TNF-α blockade mitigates immune checkpoint–related nephritis in a humanized mouse model
Victor D. Cuenca Narvaez, Coraima Nava Chavez, Omar Al Refai, Johanna E.J. Jacobs, Luis E. Gutierrez, Song Zhang, Xiaoyan Li, Jacob B. Hirdler, Michael F. Romero, Joerg Herrmann, Xiaogang Li, Haidong Dong, Alfonso Eirin, Sandra M. Herrmann
Victor D. Cuenca Narvaez, Coraima Nava Chavez, Omar Al Refai, Johanna E.J. Jacobs, Luis E. Gutierrez, Song Zhang, Xiaoyan Li, Jacob B. Hirdler, Michael F. Romero, Joerg Herrmann, Xiaogang Li, Haidong Dong, Alfonso Eirin, Sandra M. Herrmann
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Research Article Immunology Inflammation Nephrology

TNF-α blockade mitigates immune checkpoint–related nephritis in a humanized mouse model

Abstract

Immune checkpoint inhibitors (ICIs) can cause immune-related adverse events (irAEs), with acute interstitial nephritis (ICI-AIN) being the most common irAE. While the exact mechanism remains unclear, upregulation of IFN-γ and TNF-α pathways has been implicated. This study used a humanized chimeric PD-1/PD-L1 mouse model to assess renal effects of ICIs, alone or combined with proinflammatory cytokines, and to test if selective TNF-α blockade could prevent ICI-AIN. Mice were randomly divided into 4 experimental groups: Control, ICI-Only, ICI-Cytokines (ICI-Cyt), and ICI-Block (ICI-TNF-α blockade). Renal function and cytokine profiles were assessed, while kidney tissue was analyzed using microscopy and single-cell RNA-seq. Histology revealed increased renal infiltration of CD4+/CD8+ T cells in ICI-treated groups and decreased TNF-α expression following TNF-α blockade. Additionally, kidney tissue ELISA demonstrated reduced IFN-γ levels following TNF-α blockade. Plasma IL-6, MCP-1, and TNF-α were lower in ICI-Block mice. Single-cell RNA-seq revealed shifts in immune cell populations and genes of interest including Bcl2a1, Icos, Il18r1, Ccr2, and Jaml. This humanized model replicates ICI-AIN key features, revealing a synergistic role of ICIs and proinflammatory cytokines. TNF-α blockade demonstrated protective effects, supporting its potential role in mitigating the risk of ICI-AIN.

Authors

Victor D. Cuenca Narvaez, Coraima Nava Chavez, Omar Al Refai, Johanna E.J. Jacobs, Luis E. Gutierrez, Song Zhang, Xiaoyan Li, Jacob B. Hirdler, Michael F. Romero, Joerg Herrmann, Xiaogang Li, Haidong Dong, Alfonso Eirin, Sandra M. Herrmann

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Figure 3

TNF-α expression in renal tubular compartments during immune checkpoint inhibition and TNF-α blockade.

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TNF-α expression in renal tubular compartments during immune checkpoint ...
(A) Representative immunohistochemical (IHC) images showing TNF-α staining in kidney tubules across treatment groups. Left column displays TNF-α expression in brown, while right column presents red-enhanced images generated using ImageJ (NIH) highlight staining intensity. Original magnification, ×200. (B) TNF-α expression percentage per medium power field (MPF) in treatment groups. (C) TNF-α expression percentage per MPF in nephritis status groups. P values derived from Kruskal-Wallis followed by Dunn’s multiple-comparison test for post hoc analysis. Experiments were done once. Treatment groups: *P < 0.05 for group ICI-Only versus Control in post hoc test adjusted for multiple comparisons. P<0.05 for group ICI-Only versus ICI-Block in post hoc test adjusted for multiple comparisons. P < 0.05 for group ICI-Cyt versus Control in post hoc test adjusted for multiple comparisons. §P < 0.05 for group ICI-Cyt versus ICI-Block in post hoc test adjusted for multiple comparisons. Nephritis groups: #P < 0.05 for group Nephritis versus Control in post hoc test adjusted for multiple comparisons. ФP < 0.05 for group Nephritis versus ICI-Block in post hoc test adjusted for multiple comparisons.