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Deucravacitinib modulates up to 2529 genes and SLE-relevant gene sets including interferon-regulated genesTrial Shows Deucravacitinib Modulates Gene Activity in Lupus Patients

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Key Takeaway
Note that deucravacitinib modulated 2529 genes and interferon-regulated sets in SLE patients via post hoc analysis.

This post hoc analysis of a Phase 2 trial evaluated the effects of deucravacitinib on the transcriptomic profile of 363 patients with systemic lupus erythematosus (SLE) and 56 healthy volunteers over a 32-week period.

Analysis revealed that 527 differentially expressed genes were identified at baseline between SLE patients and healthy volunteers. Following treatment, deucravacitinib was shown to modulate up to 2529 genes and SLE-relevant gene sets, specifically including interferon-regulated genes. Additionally, plasma cell gene sets decreased, while myeloid cell gene sets reverted toward normal levels.

Cellular heterogeneity analysis showed significant enrichment of dendritic cell populations and dose-dependent increases in naïve and memory B lymphocytes with deucravacitinib. Regulatory T-cell gene sets were found to increase at baseline and further increase following treatment.

Safety data, including adverse events and tolerability, were not reported in this analysis. A primary limitation is that these findings are derived from a post hoc analysis of RNA-seq data rather than primary clinical endpoints. The results suggest deucravacitinib targets key pathophysiologic immune mechanisms in SLE, supporting further evaluation in phase 3 trials.

How this fits prior evidence

How this fits prior evidence: This study addresses a gap in understanding the underlying molecular mechanisms of treatment in systemic lupus erythematosus (SLE). While previous findings established that corticosteroid and cyclophosphamide exposure are associated with higher mortality in SLE patients, this study provides transcriptomic evidence on how deucravacitinib modulates immune pathways. It offers a different perspective on disease management compared to the known risks of standard treatments like corticosteroids.

Researchers conducted a post-hoc analysis of a Phase 2 clinical trial to see how the medication deucravacitinib affects gene expression in patients with systemic lupus erythematosus (SLE). The study included 363 patients with SLE and 56 healthy volunteers over a period of 32 weeks.

The results showed that deucravacitinib modulated up to 2,529 genes. Specifically, the drug was linked to changes in interferon-regulated genes and helped myeloid cell gene sets move toward normal levels. It also showed an increase in certain regulatory T-cell gene sets and a significant enrichment of dendritic cell populations.

Because these findings come from a post-hoc analysis of transcriptomic data rather than primary clinical endpoints, the results are not yet definitive for daily practice. The study is early and intended to support further evaluation in Phase 3 trials. Patients should view these findings as part of an ongoing research process rather than a confirmed treatment change.

What this means for you:
Deucravacitinib showed links to specific gene and immune cell changes in lupus, but more large-scale testing is needed.

Common questions

What did the study find about deucravacitinib?

The analysis showed that deucravacitinib modulated up to 2,529 genes in patients with systemic lupus erythematosus. It was specifically linked to changes in interferon-regulated gene sets and helped myeloid cell gene sets move toward normal levels during the 32-week study period.

How did the drug affect immune cells?

The trial reported a significant enrichment of dendritic cell populations and an increase in regulatory T-cell gene sets. It also showed dose-dependent increases in certain types of B lymphocytes, including both naive and memory B lymphocytes.

Is this treatment ready for everyone with lupus?

Not yet. These results come from a post-hoc analysis of a Phase 2 trial, which is an early stage of research. The findings are intended to support future Phase 3 trials and do not represent primary clinical endpoints for immediate use.

Study Details

Study typeRct
Sample sizen = 363
EvidenceLevel 2
PublishedJul 2026
View Original Abstract ↓
OBJECTIVES: To further understand the mechanism of action of deucravacitinib, an oral, selective tyrosine kinase 2 inhibitor, in patients with systemic lupus erythematosus (SLE) in the phase 2 PAISLEY SLE trial. METHODS: RNA sequencing (RNA-seq) was performed on samples collected from baseline to week 32 in 363 patients and 56 healthy volunteers. Pharmacodynamics of differentially expressed genes (DEGs) were analysed with linear mixed-effects models using the statistical software package DREAM (differential expression for repeated measures). Single-sample gene set enrichment analysis (ssGSEA) was performed using MSigDB Hallmark and BloodGen3 gene modules. The xCell R package was used to digitally portray the blood cellular heterogeneity landscape. RESULTS: At baseline, 527 DEGs were identified in patients with SLE vs healthy volunteers (log fold change >1; adjusted P < .05). Deucravacitinib modulated up to 2529 genes and SLE-relevant gene sets, including interferon-regulated genes. ssGSEA showed that plasma cell gene sets decreased and myeloid cell gene sets reverted towards normal levels with deucravacitinib; xCell deconvolution revealed significant enrichment of dendritic cell populations with deucravacitinib vs placebo. At baseline, regulatory T-cell gene sets were increased in patients with SLE vs healthy volunteers and further increased with deucravacitinib. There were some variable, dose-dependent increases in naïve and memory B lymphocytes. CONCLUSIONS: Whole blood transcriptome profiling via RNA-seq revealed both expected and novel gene expression changes with deucravacitinib across multiple pathogenic pathways. These data demonstrate successful targeting of pathophysiologic immune mechanisms that should be validated in future studies and support continued evaluation of deucravacitinib in the phase 3 POETYK SLE trials.
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