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1. Multiomic Signatures of Chronic Beryllium Disease Bronchoalveolar Lavage Cells Relate to T-Cell Function and Innate Immunity.

Author

Li L, Konigsberg IR, Bhargava M, Liu S, MacPhail K, Mayer A, Davidson EJ, Liao SY, Lei Z, Mroz PM, Fingerlin TE, Yang IV, and Maier LA

Subjects

Humans, T-Lymphocytes, Bronchoalveolar Lavage, Bronchoalveolar Lavage Fluid, Immunity, Innate genetics, RNA, Chronic Disease, Berylliosis genetics

Abstract

Chronic beryllium disease (CBD) is a Th1 granulomatous lung disease preceded by sensitization to beryllium (BeS). We profiled the methylome, transcriptome, and selected proteins in the lung to identify molecular signatures and networks associated with BeS and CBD. BAL cell DNA and RNA were profiled using microarrays from CBD ( n  = 30), BeS ( n  = 30), and control subjects ( n  = 12). BAL fluid proteins were measured using Olink Immune Response Panel proteins from CBD ( n  = 22) and BeS ( n  = 22) subjects. Linear models identified features associated with CBD, adjusting for covariation and batch effects. Multiomic integration methods identified correlated features between datasets. We identified 1,546 differentially expressed genes in CBD versus control subjects and 204 in CBD versus BeS. Of the 101 shared transcripts, 24 have significant cis relationships between gene expression and DNA methylation, assessed using expression quantitative trait methylation analysis, including genes not previously identified in CBD. A multiomic model of top DNA methylation and gene expression features demonstrated that the first component separated CBD from other samples and the second component separated control subjects from remaining samples. The top features on component one were enriched for T-lymphocyte function, and the top features on component two were enriched for innate immune signaling. We identified six differentially abundant proteins in CBD versus BeS, with two (SIT1 and SH2D1A) selected as important RNA features in the multiomic model. Our integrated analysis of DNA methylation, gene expression, and proteins in the lung identified multiomic signatures of CBD that differentiated it from BeS and control subjects.

Published

2022

2. DNA Methylation Changes in Lung Immune Cells Are Associated with Granulomatous Lung Disease.

Author

Yang IV, Konigsberg I, MacPhail K, Li L, Davidson EJ, Mroz PM, Hamzeh N, Gillespie M, Silveira LJ, Fingerlin TE, and Maier LA

Subjects

Berylliosis immunology, Berylliosis pathology, Case-Control Studies, Chronic Disease, Female, Gene Expression Profiling, Genome, Human, Humans, Male, Middle Aged, Sarcoidosis, Pulmonary immunology, Sarcoidosis, Pulmonary pathology, Berylliosis genetics, Biomarkers analysis, DNA Methylation, Gene Expression Regulation, Sarcoidosis, Pulmonary genetics

Abstract

Epigenetic marks are likely to explain variability of response to antigen in granulomatous lung disease. The objective of this study was to identify DNA methylation and gene expression changes associated with chronic beryllium disease (CBD) and sarcoidosis in lung cells obtained by BAL. BAL cells from CBD (n = 8), beryllium-sensitized (n = 8), sarcoidosis (n = 8), and additional progressive sarcoidosis (n = 9) and remitting (n = 15) sarcoidosis were profiled on the Illumina 450k methylation and Affymetrix/Agilent gene expression microarrays. Statistical analyses were performed to identify DNA methylation and gene expression changes associated with CBD, sarcoidosis, and disease progression in sarcoidosis. DNA methylation array findings were validated by pyrosequencing. We identified 52,860 significant (P < 0.005 and q < 0.05) CpGs associated with CBD; 2,726 CpGs near 1,944 unique genes have greater than 25% methylation change. A total of 69% of differentially methylated genes are significantly (q < 0.05) differentially expressed in CBD, with many canonical inverse relationships of methylation and expression in genes critical to T-helper cell type 1 differentiation, chemokines and their receptors, and other genes involved in immunity. Testing of these CBD-associated CpGs in sarcoidosis reveals that methylation changes only approach significance, but are methylated in the same direction, suggesting similarities between the two diseases with more heterogeneity in sarcoidosis that limits power with the current sample size. Analysis of progressive versus remitting sarcoidosis identified 15,215 CpGs (P < 0.005 and q < 0.05), but only 801 of them have greater than 5% methylation change, demonstrating that DNA methylation marks of disease progression changes are more subtle. Our study highlights the significance of epigenetic marks in lung immune response in granulomatous lung disease.

Published

2019

3. Beryllium-induced lung disease exhibits expression profiles similar to sarcoidosis.

Author

Li L, Silveira LJ, Hamzeh N, Gillespie M, Mroz PM, Mayer AS, Fingerlin TE, and Maier LA

Subjects

Adult, Aged, Aged, 80 and over, Berylliosis genetics, Chronic Disease, Female, Humans, Interferon-gamma genetics, Leukocytes, Mononuclear cytology, Lung Diseases genetics, Male, Middle Aged, Occupational Exposure, Oligonucleotide Array Sequence Analysis, Real-Time Polymerase Chain Reaction, Sarcoidosis genetics, Sarcoidosis physiopathology, Transcription, Genetic, Tumor Necrosis Factor-alpha genetics, Berylliosis physiopathology, Beryllium adverse effects, Gene Expression Profiling, Gene Expression Regulation, Lung Diseases chemically induced

Abstract

A subset of beryllium-exposed workers develop beryllium sensitisation (BeS) which precedes chronic beryllium disease (CBD). We conducted an in-depth analysis of differentially expressed candidate genes in CBD.We performed Affymetrix GeneChip 1.0 ST array analysis on peripheral blood mononuclear cells (PBMCs) from 10 CBD, 10 BeS and 10 beryllium-exposed, nondiseased controls stimulated with BeSO4 or medium. The differentially expressed genes were validated by high-throughput real-time PCR in this group and in an additional group of cases and nonexposed controls. The functional roles of the top candidate genes in CBD were assessed using a pharmacological inhibitor. CBD gene expression data were compared with whole blood and lung tissue in sarcoidosis from the Gene Expression Omnibus.We confirmed almost 450 genes that were significantly differentially expressed between CBD and controls. The top enrichment of genes was for JAK (Janus kinase)-STAT (signal transducer and activator of transcription) signalling. A JAK2 inhibitor significantly decreased tumour necrosis factor-α and interferon-γ production. Furthermore, we found 287 differentially expressed genes overlapped in CBD/sarcoidosis. The top shared pathways included cytokine-cytokine receptor interactions, and Toll-like receptor, chemokine and JAK-STAT signalling pathways.We show that PBMCs demonstrate differentially expressed gene profiles relevant to the immunnopathogenesis of CBD. CBD and sarcoidosis share similar differential expression of pathogenic genes and pathways., Competing Interests: can be found alongside this article at erj.ersjournals.com, (Copyright ©ERS 2016.)

Published

2016

4. Beryllium increases the CD14(dim)CD16+ subset in the lung of chronic beryllium disease.

Author

Li L, Hamzeh N, Gillespie M, Elliott J, Wang J, Gottschall EB, Mroz PM, and Maier LA

Subjects

Aged, Berylliosis metabolism, Bronchoalveolar Lavage Fluid cytology, Chemokines metabolism, Chronic Disease, Cytokines metabolism, Female, HLA-DR Antigens metabolism, Humans, Leukocytes, Mononuclear cytology, Leukocytes, Mononuclear metabolism, Lung cytology, Lung metabolism, Lung pathology, Macrophages, Alveolar cytology, Macrophages, Alveolar metabolism, Male, Middle Aged, Monocytes cytology, Monocytes immunology, Phagocytosis drug effects, Phenotype, Berylliosis pathology, Beryllium pharmacology, Leukocytes, Mononuclear drug effects, Lipopolysaccharide Receptors metabolism, Macrophages, Alveolar drug effects, Receptors, IgG metabolism

Abstract

CD14dimCD16+ and CD14brightCD16+ cells, which compose a minor population of monocytes in human peripheral blood mononuclear cells (PBMC), have been implicated in several inflammatory diseases. The aim of this study was to investigate whether this phenotype was present as a subset of lung infiltrative alveolar macrophages (AMs) in the granulomatous lung disease, chronic beryllium disease (CBD). The monocytes subsets was determined from PBMC cells and bronchoalveolar lavage (BAL) cells from CBD, beryllium sensitized Non-smoker (BeS-NS) and healthy subjects (HS) using flow cytometry. The impact of smoking on the AMs cell phenotype was determined by using BAL cells from BeS smokers (BeS-S). In comparison with the other monocyte subpopulations, CD14dimCD16+ cells were at decreased frequency in PBMCs of both BeS-NS and CBD and showed higher HLA-DR expression, compared to HS. The AMs from CBD and BeS-NS demonstrated a CD14dimCD16+phenotype, while CD14brightCD16+ cells were found at increased frequency in AMs of BeS, compared to HS. Fresh AMs from BeS-NS and CBD demonstrated significantly greater CD16, CD40, CD86 and HLA-DR than HS and BeS-S. The expression of CD16 on AMs from both CBD and BeS-NS was downregulated significantly after 10μM BeSO4 stimulation. The phagocytic activity of AMs decreased after 10μM BeSO4 treatment in both BeS-NS and CBD, although was altered or reduced in HS and BeS-S. These results suggest that Be increases the CD14dimCD16+ subsets in the lung of CBD subjects. We speculate that Be-stimulates the compartmentalization of a more mature CD16+ macrophage phenotype and that in turn these macrophages are a source of Th1 cytokines and chemokines that perpetuate the Be immune response in CBD. The protective effect of cigarette smoking in BeS-S may be due to the low expression of co-stimulatory markers on AMs from smokers as well as the decreased phagocytic function.

Published

2015

5. p38 Mitogen-Activated Protein Kinase in beryllium-induced dendritic cell activation.

Author

Li L, Huang Z, Gillespie M, Mroz PM, and Maier LA

Subjects

Aged, Berylliosis immunology, CD40 Antigens biosynthesis, Cell Proliferation drug effects, Enzyme Activation drug effects, Female, Granulomatous Disease, Chronic immunology, Humans, Imidazoles pharmacology, Interferon-gamma biosynthesis, Lymphocyte Activation immunology, MAP Kinase Signaling System drug effects, Male, Middle Aged, NF-kappa B metabolism, Phosphorylation drug effects, Pyridines pharmacology, Tumor Necrosis Factor-alpha biosynthesis, p38 Mitogen-Activated Protein Kinases antagonists & inhibitors, p38 Mitogen-Activated Protein Kinases immunology, Beryllium pharmacology, Cytokines biosynthesis, Dendritic Cells immunology, T-Lymphocytes immunology, p38 Mitogen-Activated Protein Kinases metabolism

Abstract

Dendritic cells (DC) play a role in the regulation of immune responses to haptens, which in turn impact DC maturation. Whether beryllium (Be) is able to induce DC maturation and if this occurs via the MAPK pathway is not known. Primary monocyte-derived DCs (moDCs) models were generated from Be non-exposed healthy volunteers as a non-sensitized cell model, while PBMCs from BeS (Be sensitized) and CBD (chronic beryllium disease) were used as disease models. The response of these cells to Be was evaluated. The expression of CD40 was increased significantly (p<0.05) on HLA-DP Glu69+ moDCs after 100 μM BeSO₄-stimulation. BeSO₄ induced p38MAPK phosphorylation, while IκB-α was degraded in Be-stimulated moDCs. The p38 MAPK inhibitor SB203580 blocked Be-induced NF-κB activation in moDCs, suggesting that p38MAPK and NF-κB are dependently activated by BeSO₄. Furthermore, in BeS and CBD subjects, SB203580 downregulated Be-stimulated proliferation in a dose-dependent manner, and decreased Be-stimulated TNF-α and IFNγ cytokine production. Taken together, this study suggests that Be-induces non-sensitized Glu69+ DCs maturation, and that p38MAPK signaling is important in the Be-stimulated DCs activation as well as subsequent T cell proliferation and cytokine production in BeS and CBD. In total, the MAPK pathway may serve as a potential therapeutic target for human granulomatous lung diseases., (Copyright © 2014 American Society for Histocompatibility and Immunogenetics. Published by Elsevier Inc. All rights reserved.)

Published

2014