James G Krueger1, Keith A Wharton2, Thomas Schlitt3, Maria Suprun4, Rebecca I Torene2, Xiaoyu Jiang2, Claire Q Wang5, Judilyn Fuentes-Duculan5, Nicole Hartmann3, Thomas Peters3, Irina Koroleva2, Rainer Hillenbrand3, Martin Letzkus3, Xiaojing Yu6, Yue Li7, Anton Glueck3, Anke Hasselberg7, Brian Flannery8, Mayte Suárez-Fariñas9, Wolfgang Hueber3. 1. Laboratory of Investigative Dermatology, Rockefeller University, New York, NY. Electronic address: jgk@rockefeller.edu. 2. Novartis Institutes for Biomedical Research, Cambridge, Mass. 3. Novartis Institutes for Biomedical Research, Basel, Switzerland. 4. Department of Population Health Science and Policy, Department of Genetics and Genomics Science, Icahn School of Medicine at Mount Sinai, New York, NY. 5. Laboratory of Investigative Dermatology, Rockefeller University, New York, NY. 6. Novartis Institutes for Biomedical Research, Shanghai, China. 7. Novartis Pharmaceuticals AG, Basel, Switzerland. 8. Novartis Institutes for Biomedical Research, East Hanover, NJ. 9. Laboratory of Investigative Dermatology, Rockefeller University, New York, NY; Department of Population Health Science and Policy, Department of Genetics and Genomics Science, Icahn School of Medicine at Mount Sinai, New York, NY.
Abstract
BACKGROUND: Hyperactivity of the IL-23/IL-17 axis is central to plaque psoriasis pathogenesis. Secukinumab, a fully human mAb that selectively inhibits IL-17A, is approved for treatment of psoriasis, psoriatic arthritis, and ankylosing spondylitis. Secukinumab improves the complete spectrum of psoriasis manifestations, with durable clinical responses beyond 5 years of treatment. In the feed-forward model of plaque chronicity, IL-17A has been hypothesized as the key driver of pathogenic gene expression by lesional keratinocytes, but in vivo evidence in human subjects is lacking. METHODS: We performed a randomized, double-blind, placebo-controlled study (NCT01537432) of patients receiving secukinumab at the clinically approved dose up to 12 weeks. We then correlated plaque and nonlesional skin transcriptomic profiles with histopathologic and clinical measures of efficacy. RESULTS: After 12 weeks of treatment, secukinumab reversed plaque histopathology in the majority of patients and modulated thousands of transcripts. Suppression of the IL-23/IL-17 axis by secukinumab was evident at week 1 and continued through week 12, including reductions in levels of the upstream cytokine IL-23, the drug target IL-17A, and downstream targets, including β-defensin 2. Suppression of the IL-23/IL-17 axis by secukinumab at week 4 was associated with clinical and histologic responses at week 12. Secukinumab did not affect ex vivo T-cell activation, which is consistent with its favorable long-term safety profile. CONCLUSION: Our data suggest that IL-17A is the critical node within the multidimensional pathogenic immune circuits that maintain psoriasis plaques and that early reduction of IL-17A-dependent feed-forward transcripts synthesized by hyperplastic keratinocytes favors plaque resolution.
RCT Entities:
BACKGROUND: Hyperactivity of the IL-23/IL-17 axis is central to plaque psoriasis pathogenesis. Secukinumab, a fully human mAb that selectively inhibits IL-17A, is approved for treatment of psoriasis, psoriatic arthritis, and ankylosing spondylitis. Secukinumab improves the complete spectrum of psoriasis manifestations, with durable clinical responses beyond 5 years of treatment. In the feed-forward model of plaque chronicity, IL-17A has been hypothesized as the key driver of pathogenic gene expression by lesional keratinocytes, but in vivo evidence in human subjects is lacking. METHODS: We performed a randomized, double-blind, placebo-controlled study (NCT01537432) of patients receiving secukinumab at the clinically approved dose up to 12 weeks. We then correlated plaque and nonlesional skin transcriptomic profiles with histopathologic and clinical measures of efficacy. RESULTS: After 12 weeks of treatment, secukinumab reversed plaque histopathology in the majority of patients and modulated thousands of transcripts. Suppression of the IL-23/IL-17 axis by secukinumab was evident at week 1 and continued through week 12, including reductions in levels of the upstream cytokine IL-23, the drug target IL-17A, and downstream targets, including β-defensin 2. Suppression of the IL-23/IL-17 axis by secukinumab at week 4 was associated with clinical and histologic responses at week 12. Secukinumab did not affect ex vivo T-cell activation, which is consistent with its favorable long-term safety profile. CONCLUSION: Our data suggest that IL-17A is the critical node within the multidimensional pathogenic immune circuits that maintain psoriasis plaques and that early reduction of IL-17A-dependent feed-forward transcripts synthesized by hyperplastic keratinocytes favors plaque resolution.
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