Methotrexate (MTX) is an antiproliferative drug used for treating inflammatory diseases, including psoriasis. Nevertheless, its use in localized therapy is hindered because of poor transdermal penetration. We show that MTX coupled with gold nanoparticles (GNPs) demonstrates superior antiinflammatory efficacy than MTX alone in an imiquimod-induced mouse model, significantly reducing gd T cells, CD4 þ T cells, and neutrophils. Furthermore, it was well tolerated upon systemic and topical administration. In an AGR129 human xenograft mouse model, two-week topical treatment with MTX-GNPs inhibited skin hyperplasia significantly better than topical calcipotriol-betamethasone and led to profound tissue remodeling, involving the upregulation of extracellular matrix reorganization and the downregulation of cornification and keratinization processes. The number of resident T cells in the grafts, as well as interleukin-17 production, drastically decreased upon MTX-GNP treatment. While both MTX and MTX-GNPs directly prevented the proliferation and induced apoptosis of T cells, the suppression of cytokine production was a shared mechanism of GNP and MTX-GNPs. In conclusion, MTX-GNPs influence immune and stromal components of the skin, leading to the potent inhibition of pathogenesis in preclinical psoriasis. MTX-GNPs surpass the efficacy of conventional MTX and standard of care, emerging as a non-steroidal, topical alternative for psoriasis treatment.
In this article, we present a low-cost system that allows immersive, three-dimensional and interactive visualization of forensic incident scene reconstructions.
Heart inflammation is one of the major causes of heart damage that leads to dilated cardiomyopathy and often progresses to end-stage heart failure. In the present study, we aimed to assess whether human cardiac cells could release immune mediators upon stimulation of Toll-like receptors (TLRs) and Retinoic acid-inducible gene (RIG)-I-like receptors (RLRs).Commercially available human cardiac fibroblasts and an immortalized human cardiomyocyte cell line were stimulated in vitro with TLR2, TLR3, and TLR4 agonists. In addition, cytosolic RLRs were activated in cardiac cells after transfection of polyinosinic-polycytidylic acid (PolyIC). Upon stimulation of TLR3, TLR4, MDA5, and RIG-I, but not upon stimulation of TLR2, human cardiac fibroblasts produced high amounts of the pro-inflammatory cytokines IL-6 and IL-8. On the contrary, the immortalized human cardiomyocyte cell line was unresponsive to the tested TLRs agonists. Upon RLRs stimulation, cardiac fibroblasts, and to a lesser extent the cardiomyocyte cell line, induced anti-viral IFN-β expression.These data demonstrate that human cardiac fibroblasts and an immortalized human cardiomyocyte cell line differently respond to various TLRs and RLRs ligands. In particular, human cardiac fibroblasts were able to induce pro-inflammatory and anti-viral cytokines on their own. These aspects will contribute to better understand the immunological function of the different cell populations that make up the cardiac tissue.
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