Clinically resolved psoriatic lesions contain psoriasis-specific IL-17–producing αβ T cell clones
Tiago R. Matos, John T. O’Malley, Elizabeth L. Lowry, David Hamm, Ilan R. Kirsch, Harlan S. Robins, Thomas S. Kupper, James G. Krueger, Rachael A. Clark
Tiago R. Matos, John T. O’Malley, Elizabeth L. Lowry, David Hamm, Ilan R. Kirsch, Harlan S. Robins, Thomas S. Kupper, James G. Krueger, Rachael A. Clark
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Research Article Dermatology

Clinically resolved psoriatic lesions contain psoriasis-specific IL-17–producing αβ T cell clones

Abstract

In psoriasis, an IL-17–mediated inflammatory skin disease, skin lesions resolve with therapy, but often recur in the same locations when therapy is discontinued. We propose that residual T cell populations in resolved psoriatic lesions represent the pathogenic T cells of origin in this disease. Utilizing high-throughput screening (HTS) of the T cell receptor (TCR) and immunostaining, we found that clinically resolved psoriatic lesions contained oligoclonal populations of T cells that produced IL-17A in both resolved and active psoriatic lesions. Putative pathogenic clones preferentially utilized particular Vβ and Vα subfamilies. We identified 15 TCRβ and 4 TCRα antigen receptor sequences shared between psoriasis patients and not observed in healthy controls or other inflammatory skin conditions. To address the relative roles of αβ versus γδ T cells in psoriasis, we carried out TCR/δ HTS. These studies demonstrated that the majority of T cells in psoriasis and healthy skin are αβ T cells. γδ T cells made up 1% of T cells in active psoriasis, less than 1% in resolved psoriatic lesions, and less than 2% in healthy skin. All of the 70 most frequent putative pathogenic T cell clones were αβ T cells. In summary, IL-17–producing αβ T cell clones with psoriasis-specific antigen receptors exist in clinically resolved psoriatic skin lesions. These cells likely represent the disease-initiating pathogenic T cells in psoriasis, suggesting that lasting control of this disease will require suppression of these resident T cell populations.

Authors

Tiago R. Matos, John T. O’Malley, Elizabeth L. Lowry, David Hamm, Ilan R. Kirsch, Harlan S. Robins, Thomas S. Kupper, James G. Krueger, Rachael A. Clark

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Figure 5

Putative pathogenic T cell clones utilized a skewed TCR Vβ repertoire and had unique TCRs not shared with healthy controls.

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Putative pathogenic T cell clones utilized a skewed TCR Vβ repertoire an...
(A) The TCR Vβ gene usage of putative pathogenic T cell clones from 14 psoriasis patients was compared with that in a pool of 6,918 T cell CDR3 sequences from the skin of 6 healthy controls. Use of TCR Vβ2, V6, and Vβ13 was significantly more frequent among putative pathogenic T cell clones (χ2 test). (BD) T cells from different psoriatic patients had identical TCRβ CDR3 amino acid sequences that were not observed in healthy controls. (B) In 8 psoriasis patients, T cells with identical CDR3 nucleotide sequences giving rise to identical amino acid sequences were found in 2 different patients; these sequences were not observed in healthy controls. The sequences of all shared receptors are also shown in Table 1. (C) In 11 cases, different CDR3 nucleotide sequences in 2 different patients converged to produce the same amino acid sequence; these sequences were not observed in healthy controls. (D) Within individual psoriasis patients, multiple distinct nucleotide sequences were found in 7 patients who produced the same amino acid sequence; these sequences were also not observed in healthy controls.