Ruud W. J. Meijers scite author profile

BackgroundEnd-stage renal disease (ESRD) patients treated with renal replacement therapy (RRT) have premature immunologically aged T cells which may underlie uremia-associated immune dysfunction. The aim of this study was to investigate whether uremia was able to induce premature ageing of the T cell compartment. For this purpose, we examined the degree of premature immunological T cell ageing by examining the T cell differentiation status, thymic output via T cell receptor excision circle (TREC) content and proliferative history via relative telomere length in ESRD patients not on RRT.ResultsCompared to healthy controls, these patients already had a lower TREC content and an increased T cell differentiation accompanied by shorter telomeres. RRT was able to enhance CD8+ T cell differentiation and to reduce CD8+ T cell telomere length in young dialysis patients. An increased differentiation status of memory CD4+ T cells was also noted in young dialysis patients.ConclusionBased on these results we can conclude that uremia already causes premature immunological ageing of the T cell system and RRT further increases immunological ageing of the CD8+ T cell compartment in particular in young ESRD patients.

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Next-generation sequencing of immunoglobulin gene rearrangements for clonality assessment: a technical feasibility study by EuroClonality-NGS

Scheijen

Meijers

Rijntjes

et al. 2019

Leukemia

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One of the hallmarks of B lymphoid malignancies is a B cell clone characterized by a unique footprint of clonal immunoglobulin (IG) gene rearrangements that serves as a diagnostic marker for clonality assessment. The EuroClonality/BIOMED-2 assay is currently the gold standard for analyzing IG heavy chain (IGH) and κ light chain (IGK) gene rearrangements of suspected B cell lymphomas. Here, the EuroClonality-NGS Working Group presents a multicentre technical feasibility study of a novel approach involving next-generation sequencing (NGS) of IGH and IGK loci rearrangements that is highly suitable for detecting IG gene rearrangements in frozen and formalin-fixed paraffin-embedded tissue specimens. By employing gene-specific primers for IGH and IGK amplifying smaller amplicon sizes in combination with deep sequencing technology, this NGS-based IG clonality analysis showed robust performance, even in DNA samples of suboptimal DNA integrity, and a high clinical sensitivity for the detection of clonal rearrangements. Bioinformatics analyses of the high-throughput sequencing data with ARResT/Interrogate, a platform developed within the EuroClonality-NGS Working Group, allowed accurate identification of clonotypes in both polyclonal cell populations and monoclonal lymphoproliferative disorders. This multicentre feasibility study is an important step towards implementation of NGS-based clonality assessment in clinical practice, which will eventually improve lymphoma diagnostics.

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Loss of Renal Function Causes Premature Aging of the Immune System

2013

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Background: Uremia-associated immune deficiency is a well-known complication of loss of renal function and contributes significantly to the overall mortality and morbidity of patients with end-stage renal disease. Chronic inflammation and increased oxidative stress are underlying the uremia-associated immune deficiency. Summary: In this review, the differential impact of uremia on the cellular immune system is summarized. Virtually all immune cells studied show a combination of an activated status and loss of function. However, uremia preferentially decreases the number and function of lymphoid cells while myeloid cells show normal and/or elevated cell numbers with increased production of inflammatory cytokines and reactive oxygen species. These particular changes are compatible with immunological aging, which is characterized by loss of thymic function, attrition of telomeres and an expanded memory T cell population. Similar to aging in healthy individuals, the proinflammatory and potential cardiotoxic subsets of CD28^null T cells and CD16⁺ monocytes are increased. Epigenetically changed hematopoietic stem cells may be involved in immunological aging as specific DNA regions become hypermethylated. Proinflammatory T cells and monocytes persist after kidney transplantation, which constitutes a persistent cardiovascular risk factor. Possible therapeutic options to reverse or halt uremia-associated immunological aging are discussed. Key Messages: Premature aging of the immune system is a dominant feature in patients with end-stage renal failure, which corresponds to immunological aging in elderly healthy individuals, which is characterized by preferential loss of cells belonging to the lymphoid cell lineage, inflammation and expansion of proinflammatory immune cells.

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Uremia-associated immunological aging is stably imprinted in the T-cell system and not reversed by kidney transplantation

et al. 2014

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SummaryThe uremia-induced inflammatory environment in end-stage renal disease (ESRD) patients is associated with premature T-cell aging resulting in a defective T-cell immunity. As kidney transplantation (KTx) reduces the pro-inflammatory environment, we hypothesized that KTx would rejuvenate the aged T-cell system. As aging parameters, we determined in 70 KTx recipients the differentiation status by immunophenotyping, thymic output by the T-cell receptor excision circle (TREC) content together with CD31 + na€ ıve T-cell numbers and the relative telomere length (RTL) as a measure for proliferative history at pre-KTx, 3, 6 and 12 months post-KTx. In addition, T-cell function was determined by measuring the proliferative capacity and percentages of cytokine-producing cells. Directly post-KTx, memory T-cell numbers were diminished but restored to pre-KTx values at 12 months, except for CD4 + EM T cells. The RTL of (memory) CD4 + and CD8 + T cells did not change. In contrast, TREC content and CD31 + na€ ıve T-cell numbers were stable post-KTx although the RTL of na€ ıve CD4 + and CD8 + T cells decreased implying homeostatic proliferation of na€ ıve cells, in response to a temporary decrease in memory cells. The T-cell function was not improved post-KTx. Our findings demonstrate that the uremia-associated aged phenotype is stably imprinted in the T-cell system and not reversed by KTx.

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Terminally Differentiated CD8+ Temra Cells Are Associated With the Risk for Acute Kidney Allograft Rejection

Betjes

Meijers²,

Wit³

et al. 2012

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Ruud W. J. Meijers

Uremia causes premature ageing of the T cell compartment in end-stage renal disease patients

Next-generation sequencing of immunoglobulin gene rearrangements for clonality assessment: a technical feasibility study by EuroClonality-NGS

Loss of Renal Function Causes Premature Aging of the Immune System

Uremia-associated immunological aging is stably imprinted in the T-cell system and not reversed by kidney transplantation

Terminally Differentiated CD8+ Temra Cells Are Associated With the Risk for Acute Kidney Allograft Rejection

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