Citations to this article
Citation Information: JCI Insight. 2020;5(13):e137424. https://doi.org/10.1172/jci.insight.137424.
Abstract
Alopecia areata (AA) is a common autoimmune condition, presenting initially with loss of hair without other overt skin changes. The unremarkable appearance of the skin surface contrasts with the complex immune activity occurring at the hair follicle. AA pathogenesis is due to the loss of immune privilege of the hair follicle, leading to autoimmune attack. Although the literature has focused on CD8+ T cells, vital roles for CD4+ T cells and antigen-presenting cells have been suggested. Here, we use single-cell sequencing to reveal distinct expression profiles of immune cells in murine AA. We found clonal expansions of both CD4+ and CD8+ T cells, with shared clonotypes across varied transcriptional states. The murine AA data were used to generate highly predictive models of human AA disease. Finally, single-cell sequencing of T cells in human AA recapitulated the clonotypic findings and the gene expression of the predictive models.
Authors
Nicholas Borcherding, Sydney B. Crotts, Luana S. Ortolan, Nicholas Henderson, Nicholas L. Bormann, Ali Jabbari
Citations to this article (14)
| Title and authors | Publication | Year |
|---|---|---|
|
Pathophysiology of Alopecia Areata in the Pediatric Patient
Fitzhugh MH, Hansen JG, Jabbari A, Berrebi KG |
Pediatric Dermatology | 2025 |
|
Dermal T cell immunity and key regulatory signaling pathways: Implications in immune-mediated alopecia and hair regeneration
Tao N, Sun Q, Ying Y, Wang Y, Gao J |
Genes & Diseases | 2025 |
|
Epidermal γδ T cells, CD8 T cells and macrophages are increased in number in alopecia areata and express BST2 as part of an interferon-driven antiviral gene signature
Coast J, Gonzalez A, Velasquez C, Kansky M, Valdovinos-Hagan Y, Macedo M, Solano A, Kasler A, Jameson JM |
bioRxiv | 2025 |
|
Humanized CXCL12 antibody delays onset and modulates immune response in alopecia areata mice: insights from single-cell RNA sequencing.
An S, Zheng M, Park IG, Park SG, Noh M, Sung JH |
Frontiers in immunology | 2024 |
|
A virtual memory CD8(+) T cell-originated subset causes alopecia areata through innate-like cytotoxicity.
Seok J, Cho SD, Lee J, Choi Y, Kim SY, Lee SM, Kim SH, Jeong S, Jeon M, Lee H, Kim AR, Choi B, Ha SJ, Jung I, Yoon KJ, Park JE, Kim JH, Kim BJ, Shin EC, Park SH |
Nature Immunology | 2023 |
|
Integrated single-cell chromatin and transcriptomic analyses of human scalp identify gene-regulatory programs and critical cell types for hair and skin diseases.
Ober-Reynolds B, Wang C, Ko JM, Rios EJ, Aasi SZ, Davis MM, Oro AE, Greenleaf WJ |
Nature Genetics | 2023 |
|
Functional interrogation of lymphocyte subsets in alopecia areata using single-cell RNA sequencing
Lee EY, Dai Z, Jaiswal A, Wang EH, Anandasabapathy N, Christiano AM |
Proceedings of the National Academy of Sciences | 2023 |
|
Distinct use of super-enhancer elements controls cell-type specific CD25 transcription and function
Spolski R, Li P, Chandra V, Shin B, Goel S, Sakamoto K, Liu C, Oh J, Ren M, Enomoto Y, West EE, Christensen SM, Wan EC, Ge M, Lin JX, Yan B, Kazemian M, Yu ZX, Nagao K, Vijayanand P, Rothenberg EV, Leonard WJ |
Science Immunology | 2023 |
|
Recent advances in the genetics of alopecia areata
Buket Basmanav F, Betz RC |
medizinische genetik | 2023 |
|
Immunopathology and Immunotherapy of Inflammatory Skin Diseases
A Song, S Lee, J Kim |
Immune Network | 2022 |
|
The current state of knowledge of the immune ecosystem in alopecia areata.
Connell SJ, Jabbari A |
Autoimmunity Reviews | 2022 |
|
Autoantigen Discovery in the Hair Loss Disorder, Alopecia Areata: Implication of Post-Translational Modifications
Jadeja SD, Tobin DJ |
Frontiers in immunology | 2022 |
|
Applications of Single-Cell Sequencing in Dermatology
D Zou, J Qi, W Wu, D Xu, Y Tu, T Liu, J Zhang, X Li, F Lu, L He |
Medical science monitor : international medical journal of experimental and clinical research | 2021 |
|
Characterization of the Genomic and Immunologic Diversity of Malignant Brain Tumors through Multisector Analysis.
Schaettler MO, Richters MM, Wang AZ, Skidmore ZL, Fisk B, Miller KE, Vickery TL, Kim AH, Chicoine MR, Osbun JW, Leuthardt EC, Dowling JL, Zipfel GJ, Dacey RG, Lu HC, Johanns TM, Griffith OL, Mardis ER, Griffith M, Dunn GP |
Cancer Discovery | 2021 |
