Your search keyword '"Ashley Hailer"' showing total 4 results

1. Defining Patient-Level Molecular Heterogeneity in Psoriasis Vulgaris Based on Single-Cell Transcriptomics

Author

Yale Liu, Hao Wang, Christopher Cook, Mark A. Taylor, Jeffrey P. North, Ashley Hailer, Yanhong Shou, Arsil Sadik, Esther Kim, Elizabeth Purdom, Jeffrey B. Cheng, and Raymond J. Cho

Subjects

single-cell RNA-sequencing, psoriasis vulgaris, heterogeneity, cytoskeleton, chromatin, Immunologic diseases. Allergy, RC581-607

Abstract

Identifying genetic variation underlying human diseases establishes targets for therapeutic development and helps tailor treatments to individual patients. Large-scale transcriptomic profiling has extended the study of such molecular heterogeneity between patients to somatic tissues. However, the lower resolution of bulk RNA profiling, especially in a complex, composite tissue such as the skin, has limited its success. Here we demonstrate approaches to interrogate patient-level molecular variance in a chronic skin inflammatory disease, psoriasis vulgaris, leveraging single-cell RNA-sequencing of CD45+ cells isolated from active lesions. Highly psoriasis-specific transcriptional abnormalities display greater than average inter-individual variance, nominating them as potential sources of clinical heterogeneity. We find that one of these chemokines, CXCL13, demonstrates significant correlation with severity of lesions within our patient series. Our analyses also establish that genes elevated in psoriatic skin-resident memory T cells are enriched for programs orchestrating chromatin and CDC42-dependent cytoskeleton remodeling, specific components of which are distinctly correlated with and against Th17 identity on a single-cell level. Collectively, these analyses describe systematic means to dissect cell type- and patient-level differences in cutaneous psoriasis using high-resolution transcriptional profiles of human inflammatory disease.

Published

2022

2. ISID1544 - Disruption of a pathologic, skin-resident T17 cell identity in clinically effective IL23 blockade of psoriasis

Author

Raymond Cho, Jeffrey Cheng, Jeffrey North, Elizabeth Purdom, Sijia Wang, Ashley Hailer, and David Wu

Published

2023

3. Transcriptomics aids differentiation of IL-23 overactivity in a patient with atypical skin and joint disease

Author

Marwa Hakimi, Jeffrey P North, Mark A Taylor, Ashley Hailer, Yale Liu, Esther Kim, Kerstin Morehead, Kanade Shinkai, Tina Bhutani, Jeffrey B Cheng, and Raymond J Cho

Subjects

General Medicine

Published

2023

4. A single-cell transcriptional gradient in human cutaneous memory T cells restricts Th17/Tc17 identity

Author

Christopher P. Cook, Mark Taylor, Yale Liu, Ralf Schmidt, Andrew Sedgewick, Esther Kim, Ashley Hailer, Jeffrey P. North, Paymann Harirchian, Hao Wang, Sakeen W. Kashem, Yanhong Shou, Timothy C. McCalmont, Stephen C. Benz, Jaehyuk Choi, Elizabeth Purdom, Alexander Marson, Silvia B.V. Ramos, Jeffrey B. Cheng, and Raymond J. Cho

Subjects

Inflammation, Memory T Cells, Humans, Th17 Cells, Inflammation Mediators, General Biochemistry, Genetics and Molecular Biology, Skin

Abstract

The homeostatic mechanisms that fail to restrain chronic tissue inflammation in diseases, such as psoriasis vulgaris, remain incompletely understood. We profiled transcriptomes and epitopes of single psoriatic and normal skin-resident T cells, revealing a gradated transcriptional program of coordinately regulated inflammation-suppressive genes. This program, which is sharply suppressed in lesional skin, strikingly restricts Th17/Tc17 cytokine and other inflammatory mediators on the single-cell level. CRISPR-based deactivation of two core components of this inflammation-suppressive program, ZFP36L2 and ZFP36, replicates the interleukin-17A (IL-17A), granulocyte macrophage-colony-stimulating factor (GM-CSF), and interferon gamma (IFNγ) elevation in psoriatic memory T cells deficient in these transcripts, functionally validating their influence. Combinatoric expression analysis indicates the suppression of specific inflammatory mediators by individual program members. Finally, we find that therapeutic IL-23 blockade reduces Th17/Tc17 cell frequency in lesional skin but fails to normalize this inflammatory-suppressive program, suggesting how treated lesions may be primed for recurrence after withdrawal of treatment.

Published

2022