR]

Published

2016

29. Defective T Memory Cell Differentiation after Varicella Zoster Vaccination in Older Individuals.

Author

Qi, Qian, Cavanagh, Mary M., Le Saux, Sabine, Wagar, Lisa E., Mackey, Sally, Hu, Jinyu, Maecker, Holden, Swan, Gary E., Davis, Mark M., Dekker, Cornelia L., Tian, Lu, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

VARICELLA-zoster virus diseases, T cells, B cells, CELL differentiation, IMMUNOGLOBULINS, VACCINATION

Abstract

Vaccination with attenuated live varicella zoster virus (VZV) can prevent zoster reactivation, but protection is incomplete especially in an older population. To decipher the molecular mechanisms underlying variable vaccine responses, T- and B-cell responses to VZV vaccination were examined in individuals of different ages including identical twin pairs. Contrary to the induction of VZV-specific antibodies, antigen-specific T cell responses were significantly influenced by inherited factors. Diminished generation of long-lived memory T cells in older individuals was mainly caused by increased T cell loss after the peak response while the expansion of antigen-specific T cells was not affected by age. Gene expression in activated CD4 T cells at the time of the peak response identified gene modules related to cell cycle regulation and DNA repair that correlated with the contraction phase of the T cell response and consequently the generation of long-lived memory cells. These data identify cell cycle regulatory mechanisms as targets to reduce T cell attrition in a vaccine response and to improve the generation of antigen-specific T cell memory, in particular in an older population. [ABSTRACT FROM AUTHOR]

Published

2016

30. T cell--macrophage interactions and granuloma formation in vasculitis.

Author

Hilhorst, Marc, Shirai, Tsuyoshi, Berry, Gerald, Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

T cells, GRANULOMA, VASCULAR diseases, VASCULITIS, T helper cells, MACROPHAGES, IMMUNOREGULATION

Abstract

Granuloma formation, bringing into close proximity highly activated macrophages and T cells, is a typical event in inflammatory blood vessel diseases, and is noted in the name of several of the vasculitides. It is not known whether specific properties of the microenvironment in the blood vessel wall or the immediate surroundings of blood vessels contribute to granuloma formation and, in some cases, generation of multinucleated giant cells. Granulomas provide a specialized niche to optimize macrophage-T cell interactions, strongly activating both cell types. This is mirrored by the intensity of the systemic inflammation encountered in patients with vasculitis, often presenting with malaise, weight loss, fever, and strongly upregulated acute phase responses. As a sophisticated and highly organized structure, granulomas can serve as an ideal site to induce differentiation and maturation of T cells. The granulomas possibly seed aberrant Th1 and Th17 cells into the circulation, which are known to be the main pathogenic cells in vasculitis. Through the induction of memory T cells, aberrant innate immune responses can imprint the host immune system for decades to come and promote chronicity of the disease process. Improved understanding of T cell-macrophage interactions will redefine pathogenic models in the vasculitides and provide new avenues for immunomodulatory therapy. [ABSTRACT FROM AUTHOR]

Published

2014

31. Regulatory T Cells and the Immune Aging Process: A Mini-Review.

Author

Jagger, Ann, Shimojima, Yasuhiro, Goronzy, Jorg J., and Weyand, Cornelia M.

Subjects

T cells, LYMPHOCYTES, AGING, DEVELOPMENTAL biology, ANTIGENS

Abstract

Constant exposure to new and persisting antigens and the need to replace cellular attrition with newly built cells lead to profound remodeling of the immune system after the age of 50 years. The impact of the immunosenescence process varies amongst the different cellular subsets represented within the immune system. Emerging data suggest that progressive aging significantly affects frequencies, subset distribution and functional competence of regulatory T cells (Tregs). Given the central role of Tregs in immune homeostasis, age-related loss of Treg function would be predicted to cause excessive immunity, encountered in elderly humans as a syndrome of chronic, smoldering inflammation as well as the age-related increase in the risk for autoimmunity. Conversely, age-dependent gain of Treg activity would result in failing immunity, such as the rising risk of malignancies and infections amongst the elderly. Emerging data suggest that some Treg populations, specifically naturally occurring Tregs, seem to accumulate with advancing age, whereas inducible Tregs appear to be less available in the older host. More studies are necessary to elucidate functional competence of old Tregs, with an emphasis on comparing the efficacy of young and old Tregs for defined functional domains. Mechanisms of declining Treg inducibility are not understood, but may provide an opportunity for targeted immunomodulation in the elderly. On the horizon is the potential to develop novel therapeutic interventions that target Tregs to make the elderly more efficient in fighting cancers and infections and dampen the risk for senescence-associated inflammation. © 2013 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2014

32. Corrigendum: Distinct Age-Related Epigenetic Signatures in CD4 and CD8 T Cells.

Author

Hu, Bin, Jadhav, Rohit R., Gustafson, Claire E., Le Saux, Sabine, Ye, Zhongde, Li, Xuanying, Tian, Lu, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

T cells, CD8 antigen, CD4 antigen, EPIGENETICS, CYTOLOGY

Abstract

A correction has been made to the B Data Availability Statement b : "ATAC-seq data for CD4 T cell subsets have been deposited in SRA with BioProject accession code PRJNA478249. Keywords: ribosomal proteins; chromatin accessibility; epigenetics; T-cell; aging; T-cell homeostasis EN ribosomal proteins chromatin accessibility epigenetics T-cell aging T-cell homeostasis 1 1 1 05/02/22 20220427 NES 220427 In the original article, there was an error. Ribosomal proteins, chromatin accessibility, epigenetics, T-cell, aging, T-cell homeostasis. [Extracted from the article]

Published

2022

33. Finding Balance: T cell Regulatory Receptor Expression during Aging.

Author

Cavanagh, Mary M., Qian Qi, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

T cells, AGING, AUTOIMMUNITY, IMMUNE response, VACCINATION

Abstract

Aging is associated with a variety of changes to immune responsiveness. Reduced protection against infection, reduced responses to vaccination and increased risk of autoimmunity are all hallmarks of advanced age. Here we consider how changes in the expression of regulatory receptors on the T cell surface contribute to altered immunity during aging. [ABSTRACT FROM AUTHOR]

Published

2011

34. Insufficient Deactivation of the Protein Tyrosine Kinase Lck Amplifies T-Cell Responsiveness in Acute Coronary Syndrome.

Author

Pryshchep, Sergey, Goronzy, Jörg J., Parashar, Susmita, and Weyand, Cornelia M.

Subjects

PROTEIN-tyrosine kinases, INTRACELLULAR calcium, ATHEROSCLEROSIS, T cells, LYMPHOCYTES, PATIENTS

Abstract

The article focuses on a study investigating the relationship between calibration of intracellular signaling pathways and T-cells responses in acute coronary syndrome (ACS) patients. It mentions that protein phosphorylation and dephosphorylation define the signal transduction threshold and determines appropriate T-cell responses. It reports that abnormal signaling results in the accumulation of active Lck which lowers T-cell receptor threshold rendering lymphocytes hyperreactive.

Published

2010

35. Dendritic cells in atherosclerotic disease

Author

Niessner, Alexander and Weyand, Cornelia M.

Subjects

*DENDRITIC cells, *ATHEROSCLEROTIC plaque, *LIPIDOSES, *IMMUNE system, *INTERLEUKIN-6, *INTERFERONS

Abstract

Abstract: Atherosclerosis has been considered a syndrome of dysregulated lipid storage until recent evidence has emphasized the critical contribution of the immune system. Dendritic cells (DC) are positioned at the interface of the innate and adaptive immune system. Recognition of danger signals in atheromas leads to DC activation. Activated DC regulate effector T cells which can kill plaque-resident cells and damage the plaque structure. Two types of DC have been identified in atherosclerotic lesions; classical myeloid DC (mDC) which mainly recognize bacterial signatures and plasmacytoid DC (pDC) which specialize in sensing viral fragments and have the unique potential of producing large amounts of type I interferon (IFN). In human atheromas, type I IFN upregulates expression of the cytotoxic molecule TRAIL which leads to apoptosis of plaque-resident cells. This review will elucidate the role of DC in atherogenesis and particularly in plaque rupture, the underlying pathophysiologic cause of myocardial infarction. [Copyright &y& Elsevier]

Published

2010

36. Telomerase insufficiency in rheumatoid arthritis.

Author

Fujii, Hiroshi, Lan Shao, Colmegna, Inés, Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

RHEUMATOID arthritis treatment, T cells, CELL cycle, TELOMERASE, REVERSE transcriptase, HEMATOPOIETIC stem cells

Abstract

In rheumatoid arthritis (RA), chronically stimulated T lymphocytes sustain tissue-destructive joint inflammation. Both naïve and memory I cells in RA are prematurely aged with accelerated loss of telomeres suggesting excessive proliferative pressure or inadequate telomeric maintenance. Upon stimulation, RA naïve CD4 T cells are defective in up-regulating telomerase activity (P < 0.0001) due to insufficient induction of the telomerase component human telomerase reverse transcriptase (hTERT); T cell activation and cell cycle progression are intact. Telomerase insufficiency does not affect memory T cells or CD34 hematopoietic stem cells and is present in untreated patients and independent from disease activity. Knockdown of hTERT in primary human T cells increases apoptotic propensity (P = 0.00005) and limits clonal burst (P = 0.0001) revealing a direct involvement of telomerase in T cell fate decisions. Naïve RA CD4 I cells stimulated through the T cell receptor are highly susceptible to apoptosis. expanding to smaller clonal size. Overexpression of ectopic hTERT in naïve RA T cells conveys apoptotic resistance (P = 0.008) and restores proliferative expansion (P < 0.0001). Telomerase insufficiency in RA results in excessive T cell loss, undermining homeostatic control of the naive T cell compartment and setting the stage for lymphopenia-induced T cell repertoire remodeling. Restoring defective telomerase activity emerges as a therapeutic target in resetting immune abnormalities in RA. [ABSTRACT FROM AUTHOR]

Published

2009

37. Toll-Like Receptors 4 and 5 Induce Distinct Types of Vasculitis.

Author

Jiusheng Deng, Ma-Krupa, Wei, Gewirtz, Andrew T., Younge, Brian R., Goronzy, Jorg J., and Weyand, Cornelia M.

Subjects

T cells, DENDRITIC cells, ANTIGEN presenting cells, LANGERHANS cells, ARTERITIS, SMOOTH muscle

Abstract

The article examines the biological consequences of exposing one vascular dendritic cells (DCs) to determine whether the artery has only a universal response pattern. Result of the study shows that CCR6+ T cells produce an arteritis pattern with media-invasive T cells damaging vascular smooth muscle cells. It suggests that vascular dendritic cells edit the emerging immune response and direct the disease process depending on the original danger signs.

Published

2009

38. Fractalkine Mediates T Cell-Dependent Proliferation of Synovial Fibroblasts in Rheumatoid Arthritis.

Author

Sawai, Hirokazu, Park, Yong W., Xiaowen He, Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

T cells, LYMPHOCYTES, SYNOVITIS, CELLULAR mechanics, AUTOCRINE mechanisms, PATIENTS

Abstract

The article examines the mechanisms through which cluster of differentiation 4 (CD4) T cells, the dominant lymphocyte population in patients with rheumatoid synovitis, regulate synoviocyte proliferation. The researchers found that Fractalkine (FKN)-CX3CR1 receptor-ligand interactions regulate fibroblast-like synoviocyte (FLS) growth and FLS-dependent T cell function. Results also showed that FLS stimulate autocrine growth by releasing FKN and triggering the activity of their own CX3CR1.

Published

2007

39. Treatment of chronic inflammatory diseases with biologic agents: Opportunities and risks for the elderly

Author

Diaz-Borjon, Alejandro, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

*LYMPHOCYTES, *B cells, *T cells, *DISEASES

Abstract

Abstract: The treatment armamentarium in rheumatic inflammatory diseases has drastically increased in the last years. Earlier uses of conventional disease-modifying antirheumatic drugs (DMARDs), along with the arrival of newer therapies including the so-called “biologic” agents, have provided better long-term outcomes for patients suffering from these illnesses. Biologic agents have shown efficacy for several diseases and failed in others. Due to a high prevalence of some of these diseases in the elderly population, this age group may also benefit, although treatment will have to be tailored to its special needs. In this mini review, we will discuss the use of these medications in rheumatic diseases with a significant prevalence in the elderly, their proven and potential uses, and the considerations that need to be taken into account when using them in this population. [Copyright &y& Elsevier]

Published

2006

40. TRAIL-expressing T cells induce apoptosis of vascular smooth muscle cells in the atherosclerotic plaque.

Author

Sato, Kayoko, Niessner, Alexander, Kopecky, Stephen L., Frye, Robert L., Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

HEART diseases, ATHEROSCLEROSIS, IMMUNOLOGICAL deficiency syndromes, T cells, APOPTOSIS, STRUCTURE-activity relationships in cell receptors, IMMUNOGLOBULINS, CELL physiology

Abstract

Acute coronary syndromes (ACS) are precipitated by a rupture of the atherosclerotic plaque, often at the site of T cell and macrophage infiltration. Here, we show that plaque-infiltrating CD4 T cells effectively kill vascular smooth muscle cells (VSMC). VSMCs sensitive to T cell-mediated killing express the death receptor DR5 (TNF-related apoptosis-inducing ligand [TRAIL] receptor 2), and anti-TRAIL and anti-DR5 antibodies block T cell-mediated apoptosis. CD4 T cells that express TRAIL upon stimulation are expanded in patients with ACS and more effectively induce VSMC apoptosis. Adoptive transfer of plaque-derived CD4 T cells into immunodeficient mice that are engrafted with human atherosclerotic plaque results in apoptosis of VSMCs, which was prevented by coadministration of anti-TRAIL antibody. These data identify that the death pathway is triggered by TRAIL-producing CD4 T cells as a direct mechanism of VSMC apoptosis, a process which may lead to plaque destabilization. [ABSTRACT FROM AUTHOR]

Published

2006

41. Costimulatory Pathways in Rheumatoid Synovitis and T-Cell Senescence.

Author

GORONZY, JÖRG J., HENEL, GABRIELLA, SAWAI, HIROKAZU, SINGH, KARNAIL, LEE, EUN BONG, PRYSHCHEP, SERGEY, and WEYAND, CORNELIA M.

Subjects

RHEUMATOID arthritis, T cells, AGING, AUTOIMMUNITY, GENE expression

Abstract

The pathogenesis of rheumatoid arthritis (RA) is determined by a complex interaction of genetic and environmental factors. Of all risk factors, age has the largest impact. RA occurs most often during the postmenopausal period of life, with incidence rates peaking in the eighth decade. While age is generally accepted as an etiologic factor for failure of immunocompetence, much less is understood about the role of T-cell senescence in autoimmunity. We have hypothesized that senescent T cells are particularly prone to be activated in specialized microenvironments, such as the synovial membrane. CD4 T cells in the senescence program were identified by the loss of CD28. Gene expression profiling documented that CD28- T cells have acquired a spectrum of regulatory receptors that are usually seen only on NK cells. Such regulatory receptors include stimulatory and inhibitory members of the killer immunoglobulin- like receptor (KIR) family, the stimulatory c-type lectin receptor NKG2D, and CX3CR1, the receptor for the chemokine fractalkine. Synovial fibroblasts express the relevant ligands, thus providing stimulatory signals to tissue- infiltrating T cells. The signaling pathways of these regulatory receptors are complex and dependent on the individual T cells, some of which express important adapter molecules such as DAP10 and DAP12. Inhibitory KIRs on T cells are often only partially functional. Our data suggest that, by virtue of altered receptor profiles, conventional tolerance mechanisms can be evaded in the aging host. By acquiring a new set of regulatory receptors, senescent CD4 T cells become responsive to novel environmental cues and find ideal stimulatory conditions in the synovial microenvironment. [ABSTRACT FROM AUTHOR]

Published

2005

42. T cell development and receptor diversity during aging

Author

Goronzy, Jörg J and Weyand, Cornelia M

Subjects

*T cells, *LYMPHOCYTES, *HOMEOSTASIS, *PHYSIOLOGICAL control systems, *ENDOCRINE glands

Abstract

The T cell system is a complex and highly dynamic system that is amazingly robust over many decades of human life. Its functional competence is determined not only by its size but also by its diversity. Homeostatic control mechanisms have to secure sufficient T cell replenishment while preventing loss of clonal diversity. Major homeostatic challenges include profound expansion and shrinkage of T cell clonotypes upon antigenic triggering and, more importantly, age-related changes in T cell regeneration. The ability of the thymus to rebuild a diverse repertoire ceases in the fifth decade of life. Emerging data suggest that the end of the 7th decade of life defines a critical time period when T cell homeostasis is no longer guaranteed and diversity of the naïve T-cell repertoire collapses. Thus, failure of T cell homeostasis appears to result from cumulative defects of T cell generation. Elucidation of the underlying mechanisms will allow for extending this turning point to later in life; ultimately, interventions have to aim at restoring thymic function and complementary modes of T cell reconstitution. [Copyright &y& Elsevier]

Published

2005

43. T-cell senescence: a culprit of immune abnormalities in chronic inflammation and persistent infection

Author

Vallejo, Abbe N., Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

*T cells, *LYMPHOCYTES, *LEUCOCYTES, *BLOOD cells, *CELLS

Abstract

Long-lived clonal T cells deficient in CD28 expression are commonly found in patients with inflammatory syndromes and persistent infections. Considering that CD28 loss is the most consistent immunological marker of aging, we propose that, in pathological states, CD28null T cells represent prematurely senescent cells resulting from persistent immune activation. These unusual lymphocytes have aberrant functions that contribute to disease-related immune abnormalities, and the degree of accumulation of CD28null T cells predicts the severity of clinical manifestations. We suggest that understanding of the biological properties of T cells that have reached replicative senescence will influence the future management of certain diseases. Indeed, studies on the molecular basis for the loss of CD28 are already providing information on methods to functionally rescue senescent T cells. [Copyright &y& Elsevier]

Published

2004

44. Immunopathways in giant cell arteritis and polymyalgia rheumatica

Author

Weyand, Cornelia M., Ma-Krupa, Wei, and Goronzy, Jörg J.

Subjects

*ARTERITIS, *CELLS, *VASCULITIS, *T cells, *APOPTOSIS

Abstract

Giant cell arteritis (GCA), a vasculitis that targets medium- and large-size arteries, is ranked as a medical emergency because of its potential to cause blindness and stroke. The typical lesions, granulomas in the vessel wall, are formed by IFN-γ-producing CD4+ T cells and macrophages. CD4+ T cells undergo in situ activation in the adventitia, where they interact with indigenous dendritic cells. Tissue injury is mediated by several distinct sets of macrophages that are committed to diverse effector functions. The dominant tissue injury in the media results from oxidative stress and leads to smooth muscle cell apoptosis and nitration of endothelial cells. Macrophage-derived growth factors are instrumental in driving the response-to-injury program of the artery that causes intimal hyperplasia and vessel occlusion. Clinical manifestations are those of tissue ischemia or a syndrome of exuberant systemic inflammation. The vascular and the systemic components of GCA contribute differentially to the disease, leading to distinct clinical phenotypes of this arteritis. Immunologically most interesting is polymyalgia rheumatica, in which the systemic component is combined with aborted vasculitis, suggesting a role for artery-specific tolerance mechanisms. [Copyright &y& Elsevier]

Published

2004

45. The double life of NK receptors: stimulation or co-stimulation?

Author

Snyder, Melissa R., Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

*IMMUNOGLOBULINS, *INTERLEUKIN-12, *KILLER cells, *T cells, *CELL receptors, *AUTOIMMUNITY, *INFLAMMATION

Abstract

Stimulatory killer immunoglobulin-like receptors, NKG2D and stimulatory receptors of the CD94–NKG2 family have duplicity in function. On natural killer (NK) cells, these receptors act as independent and competent recognition units. Stimulatory NK receptors also appear on subsets of effector T cells, particularly those that have replicated extensively. When expressed on T cells, they amplify signals mediated through the T-cell antigen receptor and, thus, function as co-stimulatory, but not direct stimulatory, molecules. One mechanism responsible for this dichotomy is the differential expression of adaptor molecules. This duplicity in function, which is not seen for other co-stimulatory molecules, is responsible for the unique context information provided by the NK receptors, and it could explain their involvement in chronic inflammation and autoimmunity. [Copyright &y& Elsevier]

Published

2004

46. Premature telomeric loss in rheumatoid arthritis is genetically determined and involves both myeloid and lymphoid cell lineages.

Author

Schönland, Stefan O., Lopez, Consuelo, Widmann, Thomas, Zimmer, Julia, Bryl, Ewa, Goronzy, Jörg J., and Weyand, Cornelia M.

Subjects

RHEUMATOID arthritis, T cells, LYMPHOID tissue, GENETICS

Abstract

In rheumatoid arthritis, peripheral blood T cells have age-inappropriate telomeric erosion. We examined whether HLA-DRB1*04 alleles, the major susceptibility genes for this disease, confer risk for T cell senescence. In healthy individuals, HLA-DRB1*04 alleles were associated with excessive loss of telomeres in CD4[sup+] T cells. Accelerated telomeric erosion occurred during the first two decades of life and was followed by reduced homeostatic T cell proliferation during adulthood. Premature telomeric loss also affected granulocytes, suggesting that the hematopoietic stem cell is the primary target. Telomeric repair mechanisms were intact in HLA-DRB1*04+ donors. We propose that HLA-DRB1*04 alleles or genes in linkage disequilibrium regulate stem cell replication and contribute to the accumulation of senescent and autoreactive T cells in rheumatoid arthritis. [ABSTRACT FROM AUTHOR]

Published

2003

47. Immunosenescence, autoimmunity, and rheumatoid arthritis

Author

Weyand, Cornelia M., Fulbright, James W., and Goronzy, Jörg J.

Subjects

*AUTOIMMUNE diseases, *INFLAMMATION, *T cells

Abstract

Current disease models of autoimmune syndromes, such as rheumatoid arthritis, propose that chronic inflammation is caused by ‘forbidden T-cell clones’ that recognize disease-inducing antigens and drive tissue-injurious immune reactions. Reappraisal of disease incidence data, however, emphasizes that rheumatoid arthritis is a syndrome of the elderly that occurs with highest likelihood in individuals in whom the processes of T-cell generation and T-cell repertoire formation are compromised. Thymic T-cell production declines rapidly with advancing age. Multiple mechanisms, including antigen-driven clonal expansion and homeostasis-driven autoproliferation of post-thymic T cells, impose replicative stress on T cells and induce the biological program of cellular senescence. T-cell immunosenescence is associated with profound changes in T-cell functional profile and leads to accumulation of CD4+ T cells that have lost CD28 but have gained killer immunoglobulin-like receptors and cytolytic capability and produce large amounts of interferon-γ. In patients with rheumatoid arthritis, T-cell immunosenescence occurs prematurely, probably due to a deficiency in the ability to generate sufficient numbers of novel T cells. We propose that autoimmunity in rheumatoid arthritis is a consequence of immunodegeneration that is associated with age-inappropriate remodeling of the T-cell pool. [Copyright &y& Elsevier]

Published

2003

48. Tissue cytokine patterns in patients with polymyalgia rheumatica and giant cell arteritis.

Author

Weyand, Cornelia M., Hieok, Kevin C., Hunder, Gene G., Goronzy, Jorg J., Weyand, C M, Hicok, K C, Hunder, G G, and Goronzy, J J

Subjects

*GIANT cell arteritis, *CYTOKINES, *POLYMYALGIA rheumatica, *MESSENGER RNA, *RNA metabolism, *COMPARATIVE studies, *DOCUMENTATION, *INTERFERONS, *MACROPHAGES, *RESEARCH methodology, *MEDICAL cooperation, *NUCLEOTIDES, *POLYMERASE chain reaction, *RESEARCH, *T cells, *EVALUATION research

Abstract

Objective: To analyze temporal artery specimens from patients with giant cell arteritis and polymyalgia rheumatica for the presence of inflammatory cytokines and to ascertain whether a specific cytokine pattern exists for the two conditions.Design: Case series of patients having temporal artery biopsy procedures.Setting: The outpatient clinic and the research laboratories of the Division of Rheumatology, Mayo Clinic.Patients: 34 patients having temporal artery biopsy procedures: 15 patients had giant cell arteritis, 9 had polymyalgia rheumatica without evidence of vasculitis, and 10 had neither polymyalgia rheumatica nor vasculitis.Measurement: Temporal artery specimens were analyzed for in vivo presence of cytokine messenger RNA (mRNA) by polymerase chain reaction with cytokine-specific primer sets.Results: Vasculitic lesions in giant cell arteritis samples were characterized by in situ production of interleukin-1 beta, interleukin-6, and transforming growth factor-beta 1 mRNA (indicative of macrophage activation) and by interferon-gamma and interleukin-2 mRNA (indicative of selective T-cell activation). However, macrophage- and T-cell-derived cytokines were also detected in temporal artery biopsy specimens from patients with polymyalgia rheumatica. Tissue-infiltrating T cells in giant cell arteritis and polymyalgia rheumatica samples each had distinctive lymphokine profiles. Although interferon-gamma was found in 67% of giant cell arteritis samples, polymyalgia rheumatica samples had only interleukin-2.Conclusions: Patients with polymyalgia rheumatica have vascular involvement. Patients with polymyalgia rheumatica and giant cell arteritis share in situ production of mRNA specific for macrophage-derived cytokines. T cells recruited to vasculitic lesions in patients with giant cell arteritis predominantly produce interleukin-2 and interferon-gamma. Patients with polymyalgia rheumatica do not have interferon-gamma production, suggesting that interferon-gamma may be involved in the progression to overt arteritis. [ABSTRACT FROM AUTHOR]

Published

1994

49. The Transcription Factor TCF1 in T Cell Differentiation and Aging.

Author

Kim, Chulwoo, Jin, Jun, Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

T cell differentiation, CELLULAR aging, TRANSCRIPTION factors, T cells

Abstract

The transcription factor T cell factor 1 (TCF1), a pioneer transcription factor as well as a downstream effector of WNT/β-catenin signaling, is indispensable for T cell development in the thymus. Recent studies have highlighted the additional critical role of TCF1 in peripheral T cell responses to acute and chronic infections as well as cancer. Here, we review the regulatory functions of TCF1 in the differentiation of T follicular helper cells, memory T cells and recently described stem-like exhausted T cells, where TCF1 promotes less differentiated stem-like cell states by controlling common gene-regulatory networks. These studies also provide insights into the mechanisms of defective T cell responses in older individuals. We discuss alterations in TCF1 expression and related regulatory networks with age and their consequences for T cell responses to infections and vaccination. The increasing understanding of the pathways regulating TCF1 expression and function in aged T cells holds the promise of enabling the design of therapeutic interventions aiming at improving T cell responses in older individuals. [ABSTRACT FROM AUTHOR]

Published

2020

50. IKZF1 and UBR4 gene variants drive autoimmunity and Th2 polarization in IgG4-related disease.

Author

Qingxiang Liu, Zheng, Yanyan, Sturmlechner, Ines, Jain, Abhinav, Own, Maryam, Qiankun Yang, Huimin Zhang, Vairo, Filippo Pinto e., Cerosaletti, Karen, Buckner, Jane H., Warrington, Kenneth J., Koster, Matthew J., Weyand, Cornelia M., and Goronzy, Jörg J.

Subjects

*GENETIC variation, *TRANSCRIPTION factors, *T cell differentiation, *T cell receptors, *AUTOIMMUNE diseases, *T cells

Abstract

IgG4-related disease (IgG4-RD) is a systemic immune-mediated fibroinflammatory disease whose pathomechanisms remain poorly understood. Here, we identified gene variants in familial IgG4-RD and determined their functional consequences. All 3 affected members of the family shared variants of the transcription factor IKAROS, encoded by IKZF1, and the E3 ubiquitin ligase UBR4. The IKAROS variant increased binding to the FYN promoter, resulting in higher transcription of FYN in T cells. The UBR4 variant prevented the lysosomal degradation of the phosphatase CD45. In the presence of elevated FYN, CD45 functioned as a positive regulatory loop, lowering the threshold for T cell activation. Consequently, T cells from the affected family members were hyperresponsive to stimulation. When transduced with a low-avidity, autoreactive T cell receptor, their T cells responded to the autoantigenic peptide. In parallel, high expression of FYN in T cells biased their differentiation toward Th2 polarization by stabilizing the transcription factor JunB. This bias was consistent with the frequent atopic manifestations in patients with IgG4- RD, including the affected family members in the present study. Building on the functional consequences of these 2 variants, we propose a disease model that is not only instructive for IgG4-RD but also for atopic diseases and autoimmune diseases associated with an IKZF1 risk haplotype. [ABSTRACT FROM AUTHOR]

Published

2024