Suprabasal cells retain progenitor cell identity programs in eosinophilic esophagitis–driven basal cell hyperplasia
Margarette H. Clevenger, Adam L. Karami, Dustin A. Carlson, Peter J. Kahrilas, Nirmala Gonsalves, John E. Pandolfino, Deborah R. Winter, Kelly A. Whelan, Marie-Pier Tétreault
Margarette H. Clevenger, Adam L. Karami, Dustin A. Carlson, Peter J. Kahrilas, Nirmala Gonsalves, John E. Pandolfino, Deborah R. Winter, Kelly A. Whelan, Marie-Pier Tétreault
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Research Article Gastroenterology Inflammation

Suprabasal cells retain progenitor cell identity programs in eosinophilic esophagitis–driven basal cell hyperplasia

Abstract

Eosinophilic esophagitis (EoE) is an esophageal immune-mediated disease characterized by eosinophilic inflammation and epithelial remodeling, including basal cell hyperplasia (BCH). Although BCH is known to correlate with disease severity and with persistent symptoms in patients in histological remission, the molecular processes driving BCH remain poorly defined. Here, we demonstrate that BCH is predominantly characterized by an expansion of nonproliferative suprabasal cells that are still committed to early differentiation. Furthermore, we discovered that suprabasal and superficial esophageal epithelial cells retain progenitor identity programs in EoE, evidenced by increased quiescent cell identity scoring and the enrichment of signaling pathways regulating stem cell pluripotency. Enrichment and trajectory analyses identified SOX2 and KLF5 as potential drivers of the increased quiescent identity and epithelial remodeling observed in EoE. Notably, these alterations were not observed in gastroesophageal reflux disease. These findings provide additional insights into the differentiation process in EoE and highlight the distinct characteristics of suprabasal and superficial esophageal epithelial cells in the disease.

Authors

Margarette H. Clevenger, Adam L. Karami, Dustin A. Carlson, Peter J. Kahrilas, Nirmala Gonsalves, John E. Pandolfino, Deborah R. Winter, Kelly A. Whelan, Marie-Pier Tétreault

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Figure 3

Identification and characterization of human EEC populations and their alterations in EoE.

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Identification and characterization of human EEC populations and their a...
(A and B) UMAP of the subclustering of epithelial populations, colored by cluster (A) or compartment (B). (C) Violin plots displaying the expression of established marker genes for each EEC compartment in HC. (D and E) Bar plot showing the proportion of EEC in each compartment (D) or cluster (E), represented as a fraction of all EEC for each disease condition. (F) Violin plot displaying MKI67 expression across epithelial clusters in HC and EoE. (G) Representative immunohistochemistry for KI-67 in the esophageal epithelium and quantification of KI-67+ cells from IHC in HC (n = 16) and EoE (n = 21). The dashed black line outlines the basal compartment (HC) or BCH (EoE), excluding papillae. Scale bar: 100 μm. (H) H&E staining of HC and EoE esophageal mucosal sections from patients (HC, n = 6; EoE, n = 6) in the scRNA-Seq cohort and box plot showing the height of the epithelium occupied by the basal zone, quantified as a function of total epithelial thickness. Scale bar: 100 μm. The dashed white line outlines the basal compartment (HC) or BCH (EoE). For bar plots, data are expressed as mean ± SEM and P values were determined using the Wilcoxon signed-ranked test. For D and E, Benjamini & Hochberg adjustment for multiple comparisons was employed. *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001, ****P ≤ 0.0001. B, Basal; Q, Quiescent; BD, Basal_Dividing; EB, Epibasal; SB, Suprabasal; SF, Superficial.