Synovial tissue response to treatment in psoriatic arthritis

From Bed to Bench and Back: TNF-α, IL-23/IL-17A, and JAK-Dependent Inflammation in the Pathogenesis of Psoriatic Synovitis

Psoriatic arthritis (PsA) is a chronic inflammatory immune-mediated disease with a burdensome impact on quality of life and substantial healthcare costs. To date, pharmacological interventions with different mechanisms of action, including conventional synthetic (cs), biological (b), and targeted synthetic (ts) disease-modifying antirheumatic drugs (DMARDs), have been proven efficacious, despite a relevant proportion of failures. The current approach in clinical practice and research is typically "predictive": the expected response is based on stratification according to clinical, imaging, and laboratory data, with a "heuristic" approach based on "trial and error". Several available therapeutic options target the TNF-α pathway, while others are directed against the IL-23/IL-17A axis. Janus kinase inhibitors (JAKis), instead, simultaneously block different pathways, endowing these drugs with a potentially "broad-spectrum" mechanism of action. It is not clear, however, whether targeting a specific pathway (e.g., TNF-α or the IL-23/IL-17 axis) could result in discordant effects over other approaches. In particular, in the case of "refractory to a treatment" patients, other pathways might be hyperactivated, with opposing, synergistic, or redundant biological significance. On the contrary, refractory states could be purely resistant to treatment as a whole. Since chronic synovitis is one of the primary targets of inflammation in PsA, synovial biomarkers could be useful in depicting specific biological characteristics of the inflammatory burden at the single-patient level, and despite not yet being implemented in clinical practice, these biomarkers might help in selecting the proper treatment. In this narrative review, we will provide an up-to-date overview of the knowledge in the field of psoriatic synovitis regarding studies investigating the relationships among different activated proinflammatory processes suitable for targeting by different available drugs. The final objective is to clarify the state of the art in the field of personalized medicine for psoriatic disease, aiming at moving beyond the current treatment schedules toward a patient-centered approach.

Biological and synthetic target DMARDs in psoriatic arthritis

Psoriatic arthritis (PsA) is a chronic multi-faceted immune-mediated systemic disorder, characterized by articular, cutaneous, enthesis, nail and spine involvement. Articular manifestations of PsA are particularly common and highly disabling for patients, while the heterogeneous clinical subsets of the disease are challenging for clinicians. In recent years, research has made many advances in understanding the pathogenesis of the disease from genetic, epigenetic and molecular points of view. New drugs are now available for the treatment of this condition, and, in particular, TNF-alfa inhibitors, historically the first biologicals approved in PsA, are now juxtaposed by new biological disease modifying anti-rheumatic drugs (bDMARDs) with different modes of action. Targeting IL-12/IL-23 p40 common subunit with ustekinumab, IL-17A with secukinumab and ixekizumab, T cells co-stimulation with abatacept, is now possible, safe and effective. Moreover, targeted synthetic molecules with oral administration are available, with the possibility to interfere with phosphodiesterase-4 and JAK/STAT pathways. Indeed, new drugs are under development, with the possibility to target selectively IL-17 receptor, IL-23, and other key molecular targets in the pathogenesis of this condition. In this narrative review, we provide an up-to-date overview of the current application of biological and targeted synthetic DMARDs in the field of PsA, with particular regard to the clinical significance of this possibility to target a higher number of distinct immune-pathways.

Profile of certolizumab and its potential in the treatment of psoriatic arthritis

Psoriatic arthritis (PsA) is a chronic inflammatory arthropathy associated with psoriasis (PsO). PsA could be considered an enthesal disease because of the link between mechanical stress (entheses) and immunologically active tissue (synovium). Evidence of efficacy of anti-tumor necrosis factor alpha (TNF-α) is supported by reduction of histological vascularity and immune cell infiltrates in synovial tissue after treatment. Certolizumab pegol (CZP) is a polyethylene glycolylated (PEGylated) Fab' fragment of a humanized monoclonal antibody that binds and neutralizes human TNF-α. The PEG moiety of the Fab fragment, markedly increases the half-life of CZP and confers to the drug a unique structure that differs from the other anti-TNF-α agents tested for the treatment of Crohn's disease, rheumatoid arthritis, ankylosing spondylitis, axial spondyloarthritis, nonradiographic spondyloarthritis, PsO, and PsA. In contrast to other anti-TNF-α agents, CZP did not mediate increased levels of apoptosis, suggesting that these mechanisms are not essential for the anti-TNF-α efficacy in Crohn's disease. As CZP, infliximab, and adalimumab, but not etanercept, almost completely inhibited lipopolysaccharide-induced interleukin-1 beta release from monocytes, this cytokine-production inhibition may be relevant for drug efficacy. Due to these characteristics, it has been demonstrated in clinical studies that CZP effectively improves signs and symptoms of arthritis and physical function and skin manifestations of PsO, with a safety profile similar to rheumatoid arthritis. This drug can be considered as a valid treatment in patients affected by PsA. The efficacy and tolerability profiles suggest CZP as a suitable antipsoriatic drug in the treatment of PsA.

Immunomodulation in psoriatic arthritis: focus on cellular and molecular pathways

Psoriatic arthritis (PsA) is a chronic inflammatory arthropathy associated with psoriasis. Pathogenesis is incompletely understood and pathophysiological role of synovium is just beginning to be elucidated. PsA could be considered an enthesal disease and this hypothesis is the link between mechanical stress (entheses) and immunologically active tissue (synovium). Histologically, PsA is characterized by lining layer hyperplasia, diffuse infiltrate of B, T, macrophages and dendritic cells associated with neutrophils' proliferation and angiogenesis. T cells are present, and oligoclonal T-cell expansions have been demonstrated in both skin and synovium. Histological findings are associated with monocyte-derived cytokines expression, as Myeloid-related protein (S100A8/A9). They play an important role in intracellular functions and cytoskeleton-membrane interactions. S100A8/A9 has a role in the propagation and perpetuation of the inflammatory process in patients with psoriasis and PsA, because of an activated monocyte/macrophage system that involve, distal to the skin, the "enthesal-complex." Complement system can be considered part of the acute phase response as demonstrated by higher plasma levels of C3 and C4 complement components in PsA patients compared with healthy subjects. These abnormal levels are then reverted by anti-TNF drugs. Evidences of efficacy of anti-TNF are expressed by reduction of vascularity and immune cells in synovial tissue. Therefore, innate response generates high concentrations of inflammatory cytokines which promote effector functions of a variety of tissue cells and sustain the characteristic chronicity of synovitis. The challenge will be the development of molecules affecting the balance between innate and adaptive immunity without affecting beneficial functions of the perfect concert of immunological process.