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NAD+ augmentation by nicotinamide riboside engages SLIT2/ROBO1 signaling to attenuate Th17 inflammation in psoriasis
Kim Han, Rachael J. Klein, Thomas C. Recupero, Anna Chiara Russo, Rahul Sharma, Anand K. Gupta, Shahin Hassanzadeh, Rebecca D. Huffstutler, Pradeep K. Dagur, Bryan Fisk, Neelam R. Redekar, Michael N. Sack
Kim Han, Rachael J. Klein, Thomas C. Recupero, Anna Chiara Russo, Rahul Sharma, Anand K. Gupta, Shahin Hassanzadeh, Rebecca D. Huffstutler, Pradeep K. Dagur, Bryan Fisk, Neelam R. Redekar, Michael N. Sack
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Clinical Research and Public Health Dermatology Immunology

NAD+ augmentation by nicotinamide riboside engages SLIT2/ROBO1 signaling to attenuate Th17 inflammation in psoriasis

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Abstract

BACKGROUND Enhancing NAD+ levels with nicotinamide riboside (NR) confers antiinflammatory effects in human disease, although immunoregulatory mechanisms remain poorly characterized. We previously showed that ex vivo NR supplementation of primary CD4+ T cells from psoriatic individuals dampened immune responsiveness.METHODS To validate this in vivo, we performed a randomized, placebo-controlled NR supplementation study in individuals with mild-to-moderate psoriasis. Participants received oral NR (500 mg twice daily) or matching placebo for 4 weeks, with blood samples collected at baseline and after supplementation. NR reduced Th17 immune responsiveness.RESULTS Bulk CD4+ T cell RNA-seq identified induction of the SLIT-ROBO signaling pathway. NR supplementation increased circulating SLIT2 levels and enhanced SLIT2 production in dermal fibroblasts. Pharmacologic and genetic interrogation in CD4+ T cells and fibroblasts demonstrated that SLIT2, acting through the ROBO1 receptor, inhibited Rho GTPase signaling, thereby attenuating canonical Th17 polarization and fibroblast inflammatory activation.CONCLUSION These findings indicate that NAD+ augmentation exerts anti-inflammatory effects in psoriasis through SLIT2-ROBO1-mediated crosstalk between dermal fibroblasts and circulating CD4+ T cells, leading to suppression of Th17-driven inflammation.TRIAL REGISTRATION ClinicalTrials.gov NCT04271735 (registration date – 2020-08026), NCT01143454 (registration date - 2010-07-21), NCT01778569 (registration date – 2013-01-22), and NCT00001846 (registration date – 2001-01-11).FUNDING The NHLBI Division of Intramural Research (HL005102 – MNS).

Authors

Kim Han, Rachael J. Klein, Thomas C. Recupero, Anna Chiara Russo, Rahul Sharma, Anand K. Gupta, Shahin Hassanzadeh, Rebecca D. Huffstutler, Pradeep K. Dagur, Bryan Fisk, Neelam R. Redekar, Michael N. Sack

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Figure 2

NR induces SLIT–ROBO signaling in psoriatic CD4+ T cells.

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NR induces SLIT–ROBO signaling in psoriatic CD4+ T cells.
(A) Gene Set E...
(A) Gene Set Enrichment Analysis (GSEA) against C2 Reactome pathways from the Human Molecular Signatures Database (MSigDB). The y axis represents top 15 most significantly enriched pathways with highest NES scores. The x axis represents –log10 transformed adjusted P values and the dot color is scaled to the Normalized Enrichment Score (NES). (B) Heatmap of SLIT–ROBO pathway genes. (C) qRT-PCR of SLIT1, ROBO1, and FAU in activated CD4+ T cells (n = 10–12). Data were normalized to 18S rRNA. (D) Relative mRNA expression of SLIT1 and ROBO1 in healthy and psoriatic CD4+ T cells in the presence of ex vivo NR and 10% autologous serum (n = 11/group, ClinicalTrials.gov Identifiers: NCT01778569 and NCT01143454). (E) Relative mRNA expression of SLIT1 and ROBO1 in Th1, Th2, Th17, and Treg compared to Th0. (F and G) Circulating SLIT2 in NR (n = 15) versus placebo (n = 11), and psoriasis versus healthy controls (n = 11/group). Data represent mean ± SEM; each dot indicates an individual participant. Analysis of multiple groups was performed by 2-way ANOVA followed by Holm Šidák’s multiple comparisons test (D) and 1-way ANOVA followed by Dunnett (E) and Šidák’s multiple comparisons test (F). Statistical significance was determined using unpaired 2-tailed Student’s t tests (placebo versus NR; HV versus psoriasis). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.

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