Advances in Psoriasis Research: Decoding Immune Circuits and Developing Novel Therapies

Psoriasis is a chronic inflammatory autoimmune skin disease characterized by erythematous plaques covered with silvery-white scales, often accompanied by systemic complications such as psoriatic arthritis and cardiovascular diseases. The disease and its systemic complications substantially impair quality of life, compromise socioeconomic status, and threaten patient safety. The occurrence and progression of this disease are related to the IL-23/IL-17 axis and involve the aberrant activation and interactions of multiple immune cells, along with genetic predispositions and environmental triggers. Although current therapeutic approaches, including topical agents, systemic medications, biologic agents targeting key cytokines, and Janus Kinase inhibitors, can control symptoms and delay disease progression, a complete cure has not been achieved. Furthermore, these strategies face challenges relating to the cost, safety, efficacy and precision of targeting. This review summarizes recent advances in mechanistic research, highlighting the interplay among microorganisms, innate and adaptive immunity in psoriasis. We also evaluate a range of emerging therapies, including biologics, small-molecule inhibitors, Chimeric antigen receptor T-cell cell therapy, RNA interference-based strategies, and alternative medicine. Specifically, we focus on their novel mechanisms, efficacy challenges, safety profiles, and targeting accuracy. Finally, we assess their potential in personalized treatment, aiming to achieve long-term remission, and propose the future prospects of precision medicine in psoriasis management.