CD23+/CD21hi B-cell translocation and ipsilateral lymph node collapse is associated with asymmetric arthritic flare in TNF-Tg mice

Seminars in Cell & Developmental Biology

et al. 2015

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Rheumatoid arthritis (RA) is a prevalent inflammatory joint disease with enigmatic flares, which causes swelling, pain, and irreversible connective tissue damage. Recently, it has been demonstrated in murine models of RA that the popliteal lymph node (PLN) is a biomarker of arthritic flare, as it “expands” in size and contrast enhancement during a prolonged asymptomatic phase, prior to when it “collapses” with accelerated synovitis and joint erosion. This PLN collapse is associated with adjacent knee flare, decreases in PLN volume and contrast enhancement, lymphatic pulse and pumping pressure, and an increase in PLN pressure. Currently, it is known that PLN collapse is accompanied by a translocation of B cells from the follicles to the sinuses, effectively clogging the lymphatic sinuses of the PLN, and that B cell depletion therapy ameliorates arthritic flare by eliminating these B cells and restoring passive lymphatic flow from inflamed joints. Here we review the technological advances that have launched this area of research, describe future directions to help elucidate the potential mechanism of PLN collapse, and speculate on clinical translation towards new diagnostics and therapies for RA.

Section: Discovery Of Expanding and Collapsed Lymph Nodes And B-inmentioning

confidence: 82%

The role of the lymphatic system in inflammatory-erosive arthritis

Seminars in Cell & Developmental Biology

et al. 2015

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“…This collapse, which occurs at variable time intervals in ~80% of TNF-Tg mice, is associated with B-in translocation from the follicles to LYVE-1 + lymphatic vessels of the paracortical sinuses, a reduction in volume and increase in PLN fluid pressure (6, 8, 16). Thereafter, lymphatic drainage declines significantly due to loss of intrisic lymphatic contractions and passive flow (8, 10, 13, 17). It was also demonstrated that B-cell depletion therapy (BCDT) with anti-CD20 antibodies ameliorated knee flare afferent to collapsed PLN by “clearing” the LN sinuses, and restoring passive lymphatic flow in the absence of lymphatic contractions (8).…”

Section: Introductionmentioning

confidence: 99%

Brief Report: Treatment of Tumor Necrosis Factor–Transgenic Mice With Anti–Tumor Necrosis Factor Restores Lymphatic Contractions, Repairs Lymphatic Vessels, and May Increase Monocyte/Macrophage Egress

Arthritis & Rheumatology

Kuzin

Bentley

et al. 2017

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Background Recent studies have demonstrated that there is an inverse relationship between lymphatic egress and inflammatory arthritis in affected joints. As a model, TNF-transgenic (TNF-Tg) mice develop advanced arthritis following draining lymph node collapse, and loss of lymphatic contractions downstream of inflamed joints. As it is unknown if these lymphatic deficits are reversible, we tested the hypothesis that anti-TNF therapy reduces advanced inflammatory-erosive arthritis, associated with restoration of lymphatic contractions, repair of damaged lymphatic vessels, and evidence of increased monocyte egress. Methods TNF-Tg mice with advanced arthritis and collapsed popliteal lymph nodes (PLN) were treated with anti-TNF monoclonal antibody (10 mg/kg weekly) or placebo for 6-weeks, and effects on knee synovitis, efferent lymphatic vessel ultrastructure and function, and PLN cellularity were assessed by ultrasound, histology, transmission electron microscopy (TEM), near infrared indocyanine green (NIR-ICG) imaging, and flow cytometry, respectively. Results Anti-TNF therapy significantly decreased synovitis ~5-fold (p<0.05 vs. placebo), restored lymphatic contractions, and significantly increased PLN monocytes/macrophages ~2-fold (p<0.05 vs. placebo). TEM demonstrated large activated macrophages attached to damaged lymphatic endothelium in mice with early arthritis, extensively damaged lymphatic vessels in placebo-treated mice with advanced arthritis, and rolling leukocytes in repaired lymphatic vessels in mice responsive to anti-TNF therapy. Conclusion These findings support the concept that anti-TNF therapy ameliorates inflammatory-erosive arthritis, in part, via restoration of lymphatic vessel contractions and potential enhancement of inflammatory cell egress.

“…Consistent with this model, we have previously shown that progressive joint inflammation in the TNF transgenic (TNF-tg) mouse model of inflammatory-erosive arthritis is accompanied by an increase in draining lymph node’s size, cellularity and drainage capacity, and that disease flares (as detected by increased synovial volume) and bone erosion at the knees are preceded by a rapid decrease in drainage capacity and substantial structural remodeling of the affected nodes [2–5]. These changes are specifically associated with unique alterations in the resident B cell population within the reactive nodes, resulting in the local differentiation of a follicular B cell-derived subset with a unique CD23+, CD21/35-high, CD1d-high, IgM-high, IgD-high phenotype and increased ability to capture and process antigen immune complexes ( B cell in i nflamed n odes, or Bin cells) [4–6].…”

Section: Introductionmentioning

confidence: 83%

“…These changes are specifically associated with unique alterations in the resident B cell population within the reactive nodes, resulting in the local differentiation of a follicular B cell-derived subset with a unique CD23+, CD21/35-high, CD1d-high, IgM-high, IgD-high phenotype and increased ability to capture and process antigen immune complexes ( B cell in i nflamed n odes, or Bin cells) [4–6]. Most significantly from a pathogenic standpoint, Bin cells localize to, and substantially occupy paracortical sinusoids in collapsed TNF-tg lymph nodes, likely contributing to the decreased lymphatic drainage function of the nodes [2–5, 7, 8]. Consistent with this hypothesis, in vivo depletion of B cells in TNF-tg mice using anti-CD20 antibodies restores lymphatic drainage and ameliorates disease progression [4, 8].…”

Section: Introductionmentioning

confidence: 99%

TNF signals are dispensable for the generation of CD23+ CD21/35-high CD1d-high B cells in inflamed lymph nodes

Kuzin

Schwarz

et al. 2015

Cellular Immunology

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Tumor necrosis factor (TNF) is a key cytokine in rheumatoid arthritis (RA) pathogenesis, as underscored by the clinical effectiveness of TNF antagonists. While several of TNF’s key targets in RA are well understood, its many pleiotropic effects remain to be elucidated. TNF-transgenic mice develop inflammatory-erosive arthritis associated with disruption of draining lymph node histology and function, and accumulation of B cells with unique phenotypic and functional features consistent with contribution to pathogenesis (B cells in inflamed nodes, Bin). Bin cell induction depends on the inflamed microenvironment, but the specific signals are unknown. Using anti-TNF treatment and TNF-receptor-deficient mice, here we show that Bin cells are induced and maintained independently of B cell-intrinsic TNF signals.