Transcriptional Programming of Normal and Inflamed Human Epidermis at Single-Cell Resolution

Cheng, Jeffrey B.; Sedgewick, Andrew J.; Finnegan, Alex I; Harirchian, Paymann; Lee, Jerry; Kwon, Sunjong; Fassett, Marlys S.; Golovato, Justin; Gray, Matthew A.; Ghadially, Ruby; Liao, Wilson; White, Bethany E. Perez; Mauro, Theodora M.; Mully, Thaddeus W.; Kim, Esther A.; Sbitany, Hani; Neuhaus, Isaac M.; Grekin, Roy C.; Yu, Siegrid S.; Gray, Joe W.; Purdom, Elizabeth; Paus, Ralf; Vaske, Charles J.; Benz, Stephen C.; Song, Jun S.; Cho, Raymond J.

doi:10.1016/j.celrep.2018.09.006

Cited by 234 publications

(332 citation statements)

References 46 publications

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“…) . Consistent with our results, SPRR2D and SPRR2A have also been reported to be upregulated in the spinous and granular layers of psoriatic skin, which was analyzed at a single‐cell resolution . Regarding the downregulation of FLG, Gutowska‐Owsiak et al.…”

Section: Discussionsupporting

confidence: 90%

Interleukin‐17A suppresses granular layer formation in a 3‐D human epidermis model through regulation of terminal differentiation genes

Sato

Fujita

Imafuku

2020

The Journal of Dermatology

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Immunotherapies targeting interleukin (IL)‐17 greatly improve plaque psoriasis. Most previous studies on IL‐17 focused on the T‐helper (Th)17 immune response, but investigation of the effects of IL‐17A on psoriatic epidermal structure are limited. Using an in vitro 3‐D human epidermis model, we investigated the effects of IL‐17A and IL‐17C on morphological changes and gene expression. IL‐17A directly suppressed the formation of the granular layer, whereas IL‐17C did not. IL‐17A significantly downregulated the gene expression of profilaggrin (FLG), which is a major component of keratohyalin granules in the granular layer. Global gene expression analysis of this 3‐D epidermis model showed that both IL‐17A and IL‐17C upregulated S100A7A and type 1 interferon‐related genes including MX1, IFI44L, XAF1 and IFIT1. However, only IL‐17A directly downregulated keratinocyte differentiation‐related and cornified envelope‐related genes including FLG, LOR, C1ORF68, LCE1E, LCE1B, KRT10, CST6 and RPTN. In conclusion, IL‐17A, a systemic inflammatory cytokine, affected keratinization in our 3‐D epidermis model. In contrast, IL‐17C, a locally produced cytokine, did not have strong effects on keratinization. Targeting IL‐17A does not only reduce inflammation but it may also directly affect epidermal differentiation in psoriasis.

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Section: Discussionsupporting

confidence: 90%

Interleukin‐17A suppresses granular layer formation in a 3‐D human epidermis model through regulation of terminal differentiation genes

Sato

Fujita

Imafuku

2020

The Journal of Dermatology

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“…Thus, the pars flaccida exhibits both differentiation and stratification, whereas the pars tensa exhibits minimal stratification, but preserves aspects of predominantly early differentiation. Overall, the gene expression profiles obtained among the keratinocytes were similar to those previously observed in other interfollicular epidermal sites (Cheng et al 2018;Joost et al 2016;Joost et al 2018;Aragona et al 2017).…”

Section: Identifying Cell Populations In the Murine Tmsupporting

confidence: 83%

A hierarchy of migratory keratinocytes maintains the tympanic membrane

Frumm¹,

Yu²,

Chang³

et al. 2019

Preprint

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Although the conductive function of the tympanic membrane (TM) is critical for hearing, it is unknown how the organ maintains cellular homeostasis. Using a combination of single-cell RNA sequencing, lineage tracing, whole-organ explant, and live-cell imaging, we demonstrate that the stem cells of the TM epidermis reside in a distinct location at the superior portion of the TM and, as progeny migrate inferiorly, Pdgfra+ fibroblasts maintain a niche supporting proliferation of committed progenitors, while keratinocytes distal from the niche differentiate. Thus, the TM has a three dimensional differentiation hierarchy of keratinocytes distinct from that at other epidermal sites. The TM represents a physiological context where, in the absence of injury, keratinocytes both transit through a proliferative committed progenitor state and exhibit directional lateral migration.This work forms a foundation for understanding common disorders of the TM and introduces a new model system for the understanding of keratinocyte biology. 1N).The same approaches were utilized to define and locate the cell populations in the fibrous/mucosal fraction, where 12 clusters were discovered. Among these are multiple Vimentin+ (Vim) mesenchymal populations, including: endothelium (Pecam1+), smooth muscle (Acta2+), and Schwann cells (Mbp+) (Figure S3). Four additional clusters of mesenchymal cells were identified, numbered 0, 2, 3, and 5. Inspection of the differentially expressed genes revealed that cluster 0 is Gpx3+, and clusters 2, 3, and 5 are Igfbp3+ (Figure S4A-B). ISH confirmed that Gpx3 and Igfbp3 do indeed mark distinct populations of fibroblasts (Figure S4C). The Gpx3+ cells appear to reside in proximity to bony elements-specifically, in the annular region and near the malleus. The Igfbp3+ cells are more diffusely spread throughout the fibrous layer of the TM.Lastly, Sox2 is a known marker of mucosa, and is expressed in both non-ciliated (clusters 4 and 11)

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“…Our probabilistic modeling of ADT sequencing addresses this gap and also provides an appealing data representation based on the posterior mean E[λ], which can be used for down- Unlike the original approach [1], some CITE-seq data may lack a spike-in control from another species. In those cases, we recommend first finding a set of non-immune cells (e.g., erythrocytes in the blood, and keratinocytes in the skin [16,17]) that are transcriptomically distinct from the rest of the cells, and then using the set to build the null model for immunophenotype profiling. If this strategy is not feasible, then an unsupervised method could be developed to distinguish signal from noise by fitting bimodal or multimodal distributions.…”

Section: Discussionmentioning

confidence: 99%

Riemannian geometry and statistical modeling correct for batch effects and control false discoveries in single-cell surface protein count data from CITE-seq

Zhang

Leistico

Cook

et al. 2020

Preprint

Self Cite

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Recent advances in next generation sequencing-based single-cell technologies have allowed highthroughput quantitative detection of cell-surface proteins along with the transcriptome in individual cells, extending our understanding of the heterogeneity of cell populations in diverse tissues that are in different diseased states or under different experimental conditions. Count data of surface proteins from the cellular indexing of transcriptomes and epitopes by sequencing (CITE-seq) technology pose new computational challenges, and there is currently a dearth of rigorous mathematical tools for analyzing the data. This work utilizes concepts and ideas from Riemannian geometry to remove batch effects between samples and develops a statistical framework for distinguishing positive signals from background noise. The strengths of these approaches are demonstrated on two independent CITE-seq data sets in mouse and human. Python source code implementing the algorithms is available at https://github.com/jssong-lab/SAGACITE.

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Transcriptional Programming of Normal and Inflamed Human Epidermis at Single-Cell Resolution

Cited by 234 publications

References 46 publications

Interleukin‐17A suppresses granular layer formation in a 3‐D human epidermis model through regulation of terminal differentiation genes

Interleukin‐17A suppresses granular layer formation in a 3‐D human epidermis model through regulation of terminal differentiation genes

A hierarchy of migratory keratinocytes maintains the tympanic membrane

Riemannian geometry and statistical modeling correct for batch effects and control false discoveries in single-cell surface protein count data from CITE-seq

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