Three major academic centers propose to collaborate as a combined clinical-technology site. The 2 clinical centers, NYU School of Medicine and Albert Einstein College of Medicine, have a rich and long history of commitment to SLE and together currently treat ~1,000 SLE patients. They will jointly assemble a renal phenotype-driven patient cohort comprising diverse ethnic/racial backgrounds. The Multi-Ethnic Translational Research Optimization (METRO) Lupus Consortium cohort will be leveraged to develop, standardize and validate advanced technologies to identify critical signaling pathways in tissues (renal and skin), cells and urine. Given the widespread vasculopathy characteristic of SLE, endothelial cell activation in the tubulointerstitium in lupus nephritis (LN) may be accompanied by similar activation, even in nonlesional skin. Molecular analysis of gene expression and signaling in specific subsets of renal cells may precede and predict the pathologic processes that lead to end organ damage and provide insights to deconstruct the heterogeneity of lupus in general and the histologic class of renal disease in particular. Furthermore, the faithful reflection of a relevant pathway in renal tissue by a more readily accessible tissue or fluid compartment would pave the way to early identification and treatment, critical to renal survival. Because SLE is strongly associated with racial/ethnic disparities, studies need to address whether specific biological pathways and drug targets are race-/ethnicity- dependent. Accordingly, METRO will comprise substantial numbers of Black, Hispanic, Asian, and White patients recruited at NYU (PI Buyon) and Einstein (PI Putterman). PI Dr. Thomas Tuschl at The Rockefeller University brings expertise and extensive experience in coding and non-coding RNAseq analysis and RNA diagnostic and therapeutic development. The proposal addresses 2 objectives: i) identification of candidate targets to guide novel therapy; and ii) development of non-invasive strategies to maximize early detection of LN. The former will be approached by identifying unique patterns from single-cell RNAseq (including RNA deregulation or mutation/allelic variation) in LN kidney cells (including capillary endothelial cells) compared with normal tissue/cells, and the latter by similar RNA analysis in LN matched with nonlesional skin, PBMC, and urine cellular pellet (UCP). Operationally the project is approached in sequential phases:
Aim 1 (Phase 0, UH2): To establish the optimal method of renal tissue collection and single cell isolation of resident and infiltrating cells followed by poyA RNAseq, and similar application to cell populations present in nonlesional skin, PBMC, and UCP.
Aim 2 (Phase I, UH2): To identify RNAseq patterns associated with different biopsy classes and compare with nonlesional skin (endothelial cells), PBMC, and UCP from the same patient.
Aim 3 (Phase II, UH3): To establish whether a) the renal tissue RNAseq pattern associates with biopsy class, activity, and chronicity segregated by race/ethnicity; b) renal pattern tracks response to therapy and/or progression of renal disease in new onset or recurrent disease; and c) the pattern in skin, PBMC or UCP antedates new or relapsing kidney involvement.

Public Health Relevance

The Multi-Ethnic Translational Research Optimization (METRO) Lupus Consortium will enroll and follow approximately 300 patients who have systemic lupus erythematosus (SLE). The causes of this potentially fatal, heterogeneous, chronic, and systemic autoimmune disease are not well understood, but its incidence, prevalence and severity are known to be affected by race and ethnicity, as well as socioeconomic status. Our proposed studies will focus on identification of treatable targets specific to kidney injury, and in particular to assess whether similar targets can be identified in cells from the skin, blood or urine which may help to predict kidney disease less invasively and at an earlier stage; the goal is to begin treatment of kidney disease much earlier than is now possible, and ultimately preserve kidney function in patients with SLE.

National Institute of Health (NIH)
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Exploratory/Developmental Cooperative Agreement Phase I (UH2)
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Special Emphasis Panel (ZAR1)
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Serrate-Sztein, Susana
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New York University
Internal Medicine/Medicine
Schools of Medicine
New York
United States
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Gogakos, Tasos; Brown, Miguel; Garzia, Aitor et al. (2017) Characterizing Expression and Processing of Precursor and Mature Human tRNAs by Hydro-tRNAseq and PAR-CLIP. Cell Rep 20:1463-1475
Der, Evan; Ranabothu, Saritha; Suryawanshi, Hemant et al. (2017) Single cell RNA sequencing to dissect the molecular heterogeneity in lupus nephritis. JCI Insight 2: