Cristina Padilla scite author profile

Objective To explore the relationship between biomarkers of pulmonary arterial hypertension (PAH), interferon (IFN)–regulated gene expression, and the alternative activation pathway in systemic sclerosis (SSc). Methods Peripheral blood mononuclear cells (PBMCs) were purified from healthy controls, patients with idiopathic PAH, and SSc patients (classified as having diffuse cutaneous SSc, limited cutaneous SSc [lcSSc] without PAH, and lcSSc with PAH). IFN-regulated and “PAH biomarker” genes were compared after supervised hierarchical clustering. Messenger RNA levels of selected IFN-regulated genes (Siglec1 and MX1), biomarker genes (IL13RA1, CCR1, and JAK2), and the alternative activation marker gene (MRC1) were analyzed on PBMCs and on CD14− and CD14+ cell populations. Interleukin-13 (IL-13) and IL-4 concentrations were measured in plasma by immunoassay. CD14, MRC1, and IL13RA1 surface expression was analyzed by flow cytometry. Results Increased PBMC expression of both IFN-regulated and biomarker genes distinguished SSc patients from healthy controls. Expression of genes in the biomarker cluster, but not in the IFN-regulated cluster, distinguished lcSSc with PAH from lcSSc without PAH. The genes CCR1 (P < 0.001) and JAK2 (P < 0.001) were expressed more highly in lcSSc patients with PAH compared with controls and mainly by CD14+ cells. MRC1 expression was increased exclusively in lcSSc patients with PAH (P < 0.001) and correlated strongly with pulmonary artery pressure (r = 0.52, P = 0.03) and higher mortality (P = 0.02). MRC1 expression was higher in CD14+ cells and was greatly increased by stimulation with IL-13. IL-13 concentrations in plasma were most highly increased in lcSSc patients with PAH (P < 0.001). Conclusion IFN-regulated and biomarker genes represent distinct, although related, clusters in lcSSc patients with PAH. MRC1, a marker for the effect of IL-13 on alternative monocyte/macrophage activation, is associated with this severe complication and is related to mortality.

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A Longitudinal Biomarker for the Extent of Skin Disease in Patients With Diffuse Cutaneous Systemic Sclerosis

Rice

Ziemek

Stratton

et al. 2015

Arthritis & Rheumatology

104

101

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Objective The goal of this study was to define a pharmacodynamic biomarker based on gene expression in skin that would provide a biological measure of disease extent in patients with diffuse cutaneous systemic sclerosis (dcSSc) and that could be used to monitor skin disease longitudinally. Methods Skin biopsies taken from a cohort of dcSSc patients that included longitudinal samples were analyzed by microarray. Expression of genes correlating with the modified Rodnan skin score (MRSS) were examined by nanostring for change over time, and a generalized estimating equation used to define and validate longitudinal, pharmacodynamic biomarkers composed of multiple genes. Results Microarray analysis of genes parsed to include only genes correlating with the MRSS revealed prominent clusters of profibrotic/TGFβ-regulated, IFN-regulated/proteasome, macrophage and vascular marker genes. Using genes changing longitudinally with the MRSS, two multigene, pharmacodynamic biomarkers were defined. The first was defined mathematically, applying a generalized estimating equation to longitudinal samples. This modeling method selected cross-sectional THBS1 and longitudinal THBS1 and MS4A4A genes. The second model was based on a weighted selection of genes, including additional genes with statistically significant change over time: CTGF, CD163, CCL2 and WIF1. Biomarker levels calculated using both models correlated highly with the MRSS in an independent validation dataset. Conclusion Skin gene expression can be used effectively to monitor SSc skin disease change over time. We have implemented these relatively simple models on a nanostring platform permitting highly reproducible assays that can be applied directly to samples from patients or collected as part of clinical trials.

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Epstein–Barr Virus Infection Induces Aberrant TLR Activation Pathway and Fibroblast–Myofibroblast Conversion in Scleroderma

Farina

Cirone

York

et al. 2014

Journal of Investigative Dermatology

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Scleroderma (SSc) is a complex and heterogeneous connective tissue disease mainly characterized by autoimmunity, vascular damage, and fibrosis that mostly involve the skin and lungs. Epstein–Barr virus (EBV) is a lymphotropic γ-herpesvirus that has co-evolved with human species, infecting >95% of the adult population worldwide, and has been a leading candidate in triggering several autoimmune diseases. Here we show that EBV establishes infection in the majority of fibroblasts and endothelial cells in the skin of SSc patients, characterized by the expression of the EBV noncoding small RNAs (EBERs) and the increased expression of immediate-early lytic and latency mRNAs and proteins. We report that EBV is able to persistently infect human SSc fibroblasts in vitro, inducing an aberrant innate immune response in infected cells. EBV–Toll-like receptor (TLR) aberrant activation induces the expression of selected IFN-regulatory factors (IRFs), IFN-stimulated genes (ISGs), transforming growth factor-β1 (TGFβ1), and several markers of fibroblast activation, such as smooth muscle actin and Endothelin-1, and all of these genes play a key role in determining the profibrotic phenotype in SSc fibroblasts. These findings imply that EBV infection occurring in mesenchymal, endothelial, and immune cells of SSc patients may underlie the main pathological features of SSc including autoimmunity, vasculopathy, and fibrosis, and provide a unified disease mechanism represented by EBV reactivation.

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Thymic Stromal Lymphopoietin Is Up‐Regulated in the Skin of Patients With Systemic Sclerosis and Induces Profibrotic Genes and Intracellular Signaling That Overlap With Those Induced by Interleukin‐13 and Transforming Growth Factor β

Christmann¹,

Mathes²,

Affandi³

et al. 2013

Arthritis & Rheumatism

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Objective To explore the expression of thymic stromal lymphopoietin (TSLP) in patients with diffuse cutaneous systemic sclerosis (dcSSc) and compare its effects in vivo and in vitro with those of interleukin-13 (IL-13) and transforming growth factor β (TGFβ). Methods Skin biopsy specimens from patients with dcSSc (n = 14) and healthy controls (n = 13) were analyzed by immunohistochemistry and immunofluorescence for TSLP, TSLP receptor, CD4, CD8, CD31, and CD163 markers. Wild-type, IL-4Rα1–, and TSLP-deficient mice were treated with TGFβ, IL-13, poly(I-C), or TSLP by osmotic pump. Human fibroblasts and peripheral blood mononuclear cells (PBMCs) were stimulated with TGFβ, IL-13, poly(I-C), or TSLP. Microarray analysis and quantitative polymerase chain reaction were performed to determine gene expression, and protein levels of phospho-Smad2 and macrophage marker CD163 were tested. Results TSLP was highly expressed in the skin of dcSSc patients, more strongly in perivascular areas and in immune cells, and was produced mainly by CD163+ cells. The skin of TSLP-treated mice showed up-regulated clusters of gene expression that overlapped strongly with those in IL-13– and TGFβ-treated mice. TSLP up-regulated specific genes, including CXCL9, proteasome, and interferon (IFN)–regulated genes. TSLP treatment in IL-4Rα1–deficient mice promoted similar cutaneous inflammation as in wild-type mice, though TSLP-induced arginase 1, CCL2, and matrix metalloproteinase 12 messenger RNA levels were blocked. In PBMCs, TSLP up-regulated tumor necrosis factor α, Mx-1, IFNγ, CXCL9, and mannose receptor 1 gene expression. TSLP-deficient mice treated with TGFβ showed less fibrosis and blocked expression of plasminogen activator inhibitor 1 and osteopontin 1. Poly(I-C)–treated mice showed high levels of cutaneous TSLP. Conclusion TSLP is highly expressed in the skin of dcSSc patients and interacts in a complex manner with 2 other profibrotic cytokines, TGFβ and IL-13, strongly suggesting that it might promote SSc fibrosis directly or indirectly by synergistically stimulating pro-fibrotic genes, or production of these cytokines.

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