Assemblies of JAG1 and JAG2 determine tracheobronchial cell fate in mucosecretory lung disease
Susan D. Reynolds, … , Tendy Chiang, Estelle Cormet-Boyaka
Susan D. Reynolds, … , Tendy Chiang, Estelle Cormet-Boyaka
Published July 12, 2022
Citation Information: JCI Insight. 2022;7(15):e157380. https://doi.org/10.1172/jci.insight.157380.
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Research Article Cell biology Stem cells

Assemblies of JAG1 and JAG2 determine tracheobronchial cell fate in mucosecretory lung disease

Abstract

Mucosecretory lung disease compromises airway epithelial function and is characterized by goblet cell hyperplasia and ciliated cell hypoplasia. Goblet and ciliated cell types are derived from tracheobronchial stem/progenitor cells via a Notch-dependent mechanism. Although specific arrays of Notch receptors regulate cell fate determination, the function of the ligands Jagged1 (JAG1) and JAG2 is unclear. This study examined JAG1 and JAG2 function using human air-liquid-interface cultures that were treated with γ-secretase complex (GSC) inhibitors, neutralizing peptides/antibodies, or WNT/β-catenin pathway antagonists/agonists. These experiments revealed that JAG1 and JAG2 regulated cell fate determination in the tracheobronchial epithelium; however, their roles did not adhere to simple necessity and sufficiency rules. Biochemical studies indicated that JAG1 and JAG2 underwent posttranslational modifications that resulted in generation of a JAG1 C-terminal peptide and regulated the abundance of full-length JAG2 on the cell surface. GSC and glycogen synthase kinase 3 were implicated in these posttranslational events, but WNT agonist/antagonist studies and RNA-Seq indicated a WNT-independent mechanism. Collectively, these data suggest that posttranslational modifications create distinct assemblies of JAG1 and JAG2, which regulate Notch signal strength and determine the fate of tracheobronchial stem/progenitor cells.

Authors

Susan D. Reynolds, Cynthia L. Hill, Alfahdah Alsudayri, Scott W. Lallier, Saranga Wijeratne, Zheng Hong Tan, Tendy Chiang, Estelle Cormet-Boyaka

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Figure 2

Roles for JAG1 and JAG2 in ciliated and goblet cell differentiation.

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Roles for JAG1 and JAG2 in ciliated and goblet cell differentiation. Hum...
Human bronchial basal cells were differentiated in ALI cultures using H&H medium. Treatments were on day 8 and day 10, and cultures were fixed on day 12. Differentiation was quantified by immunofluorescence analysis of ACT, MUC5B, and DAPI. (A and B) Cells were treated with vehicle (PBS) or 40 μM JAG1 peptide. (A) Frequency of ciliated cell differentiation intermediates. P, cells with a primary cilium, B, bristle cells; M, ciliated cells. (B) Frequency of goblet cell differentiation intermediates. L, MUC5B-low cells; M, MUC5B-medium cells; H, MUC5B-high cells. (C–F) Cells were treated with vehicle (PBS) or 25 μg/mL neutralizing antibody against JAG1 (αJ1) or JAG2 (αJ2). (C) Frequency of bristle cells. (D) Frequency of ciliated cells. (E) Frequency of MUC5B-medium cells. (F) Frequency of MUC5B-high cells. (G–J) Cells were treated with PBS or 25 μg/mL αJ1 and 25 μg/mL αJ2. (G) Frequency of bristle cells. (H) Frequency of ciliated cells. (I) Frequency of MUC5B-medium cells. (J) Frequency of MUC5B-high cells. All quantitative data are presented as the mean ± SD, n = 6. Normally distributed data were analyzed by t test. Nonnormally distributed data were analyzed by Mann-Whitney test.