TY - JOUR
T1 - A human-mouse atlas of intrarenal myeloid cells identifies conserved disease-associated macrophages in lupus nephritis
AU - Accelerating Medicines Partnership in RA/SLE network
AU - Hoover, Paul J.
AU - Raparia, Chirag
AU - Lieb, David J.
AU - Tzur, Yochay
AU - Kang, Joyce
AU - Arazi, Arnon
AU - Leavitt, Rollin
AU - Mishra, Rakesh
AU - Shah, Sujal I.
AU - Simmons, Daimon
AU - Li, Stephen
AU - Peters, Michael
AU - Eisenhaure, Thomas
AU - Few-Cooper, Timothy J.
AU - Gurajala, Saisram S.
AU - Sonny, Abraham
AU - Hodgin, Jeffrey B.
AU - Berthier, Celine C.
AU - Guthridge, Joel M.
AU - Fava, Andrea
AU - Clancy, Robert M.
AU - Putterman, Chaim
AU - Izmirly, Peter M.
AU - Belmont, H. Michael
AU - Kalunian, Kenneth
AU - Kamen, Diane
AU - Wofsy, David
AU - Buyon, Jill P.
AU - James, Judith A.
AU - Petri, Michelle
AU - Diamond, Betty
AU - Raychaudhuri, Soumya
AU - Shen-Orr, Shai S.
AU - Hacohen, Nir
AU - Davidson, Anne
N1 - Publisher Copyright:
© 2025 Hoover et al.
PY - 2025/11/3
Y1 - 2025/11/3
N2 - Monocytes and macrophages in patients with lupus nephritis exhibit altered behavior compared with healthy kidneys. How to optimally use mouse models to develop treatments targeting these cells is poorly understood. This study compared intrarenal myeloid cells in four mouse models and 155 lupus nephritis patients using single-cell profiling, spatial transcriptomics, and functional studies. Across mouse models, monocyte and macrophage subsets consistently expanded or contracted in disease. A subset of murine classical monocytes expanded in disease; these cells expressed Cd9, Spp1, Ctsd, Cd63, Apoe, and Trem2, genes associated with tissue injury in other organs that play roles in inflammation, lipid metabolism, and tissue repair. Resident macrophages expressed similar genes in clinical disease. In humans, we identified analogous disease-associated monocytes and macrophages that were associated with kidney histological subtypes and disease progression, sharing gene expression and localizing to similar kidney microenvironments as in mice. This cross-species analysis supports the use of mouse functional studies for understanding human lupus nephritis.
AB - Monocytes and macrophages in patients with lupus nephritis exhibit altered behavior compared with healthy kidneys. How to optimally use mouse models to develop treatments targeting these cells is poorly understood. This study compared intrarenal myeloid cells in four mouse models and 155 lupus nephritis patients using single-cell profiling, spatial transcriptomics, and functional studies. Across mouse models, monocyte and macrophage subsets consistently expanded or contracted in disease. A subset of murine classical monocytes expanded in disease; these cells expressed Cd9, Spp1, Ctsd, Cd63, Apoe, and Trem2, genes associated with tissue injury in other organs that play roles in inflammation, lipid metabolism, and tissue repair. Resident macrophages expressed similar genes in clinical disease. In humans, we identified analogous disease-associated monocytes and macrophages that were associated with kidney histological subtypes and disease progression, sharing gene expression and localizing to similar kidney microenvironments as in mice. This cross-species analysis supports the use of mouse functional studies for understanding human lupus nephritis.
UR - https://www.scopus.com/pages/publications/105015682310
U2 - 10.1084/jem.20241873
DO - 10.1084/jem.20241873
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C2 - 40900124
AN - SCOPUS:105015682310
SN - 0022-1007
VL - 222
JO - Journal of Experimental Medicine
JF - Journal of Experimental Medicine
IS - 11
ER -
SDG 3 Good Health and Well-being