Immunopathogenesis of hidradenitis suppurativa and response to anti–TNF-α therapy
Margaret M. Lowe, Haley B. Naik, Sean Clancy, Mariela Pauli, Kathleen M. Smith, Yingtao Bi, Robert Dunstan, Johann E. Gudjonsson, Maia Paul, Hobart Harris, Esther Kim, Uk Sok Shin, Richard Ahn, Wilson Liao, Scott L. Hansen, Michael D. Rosenblum
Margaret M. Lowe, Haley B. Naik, Sean Clancy, Mariela Pauli, Kathleen M. Smith, Yingtao Bi, Robert Dunstan, Johann E. Gudjonsson, Maia Paul, Hobart Harris, Esther Kim, Uk Sok Shin, Richard Ahn, Wilson Liao, Scott L. Hansen, Michael D. Rosenblum
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Research Article Dermatology Immunology

Immunopathogenesis of hidradenitis suppurativa and response to anti–TNF-α therapy

Abstract

Hidradenitis suppurativa (HS) is a highly prevalent, morbid inflammatory skin disease with limited treatment options. The major cell types and inflammatory pathways in skin of patients with HS are poorly understood, and which patients will respond to TNF-α blockade is currently unknown. We discovered that clinically and histologically healthy appearing skin (i.e., nonlesional skin) is dysfunctional in patients with HS with a relative loss of immune regulatory pathways. HS skin lesions were characterized by quantitative and qualitative dysfunction of type 2 conventional dendritic cells, relatively reduced regulatory T cells, an influx of memory B cells, and a plasma cell/plasmablast infiltrate predominantly in end-stage fibrotic skin. At the molecular level, there was a relative bias toward the IL-1 pathway and type 1 T cell responses when compared with both healthy skin and psoriatic patient skin. Anti–TNF-α therapy markedly attenuated B cell activation with minimal effect on other inflammatory pathways. Finally, we identified an immune activation signature in skin before anti–TNF-α treatment that correlated with subsequent lack of response to this modality. Our results reveal the fundamental immunopathogenesis of HS and provide a molecular foundation for future studies focused on stratifying patients based on likelihood of clinical response to TNF-α blockade.

Authors

Margaret M. Lowe, Haley B. Naik, Sean Clancy, Mariela Pauli, Kathleen M. Smith, Yingtao Bi, Robert Dunstan, Johann E. Gudjonsson, Maia Paul, Hobart Harris, Esther Kim, Uk Sok Shin, Richard Ahn, Wilson Liao, Scott L. Hansen, Michael D. Rosenblum

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Figure 2

Nonlesional skin in HS has defects in immune regulatory pathways.

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Nonlesional skin in HS has defects in immune regulatory pathways. (A) Re...
(A) Representative H&E staining of lesional skin, nonlesional skin, and site-matched healthy control skin. (B) GSVA enrichment scores of the significantly different (adjusted P < 0.05, absolute log fold change > 0.3, empirical Bayes test with Benjamini-Hochberg correction) Gene Ontology immune-related pathways in whole-tissue RNA-Seq data of healthy control skin (n = 16) compared with pretreatment nonlesional HS skin (n = 13). Each column depicts an individual patient. (C) xCell Scores indicating predicted enrichment of different cell populations in whole-tissue RNA-Seq data in nonlesional HS (NL) and healthy (H) skin. Each dot represents an individual patient (Mann-Whitney U test) (D) Normalized counts for selected transcripts in whole-tissue RNA-Seq comparing healthy control skin with pretreatment nonlesional HS skin (adjusted P, Wald’s test). (E) GSVA enrichment scores of the union of Gene Ontology pathways significantly increased (adjusted P < 0.05, empirical Bayes test with Benjamini-Hochberg correction) in pretreatment lesional HS skin (n = 19) versus pretreatment nonlesional HS skin and pretreatment nonlesional HS skin versus healthy control skin. Each column depicts an individual patient.