CXCL13 Promotes Proliferation of Mesangial Cells by Combination with CXCR5 in SLE

Da, Zhanyun; Li, Liuxia; Zhu, Jiangwei; Gu, Zhifeng; You, Bo; Shan, Ying; Shi, Si

doi:10.1155/2016/2063985

Cited by 17 publications

(16 citation statements)

References 35 publications

(39 reference statements)

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“…B cell gene signatures CD19, TNFRSF17 , and MS4A1 were significantly enriched in CLE skin tissue compared to healthy controls. High expression of NK cell signatures ( IL21R, KLRB1, KLRD1 , and KLRK1 ) and Cytotoxic T cell signatures ( CTSW, CD8A, EOMES , and LAG3 ), as well as associated GZMB and GZMA , support previous CLE studies that described cytotoxic signatures ( 48 – 51 ). There was no difference in the expression of IL4 , a Th2 cell gene signature, even though some studies have proposed the role of Th2 cells in the pathogenesis of CLE ( 52 ).…”

Section: Discussionsupporting

confidence: 83%

Using Gene Expression Analysis to Understand Complex Autoimmune Skin Disease Patients: A Series of Four Canine Cutaneous Lupus Erythematosus Cases

et al. 2022

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Cutaneous Lupus Erythematosus (CLE) is an autoimmune skin disease that occurs in almost two-thirds of people with Systemic Lupus Erythematosus (SLE) and can exist as its own entity. Despite its negative impact on the quality of life of patients, lupus pathogenesis is not fully understood. In recent years, the role of gene expression analysis has become important in understanding cellular functions and disease causation within and across species. Interestingly, dogs also develop CLE, providing a spontaneous animal model of disease. Here, we present a targeted transcriptomic analysis of skin biopsies from a case series of four dogs with complex autoimmunity with suspected CLE. We identified 92 differentially expressed genes (DEGs), including type 1 interferon, B cell, and T cell-related genes, in the four cases compared to healthy skin margin controls. Additionally, we compared our results with existing CLE datasets from humans and mice and found that humans and canines share 49 DEGs, whereas humans and mice shared only 25 DEGs in our gene set. Immunohistochemistry of IFNG and CXCL10, two of the most highly upregulated inflammatory mediators, confirmed protein-level expression and revealed immune cells as the primary source of CXCL10 in dogs with SLE, whereas keratinocytes stained strongly for CXCL10 in dogs without SLE. We propose that gene expression analysis may aid the diagnosis of complex autoimmune skin diseases and that dogs may provide important insights into CLE and SLE pathogeneses, or more broadly, skin manifestations during systemic autoimmunity.

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Section: Discussionsupporting

confidence: 83%

Using Gene Expression Analysis to Understand Complex Autoimmune Skin Disease Patients: A Series of Four Canine Cutaneous Lupus Erythematosus Cases

et al. 2022

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“…Other studies have also observed the association between CXCL13 level and disease activity in SLE, for example, with lupus nephritis (LN). 31,32 Schiffer et al demonstrated that serum levels of CXCL13 in SLE patients were higher than those observed in healthy controls. In patients with LN, the level of this chemokine was even higher compared to those without LN.…”

Section: Discussionmentioning

confidence: 99%

Association of CXCL13 serum level and ultrasonographic findings of joints in patients with systemic lupus erythematosus and Jaccoud’s arthropathy

Ribeiro

Lins

Galvão

et al. 2018

Lupus

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Objectives The objective of this paper is to perform an ultrasonography (US) analysis of hands and wrists in two groups of patients with systemic lupus erythematosus (SLE), with and without Jaccoud's arthropathy, matched by age and disease duration and to correlate them with levels of CXCL13 clinical features, laboratory tests and disease activity score. Methods Sixty-four patients with SLE were enrolled, 32 with and 32 without Jaccoud's arthropathy. Each patient underwent physical examination, laboratory tests (including CXCL13 by ELISA) and bilateral US. Synovial hypertrophy, tenosynovitis and erosions were evaluated according to a semiquantitative grading system with a 0-3 rating. US findings were correlated with serum levels of CXCL13, other serological parameters and disease activity index. Results Synovitis was found in 25/64 patients (39%) and tenosynovitis in 14/64 (22%). These findings were more frequent in SLE patients with Jaccoud's arthropathy, particularly tenosynovitis ( p = 0.002) and synovitis ( p = 0.01). Median serum level of CXCL13 was 20.16 pg/ml in the whole population (23.21 pg/ml in the Jaccoud's arthropathy group and 11.48 pg/ml in the group without). There was an association between the presence of disease activity and high level of CXCL13 ( p = 0.004). However, no association was found between high levels of CXCL13 and "arthritis" in SLEDAI, swollen joints on physical examination or synovitis on US. Conclusions US findings in joints of SLE patients with Jaccoud's arthropathy confirm that synovitis and tenosynovitis are common in these patients. In addition, serum level of CXCL13 is associated with disease activity in SLE but does not seem to be a biomarker for arthritis in these patients.

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“…In the last couple of decades, increasing evidence has linked CXCL13/CXCR5 axis to SLE and its major manifestations. Serum CXCL13 levels are found to be significantly higher in SLE patients, especially in those with renal involvement, as compared with healthy controls (83,84). Serum CXCL13 is positively correlated with the SLE Disease Activity Index (SLEDAI) (84,144,145), anti-double-stranded DNA (anti-dsDNA) antibodies titers, and prevalence of inflammatory arthritis, while it is inversely correlated with serum levels of complement factors C3 and C4 (146)(147)(148).…”

Section: Cxcl13/cxcr5 Axis In Systemic Lupus Erythematosusmentioning

confidence: 97%

“…Serum CXCL13 levels are found to be significantly higher in SLE patients, especially in those with renal involvement, as compared with healthy controls (83,84). Serum CXCL13 is positively correlated with the SLE Disease Activity Index (SLEDAI) (84,144,145), anti-double-stranded DNA (anti-dsDNA) antibodies titers, and prevalence of inflammatory arthritis, while it is inversely correlated with serum levels of complement factors C3 and C4 (146)(147)(148). CXCL13 is also a potential differentiation marker to identify active SLE from inactive SLE, and to identify LN from non-LN in SLE patients (148).…”

Section: Cxcl13/cxcr5 Axis In Systemic Lupus Erythematosusmentioning

confidence: 99%

Role of the CXCL13/CXCR5 Axis in Autoimmune Diseases

et al. 2022

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CXCL13 is a B-cell chemokine produced mainly by mesenchymal lymphoid tissue organizer cells, follicular dendritic cells, and human T follicular helper cells. By binding to its receptor, CXCR5, CXCL13 plays an important role in lymphoid neogenesis, lymphoid organization, and immune responses. Recent studies have found that CXCL13 and its receptor CXCR5 are implicated in the pathogenesis of several autoimmune diseases, such as rheumatoid arthritis, multiple sclerosis, systemic lupus erythematosus, primary Sjögren’s syndrome, myasthenia gravis, and inflammatory bowel disease. In this review, we discuss the biological features of CXCL13 and CXCR5 and the recent findings on the pathogenic roles of the CXCL13/CXCR5 axis in autoimmune diseases. Furthermore, we discuss the potential role of CXCL13 as a disease biomarker and therapeutic target in autoimmune diseases.

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CXCL13 Promotes Proliferation of Mesangial Cells by Combination with CXCR5 in SLE

Cited by 17 publications

References 35 publications

Using Gene Expression Analysis to Understand Complex Autoimmune Skin Disease Patients: A Series of Four Canine Cutaneous Lupus Erythematosus Cases

Using Gene Expression Analysis to Understand Complex Autoimmune Skin Disease Patients: A Series of Four Canine Cutaneous Lupus Erythematosus Cases

Association of CXCL13 serum level and ultrasonographic findings of joints in patients with systemic lupus erythematosus and Jaccoud’s arthropathy

Role of the CXCL13/CXCR5 Axis in Autoimmune Diseases

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