A considerable body of evidence implicates type I interferons (IFNs) in systemic lupus erythematosus (SLE); however, the ?interferon signature? does not address the source and the key pathogenic type I IFNs in SLE, making it challenging to design effective precision medicine for SLE. We propose the novel hypothesis that it is the endogenous production of IFN? by B cells that plays a defining role in shaping the autoantibody response and disease activity in a substantial subset of patients with SLE. We have found, in humans and mice, that the transitional (Tr) stage of B-cell development is characterized by heterogeneity in IFN? expression at the single- cell level. Our preliminary data further suggest that: (i) Tr B cells with high endogenous production of IFN? undergo strong IFN? autocrine signaling and changes in the transcriptome signature in a manner that supports RNA/RNP-associated TLR7 responses. This imprinted signature promotes subsequent survival and development of RNP-reactive B cells including their differentiation into long-lived memory B cells; and (ii) Anti- dsDNA autoAb producing cells are derived from Tr cells that do not express high levels of endogenous IFN? expression; however, high levels of endogenous IFN? in memory B cells play a critical role in the differentiation of short-lived anti-dsDNA memory B cells. The model is supported by compelling preliminary data including analyses of PBMCs from SLE patients that indicated significantly higher IFN? expression in B cells from SLE patients with renal involvement and significantly higher expression of intracellular IFN? in B cells from female African-American (AA) SLE patients as compared with non-AA patients and healthy controls.
In Aim 1, we will establish if lupus flare is associated with increases in IFN?hi memory B cells and if this phenotype is more common in AA SLE patients. High-throughput single-cell transcriptome analysis coupled with state-of-the-art computational analysis will be used to identify transcriptional signatures in DNA- and RNA-reactive B cells to refine this marker; to establish if, as predicted, there is commonality between the RNP-reactive Tr and memory B cell transcriptome; and to identify the association of enhanced IFN? signaling with stage-specific dysregulation of downstream pathways. Functional and target-specific analysis of sorted human PBMCs will then be used to determine if endogenous B-cell IFN? and its downstream pathways are essential for RNA- vs DNA-ligand mediated Tr and memory B-cell activation and survival.
In Aim 2, we will use the same approaches in the BXD2 lupus model and BCR transgenic mice to determine if endogenous IFN? is essential for, and differentially regulates, anti-RNP and anti-DNA B cell development in vivo. This hypothetical model does not negate the contributions of other cells and factors to the pathogenesis of SLE but reframes the current paradigm. The data generated will provide novel insights into the pathogenesis of SLE, identify novel therapeutic targets and provide the basis for development of precision medicine-guided approaches to utilization of currently available therapies in a significant subset of patients.
In the proposed work, we have identified a cascade of well-orchestrated interactions between interferon beta (IFN?) and several downstream key immune mediating molecules that act together to delineate the development and survival of short-lived versus long-lived autoreactive B cells. We will use state-of-the-art technologies to identify the key signatures of IFN?-dependent versus IFN?-independent mechanisms that enable autoreactive B-cell development in both human systemic lupus erythematosus (SLE) subjects and mouse models of lupus. The proposed work exhibits the potential to assist the development of precision medicine for SLE.
Hamilton, Jennie A; Wu, Qi; Yang, PingAr et al. (2018) Cutting Edge: Intracellular IFN-? and Distinct Type I IFN Expression Patterns in Circulating Systemic Lupus Erythematosus B Cells. J Immunol 201:2203-2208 |
Mountz, John D (2018) Editorial: STATus of STAT3 in Psoriatic Arthritis. Arthritis Rheumatol 70:801-804 |