Inhibiting the NADase CD38 improves cytomegalovirus-specific CD8+ T cell functionality and metabolism
Nils Mülling, … , Benjamin Wilde, Ramon Arens
Nils Mülling, … , Benjamin Wilde, Ramon Arens
Published July 2, 2024
Citation Information: J Clin Invest. 2024;134(17):e179561. https://doi.org/10.1172/JCI179561.
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Inhibiting the NADase CD38 improves cytomegalovirus-specific CD8+ T cell functionality and metabolism

Abstract

Cytomegalovirus (CMV) is one of the most common and relevant opportunistic pathogens in people who are immunocompromised, such as kidney transplant recipients (KTRs). The exact mechanisms underlying the disability of cytotoxic T cells to provide sufficient protection against CMV in people who are immunosuppressed have not been identified yet. Here, we performed in-depth metabolic profiling of CMV-specific CD8+ T cells in patients who are immunocompromised and show the development of metabolic dysregulation at the transcriptional, protein, and functional level of CMV-specific CD8+ T cells in KTRs with noncontrolled CMV infection. These dysregulations comprise impaired glycolysis and increased mitochondrial stress, which is associated with an intensified expression of the nicotinamide adenine dinucleotide nucleotidase (NADase) CD38. Inhibiting NADase activity of CD38 reinvigorated the metabolism and improved cytokine production of CMV-specific CD8+ T cells. These findings were corroborated in a mouse model of CMV infection under conditions of immunosuppression. Thus, dysregulated metabolic states of CD8+ T cells could be targeted by inhibiting CD38 to reverse hyporesponsiveness in individuals who fail to control chronic viral infection.

Authors

Nils Mülling, Felix M. Behr, Graham A. Heieis, Kristina Boss, Suzanne van Duikeren, Floortje J. van Haften, Iris N. Pardieck, Esmé T.I. van der Gracht, Ward Vleeshouwers, Tetje C. van der Sluis, J. Fréderique de Graaf, Dominique M.B. Veerkamp, Kees L.M.C. Franken, Xin Lei, Lukas van de Sand, Sjoerd H. van der Burg, Marij J.P. Welters, Sebastiaan Heidt, Wesley Huisman, Simon P. Jochems, Martin Giera, Oliver Witzke, Aiko P.J. de Vries, Andreas Kribben, Bart Everts, Benjamin Wilde, Ramon Arens

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Figure 6

Elevated expression of CD38 on CMV-specific CD8+ T cells during viral persistence gradually rewires cellular metabolism.

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Elevated expression of CD38 on CMV-specific CD8+ T cells during viral pe...
An independent cohort of 16 patients was longitudinally analyzed after kidney transplantation. Blood samples for analysis of pp65495–503–specific CD8+ T cells were taken at 6 weeks (sampling 1), 3 months (sampling 2), 6 months (sampling 3), and 12 months (sampling 4) after transplantation. CMV replication in blood was continuously assessed for 18 months. (A) Representative graph shows the CMV load in blood (left, y axis) and the expression of CD38 (right, y axis) over time. (B and C) Longitudinal expression of GLUT1 and CD38 (B) and TMRM and MTDR levels (C) of pp65495–503–specific CD8+ T cells from controllers (blue, n = 6) and noncontrollers (red, n = 10). (DG) Expression of the transcription factors T-BET, EOMES, BLIMP-1, and IRF-4 (D), CD38 (E), GLUT1 and PKM (F), ATP5a, MitoSOX, MTDR, and TMRM (G), and CPT1a (H) of pp65495–503–specific CD8+ T cells from controllers and noncontrollers (subdivided according to onset of viral replication detection: early, long lasting, and after). (IL) High-dimensional phenotypical analysis pp65495–503–specific CD8+ T cells from controllers and noncontrollers (early, long lasting, and after viral replication). (I) UMAP plots showing the density of metabolic protein and CD38 expression. (J) Stacked bar graph of 9 FlowSOM clusters per group. (K) FlowSOM consensus meta-clustering with 9 clusters. (L) Hierarchically clustered heatmap of the metabolic phenotypes of the clusters shown in J and K. Marker expression is shown per cluster as z score of median signal intensity per channel. Data are presented as mean ± SEM. Each symbol in DH represents an individual. Statistical analysis by 1-way ANOVA with Tukey’s test for multiple comparisons. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.