NaCl and urea modulate CD8+ T cell survival, renal accumulation, and response to BK virus
Peyman Falahat, … , Marieta Toma, Sibylle von Vietinghoff
Peyman Falahat, … , Marieta Toma, Sibylle von Vietinghoff
Published August 26, 2025
Citation Information: JCI Insight. 2025;10(19):e194570. https://doi.org/10.1172/jci.insight.194570.
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Research Article Immunology Nephrology

NaCl and urea modulate CD8+ T cell survival, renal accumulation, and response to BK virus

Abstract

BK virus nephropathy is a severe, graft-threatening complication of kidney transplantation that requires an effective T cell response. It typically emerges in the kidney medulla. Elevated osmolyte concentrations that dynamically respond to loop diuretic therapy characterize this environment. Here, BK viremia development in kidney graft recipients negatively correlated with loop diuretic therapy. The association remained significant in multivariable and propensity score–matched analyses. Kidney function was better preserved and CD8+ T cell abundance higher in loop diuretic–exposed allografts. CD8+ T cell densities in healthy human and murine kidney medulla were lower than in cortex and increased upon loop diuretic therapy in mice. As a potential underlying mechanism, kidney medullary NaCl and urea concentrations decreased primary human CD8+ T cell numbers in vitro by induction of cell death and limitation of proliferation, respectively. Both osmolytes downregulated interferon-related gene expression. NaCl induced p53-dependent apoptosis and upregulated Na+-transporter SLC38A2, which promoted caspase-3 activation. Both decreased T cell response and cytokine secretion in response to viral peptide and allogeneic tubular epithelial cell killing, components of anti-BK virus response in the kidney allograft. Our results propose osmolyte-mediated mitigation of CD8+ T cell function as a what we believe to be novel mechanism that impairs immune response to BK virus, the therapeutic potential of which is testable.

Authors

Peyman Falahat, Adrian Goldspink, Lucia Oehler, Jessica Schmitz, Julia Miranda, Islem Gammoudi, Jan Hinrich Bräsen, Niklas Klümper, Olena Babyak, Christian Kurts, Herrmann Haller, Marieta Toma, Sibylle von Vietinghoff

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Figure 5

Regulation of surface protein expression and response of NaCl-induced cell death to p53 and SNAT2 pharmacologic inhibition.

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Regulation of surface protein expression and response of NaCl-induced ce...
(AF) Regulation of CD27 (A and B), ITGb7 (C and D), and ICAM1 (E and F) mRNA assessed by RNA sequencing (A, C, and E, experimental setup in Figure 3, n = 4 donors, Dunnett’s after ANOVA) and surface expression on live CD8+CD3+CD11b T cells after overnight incubation with additional NaCl (80 mM) or urea (160 mM) (B, D, and F, n = 8 from 4 donors in 2 experiments, Dunnett’s after ANOVA). (G and H) Apoptosis markers annexin V binding (G) and caspase-3 (H) were assessed by flow cytometry after 20 hours culture with and without additional 80 mM NaCl or equimolar urea (160 mM) in the presence of p53 inhibitor pifithrin (30 μM) or DMSO solvent control (n = 8 from 4 donors in 2 independent experiments, Šídák’s after ANOVA). (I) Apoptosis marker caspase-3 was assessed by flow cytometry after 6 hours’ culture with and without additional 80 mM NaCl or equimolar urea (160 mM) in the presence of SNAT2 (gene name SLC38A2) blocker HgCl2 (10 μM, n = 6 from 3 donors in 2 independent experiments, Šídák’s after ANOVA). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001. Pif, pifithrin.