Animal models of studying the pathogenesis of multi-organ tissue damage in lupus.

Moderate-to-severe systemic lupus erythematosus (SLE) is characterized by extensive autoantibody deposition and persistent autoinflammation. As the existing animal models are limited in accurately reproducing the pathological characteristics of human SLE, we introduced a novel animal model simulating multi-organ autoinflammation through intra-organ injections. The model closely mimicked key features of SLE, including IgG deposition, inflammation, and tissue damage. The model could be used to assess the roles of IgG, immune cells, cytokines, and Fc gamma receptor (FcγR) in the pathogenesis of autoinflammation. The results obtained from this model could be confirmed by lupus MRL/ lpr mice. The review suggested that the diagnostic criteria should be reconsidered to incorporate IgG deposition in tissues and highlighted the limitations of current T-cell and B-cell-focused treatments. To summarize, the IgG deposition model can be used to investigate the pathogenesis and treatment of multi-organ tissue damage associated with SLE. • Introduction of a novel animal model: a new animal model mimicing the pathogenesis of lupus autoantibodies IgG-induced organ-tissue damage. • Comprehensive Exploration and Validation of New Model: The roles of lupus autoantibody IgG, immune cells, cytokines and FcγR in organ tissue inflammation were investigated by using this new model. Confirmation of the results from the new model using lupus-prone MRL/lpr mice. • Implications for SLE Research and Treatment: Importance and convenience of the IgG deposition model in investigating the pathogenesis of SLE and its potential for developing targeted therapies. • This paper significantly contributes to the understanding of SLE pathogenesis by introducing a novel animal model that accurately replicates key aspects of the disease, providing a platform for more effective therapeutic exploration and diagnostic considerations. [ABSTRACT FROM AUTHOR]