Repurposing the antipsychotic drug amisulpride for targeting synovial fibroblast activation in arthritis
Dimitra Papadopoulou, Fani Roumelioti, Christos Tzaferis, Panagiotis Chouvardas, Anna-Kathrine Pedersen, Filippos Charalampous, Eleni Christodoulou-Vafeiadou, Lydia Ntari, Niki Karagianni, Maria C. Denis, Jesper V. Olsen, Alexios N. Matralis, George Kollias
Dimitra Papadopoulou, Fani Roumelioti, Christos Tzaferis, Panagiotis Chouvardas, Anna-Kathrine Pedersen, Filippos Charalampous, Eleni Christodoulou-Vafeiadou, Lydia Ntari, Niki Karagianni, Maria C. Denis, Jesper V. Olsen, Alexios N. Matralis, George Kollias
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Research Article Therapeutics

Repurposing the antipsychotic drug amisulpride for targeting synovial fibroblast activation in arthritis

Abstract

Synovial fibroblasts (SFs) are key pathogenic drivers in rheumatoid arthritis (RA). Their in vivo activation by TNF is sufficient to orchestrate full arthritic pathogenesis in animal models, and TNF blockade proved efficacious for a high percentage of patients with RA albeit coinducing rare but serious side effects. Aiming to find new potent therapeutics, we applied the L1000CDS2 search engine, to repurpose drugs that could reverse the pathogenic expression signature of arthritogenic human TNF–transgenic (hTNFtg) SFs. We identified a neuroleptic drug, namely amisulpride, which reduced SFs’ inflammatory potential while decreasing the clinical score of hTNFtg polyarthritis. Notably, we found that amisulpride function was neither through its known targets dopamine receptors D2 and D3 and serotonin receptor 7 nor through TNF–TNF receptor I binding inhibition. Through a click chemistry approach, potentially novel targets of amisulpride were identified, which were further validated to repress hTNFtg SFs’ inflammatory potential ex vivo (Ascc3 and Sec62), while phosphoproteomics analysis revealed that treatment altered important fibroblast activation pathways, such as adhesion. Thus, amisulpride could prove beneficial to patients experiencing RA and the often-accompanying comorbid dysthymia, reducing SF pathogenicity along with its antidepressive activity, serving further as a “lead” compound for the development of novel therapeutics against fibroblast activation.

Authors

Dimitra Papadopoulou, Fani Roumelioti, Christos Tzaferis, Panagiotis Chouvardas, Anna-Kathrine Pedersen, Filippos Charalampous, Eleni Christodoulou-Vafeiadou, Lydia Ntari, Niki Karagianni, Maria C. Denis, Jesper V. Olsen, Alexios N. Matralis, George Kollias

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Figure 1

The antiinflammatory activity of amisulpride.

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The antiinflammatory activity of amisulpride. (A) CCL5 and CCL20 detecti...
(A) CCL5 and CCL20 detection in supernatants of hTNFtg SFs treated ex vivo with the indicated concentrations of amisulpride for 48 hours when compared with the hTNFtg vehicle-treated control (n = 3). (B) CCL5 and CCL20 detection in supernatants of WT SFs stimulated with 10 ng/mL hTNF, treated ex vivo with the indicated concentrations of amisulpride for 48 hours, when compared with the hTNF vehicle-treated control (n = 3). (C) Quantitative PCR (qPCR) analysis of hTNF gene expression in hTNFtg SFs treated with 500 μM amisulpride for 48 hours when compared with the hTNFtg vehicle-treated control (n = 4). (D) hTNF quantification in the supernatants of hTNFtg SFs when treated ex vivo with 500 μM amisulpride for 48 hours when compared with the hTNFtg vehicle-treated control (n = 3). (E) CCL2 (MCP1), CXCL5 (LIX), CCL11, and CXCL1 measured by Legendplex panel (BioLegend) on hTNFtg SFs treated with 500 μM amisulpride for 48 hours in comparison with the vehicle-treated control. TARC (CCL17), MIP-1β (CCL4), BLC (CXCL13), and MDC (CCL22) measured by Legendplex panel were not detected in the supernatants (n = 3–6) (* P value < 0.05; ** P value < 0.01; *** P value ≤ 0.0001; all data are shown as mean ± SEM; statistics for A, B, D, and E are performed using Student’s 2-tailed t test; statistics for C are performed using 1-way ANOVA, followed by Dunnett’s multiple comparisons test).