Enriched Cd141+ DCs in the joint are transcriptionally distinct, activated, and contribute to joint pathogenesis
Mary Canavan, Alice M. Walsh, Vipul Bhargava, Sarah M. Wade, Trudy McGarry, Viviana Marzaioli, Barry Moran, Monika Biniecka, Hannah Convery, Siobhan Wade, Carl Orr, Ronan Mullan, Jean M. Fletcher, Sunil Nagpal, Douglas J. Veale, Ursula Fearon
Mary Canavan, Alice M. Walsh, Vipul Bhargava, Sarah M. Wade, Trudy McGarry, Viviana Marzaioli, Barry Moran, Monika Biniecka, Hannah Convery, Siobhan Wade, Carl Orr, Ronan Mullan, Jean M. Fletcher, Sunil Nagpal, Douglas J. Veale, Ursula Fearon
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Research Article Immunology

Enriched Cd141+ DCs in the joint are transcriptionally distinct, activated, and contribute to joint pathogenesis

Abstract

CD141+ DC are implicated in antiviral and antitumor immunity. However, mechanistic studies in autoimmune disease are limited. This is the first study to our knowledge examining CD141+ DC in autoimmune disease, specifically inflammatory arthritis (IA). We identified significant enrichment of CD141+ DC in the inflamed synovial joint, which were transcriptionally distinct from IA and healthy control (HC) blood CD141+ DC and significantly more activated, and they exhibited increased responsiveness to TLR3. Synovial CD141+ DC represent a bone fide CD141+ DC population that is distinct from CD1c+ DC. Synovial CD141+ DC induced higher levels of CD4+ and CD8+ T cell activation compared with their peripheral blood counterparts, as made evident by expression of IFN-γ, TNF-α, and granulocyte-macrophage CSF (GMCSF). Autologous synovial CD141+ DC cocultures also induce higher levels of these cytokines, further highlighting their contribution to synovial inflammation. Synovial CD141+ DC–T cell interactions had the ability to further activate synovial fibroblasts, inducing adhesive and invasive pathogenic mechanisms. Furthermore, we identify a mechanism in which synovial CD141+ DC are activated, via ligation of the hypoxia-inducible immune-amplification receptor TREM-1, which increased synovial CD141+ DC activation, migratory capacity, and proinflammatory cytokines. Thus, synovial CD141+ DC display unique mechanistic and transcriptomic signatures, which are distinguishable from blood CD141+ DC and can contribute to synovial joint inflammation.

Authors

Mary Canavan, Alice M. Walsh, Vipul Bhargava, Sarah M. Wade, Trudy McGarry, Viviana Marzaioli, Barry Moran, Monika Biniecka, Hannah Convery, Siobhan Wade, Carl Orr, Ronan Mullan, Jean M. Fletcher, Sunil Nagpal, Douglas J. Veale, Ursula Fearon

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Figure 2

CD141+ DC are enriched in inflamed synovium and are distinct from blood DC.

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CD141+ DC are enriched in inflamed synovium and are distinct from blood ...
(A) Percentage of CD141+ DC within the DC population of inflammatory arthritis (IA) whole blood (WB) and IA synovial fluid (SF). Square dots represent RA patients; triangles represent PsA patients. (B) Gating strategy to identify CD141+ DC. Following elimination of debris, doublets, and dead cells, cells were gated as follows: LinHLA-DR+, CD11c+HLA-DR+, CD1cHLA-DR+, CD141+Clec9A+, and CD141+XCR-1+ cells. (C) RNA from sorted CD141+ DC and CD1c+ HC/IA PBMC/SF were sequenced and analyzed for the expression of XCR-1, TLR3, CADM, Clec9A, Clec10A, and CD1c using RNA sequencing. (D) PCA was performed on the total datasets of HC PBMC CD141+ DC, IA SF CD141+ DC, and IA PBMC CD141+ DC. Data shown are from 4 HC donors, 5 IA SF donors, and 7 IA blood donors. (E) Unsupervised hierarchical clustered heatmap of differentially expressed genes in HC peripheral blood CD141+ DC, IA PBMC CD141+ DC, and IA SF CD141+ DC. **P < 0.01 significantly different from control. WB, whole blood; SF, synovial fluid; IA, inflammatory arthritis.