JID Innovations (May 2022)

Transcriptomic Profiling of Plaque Psoriasis and Cutaneous T-Cell Subsets during Treatment with Secukinumab

  • Jared Liu,
  • Hsin-Wen Chang,
  • Robby Grewal,
  • Daniel D. Cummins,
  • Audrey Bui,
  • Kristen M. Beck,
  • Sahil Sekhon,
  • Di Yan,
  • Zhi-Ming Huang,
  • Timothy H. Schmidt,
  • Eric J. Yang,
  • Isabelle M. Sanchez,
  • Mio Nakamura,
  • Shrishti Bhattarai,
  • Quinn Thibodeaux,
  • Richard Ahn,
  • Mariela Pauli,
  • Tina Bhutani,
  • Michael D. Rosenblum,
  • Wilson Liao

Journal volume & issue
Vol. 2, no. 3
p. 100094

Abstract

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The IL-17A inhibitor secukinumab is efficacious for the treatment of psoriasis. To better understand its mechanism of action, we investigated its impact on psoriatic lesions from 15 patients with moderate-to-severe plaque psoriasis undergoing secukinumab treatment. We characterized the longitudinal transcriptomic changes of whole lesional skin tissue as well as cutaneous CD4+ and CD8+ T effector cells and CD4+ T regulatory cells across 12 weeks of treatment. Secukinumab was clinically effective and reduced disease-associated overexpression of IL17A, IL17F, IL23A, IL23R, and IFNG in whole tissue as soon as 2 weeks after initiation of treatment. IL17A overexpression in T-cell subsets, primarily CD8+ T cells, was also reduced. Although secukinumab treatment resolved 89‒97% of psoriasis-associated expression differences in bulk tissue and T-cell subsets by week 12 of treatment, we observed expression differences involved in IFN signaling and metallothionein synthesis that remained unresolved at this time point as well as potential treatment-associated expression differences involved in IL-15 signaling. These changes were accompanied by shifts in broader immune cell composition on the basis of deconvolution of RNA-sequencing data. In conclusion, our study reveals several phenotypic and cellular changes within the lesion that underlie clinical improvement from secukinumab.