Immune cell quantification of in situ inflammation partitions human lupus nephritis into mechanistic subtypes
Gabriel Casella, Madeleine S. Torcasso, Junting Ai, Thao P. Cao, Satoshi Hara, Michael S. Andrade, Deepjyoti Ghosh, Daming Shao, Anthony Chang, Kichul Ko, Anita S. Chong, Maryellen L. Giger, Marcus R. Clark
Gabriel Casella, Madeleine S. Torcasso, Junting Ai, Thao P. Cao, Satoshi Hara, Michael S. Andrade, Deepjyoti Ghosh, Daming Shao, Anthony Chang, Kichul Ko, Anita S. Chong, Maryellen L. Giger, Marcus R. Clark
View: Text | PDF
Clinical Research and Public Health Autoimmunity Immunology

Immune cell quantification of in situ inflammation partitions human lupus nephritis into mechanistic subtypes

Abstract

BACKGROUND In human lupus nephritis (LuN), tubulointerstitial inflammation (TII) is prognostically more important than glomerular inflammation. However, a comprehensive understanding of both TII complexity and heterogeneity is lacking.METHODS Herein, we used high-dimensional confocal microscopy, spatial transcriptomics, and specialized computer vision techniques to quantify immune cell populations and localize these within normal and diseased renal cortex structures. With these tools, we compared LuN to renal allograft rejection (RAR) and normal kidney tissues on 54 deidentified biopsies.RESULTS In both LuN and RAR, the 33 characterized immune cell populations formed discrete subgroups whose constituents covaried in prevalence across biopsies. In both diseases, these covariant immune cell subgroups organized into the same unique niches. Therefore, inflammation could be resolved into trajectories representing the relative prevalence and density of cardinal immune cell members of each covariant subgroup. Indeed, in any one biopsy, the inflammatory state could be characterized by quantifying constituent immune cell trajectories. Remarkably, LuN heterogeneity could be captured by quantifying a few myeloid immune cell trajectories, while RAR was more complex with additional T cell trajectories.CONCLUSIONS Our studies identify rules governing renal inflammation and thus provide an approach for resolving LuN into discrete mechanistic categories.FUNDING NIH (U19 AI 082724 [MRC], R01 AI148705 [MRC and ASC]), Chan Zuckerberg Biohub (MRC), and Lupus Research Alliance (MRC).

Authors

Gabriel Casella, Madeleine S. Torcasso, Junting Ai, Thao P. Cao, Satoshi Hara, Michael S. Andrade, Deepjyoti Ghosh, Daming Shao, Anthony Chang, Kichul Ko, Anita S. Chong, Maryellen L. Giger, Marcus R. Clark

×

Figure 4

Distinct immune trajectories are associated with distinct pathologic states.

Options: View larger image (or click on image) Download as PowerPoint
Distinct immune trajectories are associated with distinct pathologic sta...
(A) Plot of the patient-level T-cell density (x-axis) and myeloid cell density (y-axis) colored by cohort: Kidney control (green), LuN (blue), RAR (magenta). Diameter indicates humoral cell density (B cells plus plasma cells). (B) Representative microscopy images of immune cell polarization in lupus nephritis and renal allograft rejection patient cohorts. Image numbers correspond to biopsies indicated in A. (C) Plot of the patient-level CD14+MerTk+ macrophage density (x-axis) and CD14+CD163+ macrophage density (y-axis) colored by cohort: Kidney control (green), LuN (blue), RAR (magenta). Diameter indicates T-cell density. (D) Representative microscopy images of CD14+CD163+ and CD14+MerTk+ enriched biopsies. Image numbers correspond to biopsies indicated in C. Scale bars: 50 μm.