Endothelial cell-released CD93 contributes to podocyte injury in idiopathic nephrotic syndrome.

Creator(s)

Colin Bauer
Federica Piani
Jonathan Troost
Stefano Da Sacco
Guadalupe Rojas-Sanchez
Pavel Davizon-Castillo
Laura Perin
Ilse Daehn
Md Imtiazul Islam
Audrey Fetsko
Claudia Carrera-Muñoz
Brad Rovin
Xiaolan L. Zhang
Mindy Banks
Carmen de Lucas-Collantes
Flor A Ordóñez-Álvarez
Cristina Aparicio-López
Miguel A. Lanaspa
Ana Andres-Hernando
Alfons Segarra
Cristina Martinez
Petter Bjornstad
M Scott Lucia
Franz Schaefer
Alev Yilmaz
Aleksandra Zurowska
Xin Wang
Phillip J. McCown
Sean Eddy
John Hartman
Laura Mariani
Matthias Kretzler
Yuwen Zhu
Antonia H M Bouts
Elena N. Levtchenko
Julie A. Dougherty
William E. Smoyer
Bryce A. Kerlin
Mahmoud Kallash
Danielle E. Soranno
José E. Cabrera-Sevilla
Juan David Gonzalez-Rodriguez
Bradford J. Siegele
Shoji Tsuji
Kazunari Kaneko
Christine B. Sethna
Tarak Srivastava, Children's Mercy HospitalFollow
Markus Bitzer
Christopher L. O'Connor
Anna Dimberg
Serena Zhao
Liping Yu
Joshua M. Thurman
Richard J. Johnson
Gabriel Cara-Fuentes

Document Type

Article

Publication Date

1-14-2026

Identifier

DOI: 10.1126/scitranslmed.adw2206

Abstract

Idiopathic nephrotic syndrome (INS) is a podocyte disease triggered by immune-derived factors. Endothelial activation occurs in this context, but whether the activated endothelium contributes to podocyte injury is unknown. We tested the hypothesis that CD93, a protein primarily expressed in the endothelium, is a contributory factor of podocyte injury. We studied 460 patients with INS and 150 with other podocytopathies. CD93 was analyzed in kidney tissue, urine, and serum samples. We tested the efficacy of CD93 blockade in vitro and in vivo and investigated the relationship between soluble CD93 and clinical outcomes in human INS. CD93 was highly expressed by glomerular endothelial cells (GEnCs) in human INS, and INS sera stimulated cultured human GEnCs to release CD93. Mechanistically, soluble CD93 mediated podocyte activation via β1 integrin/FAK signaling in cultured human podocytes. CD93 blockade mitigated the activation of cultured human podocytes and albumin permeability in human GEnC-podocyte cocultures as well as albuminuria, glomerulosclerosis, and podocyte loss in two models of nephrotic syndrome: podocyte-specific transforming growth factor-β1 signaling (PodTgfbr1) mice and adriamycin-treated mice. Cd93 knockout mice showed less proteinuria and glomerulosclerosis, compared with controls, after adriamycin injection. In patients with INS, soluble CD93 was high in urine in ~90% and 50% of patients in relapse and remission, respectively. High urinary CD93 was associated with faster decline in kidney function and slower response to immunosuppression. Soluble and glomerular CD93 was also elevated in other podocytopathies. We conclude that soluble CD93 contributes to podocyte injury.

Journal Title

Sci Transl Med

Volume

18

Issue

832

First Page

2206

Last Page

2206

MeSH Keywords

Podocytes; Humans; Nephrotic Syndrome; Animals; Endothelial Cells; Male; Mice; Female; Membrane Glycoproteins; Signal Transduction; Mice, Knockout; Adult; Middle Aged; Kidney Glomerulus; Integrin beta1; Receptors, Complement

PubMed ID

41533775

Keywords

Podocytes; Nephrotic Syndrome; Endothelial Cells; Membrane Glycoproteins; Signal Transduction; Mice, Knockout; Kidney Glomerulus; Integrin beta1; Complement Receptors

Recommended Citation

Bauer C, Piani F, Troost J, et al. Endothelial cell-released CD93 contributes to podocyte injury in idiopathic nephrotic syndrome. Sci Transl Med. 2026;18(832):eadw2206. doi:10.1126/scitranslmed.adw2206