OP0050 INCREASED IFITM GENE-SIGNATURES IN AGE-ASSOCIATED B AND PLASMA CELLS DEFINE NON-RESPONSE TO MYCOPHENOLATE MOFETIL IN SYSTEMIC LUPUS ERYTHEMATOSUS
2023; BMJ; Linguagem: Inglês
10.1136/annrheumdis-2023-eular.4609
ISSN1468-2060
AutoresRaúl López-Domínguez, Juan Antonio Villatoro-García, Concepción Marañón, Daniel Goldman, Michelle Petri, Pedro Carmona‐Sáez, M. Alarcon-Riquelme, D. Toro-Domínguez,
Tópico(s)Liver Diseases and Immunity
ResumoBackground Systemic Lupus Erythematosus (SLE) is a complex autoimmune disease that leads to significant worsening of quality of life and mortality. The enormous molecular heterogeneity of SLE is reflected in different clinical manifestations, disease progression and also in a different drug efficacy across patients[1]. Lupus nephritis (LN) is the most severe SLE manifestation with the potential of rapidly evolving into irreversible chronic kidney disease and kidney failure if not adequately followed and treated. Mycophenolate mofetil (MMF) is the most widely used first-line treatment for LN, being ineffective or partially effective in 15-30 percent of the patients[2]. Reasons for non-response are still unknown and low or moderate drug efficacy may lead to aggravation of the disease. Treat-to-target approaches where personalized molecular patterns guide therapeutic decisions, are rapidly growing in medical fields such as oncology, but remain unmet within clinical rheumatology[3]. In addition, pathological molecular dysregulation behind SLE fluctuates within a non-linear clinical course and unpredictable patterns of flares and remissions, hindering the development of effective and robust predictive biomarkers for both diagnosis and drug responsiveness[4]. Objectives The development of new, more effective therapies to treat LN is an urgent unmet need. The objective of this work is to define the cellular and molecular immune landscape behind non-response to MMF to finally apply this knowledge within routine clinical practice. Methods A longitudinal cohort comprising gene-expression and clinical data of 97 MMF responder and 28 non-responder blood samples was retrospectively analyzed. Differential gene expression and functional analysis were performed. Response rate was measured based on blood cell proportions. Single-cell RNA sequencing data was analyzed to identify the cell subtypes influencing non-response and their contributing genes and regulation mechanisms. Results A robust signature comprising 41 differentially expressed genes defined non-response to MMF and cellular profiles that favor the response to the drug in the patients were revealed. The response rate to MMF increases the lower the B cell/T cell ratio. Single-cell RNA sequencing showed that overexpression of the IFITM-family of genes in age-associated B cells, plasma cells, myeloid dendritic cells and macrophages was behind the non-response signature. Conclusion Blood cell subtypes and genes mediating non-response to MMF were revealed, opening a new scenario for the development of new therapeutic strategies for LN. References [1]Toro-Domínguez D, Martorell-Marugán J, Martinez-Bueno M, López-Domínguez R, Carnero-Montoro E, Barturen G, et al. Scoring personalized molecular portraits identify Systemic Lupus Erythematosus subtypes and predict individualized drug responses, symptomatology and disease progression. Brief Bioinform. 2022 Sep 20;23(5):bbac332. [2]Chan TM, Li FK, Tang CSO, Wong RWS, Fang GX, Ji YL, et al. Efficacy of Mycophenolate Mofetil in Patients with Diffuse Proliferative Lupus Nephritis. N Engl J Med. 2000 Oct 19;343(16):1156–62. [3]Pitzalis C, Choy EHS, Buch MH. Transforming clinical trials in rheumatology: towards patient-centric precision medicine. Nat Rev Rheumatol. 2020 Oct;16(10):590–9. [4]Guthridge JM, Wagner CA, James JA. The promise of precision medicine in rheumatology. Nat Med. 2022 Jul;28(7):1363–71. Acknowledgements: NIL. Disclosure of Interests None Declared.
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