Jan Roger scite author profile

Jan Roger

3Publications

82Citation Statements Received

63Citation Statements Given

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326

Affiliations

GlaxoSmithKline (United Kingdom), University of Birmingham

Publications

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Goblet Cells Are Derived from a FOXJ1-Expressing Progenitor in a Human Airway Epithelium

Turner

Roger²,

Fitau³

et al. 2011

Am J Respir Cell Mol Biol

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The overproduction of mucus is a key pathology associated with respiratory diseases, such as asthma and chronic obstructive pulmonary disease. These conditions are characterized by an increase in the number of mucus-producing goblet cells in the airways. We have studied the cellular origins of goblet cells using primary human bronchial epithelial cells (HBECs), which can be differentiated to form a stratified epithelium containing ciliated, basal and goblet cells. Treatment of differentiated HBEC cultures with the cytokine IL-13, an important mediator in asthma, increased the numbers of goblet cells and decreased the numbers of ciliated cells. To determine whether ciliated cells act as goblet cell progenitors, ciliated cells in HBEC cultures were hereditably labeled with enhanced green fluorescent protein (EGFP) using two lentiviral vectors, one which contained Cre recombinase under the control of a FOXJ1 promoter and a second Cytomegalovirus (CMV)-floxed-EGFP construct. The fate of the EGFP-labeled ciliated cells was tracked in HBEC cultures. Treatment with IL-13 reduced the numbers of EGFP-labeled ciliated cells compared with untreated cultures. In contrast, IL-13 treatment significantly increased the numbers of EGFP-labeled goblet cells. This study demonstrates that goblet cells formed in response to IL-13 treatment are in part or wholly derived from progenitors that express the ciliated cell marker, FOXJ1.

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Highly efficient genome editing in primary human bronchial epithelial cells differentiated at air–liquid interface

et al. 2020

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The structure and composition of the bronchial epithelium is altered in respiratory diseases such as COPD and asthma, in which goblet cell hyperplasia and reduced numbers of ciliated cells impair mucociliary clearance. We describe a robust genome editing pipeline to interrogate modulators of primary human bronchial epithelial cell (HBEC) differentiation and function. By employing plasmid-and virus-free delivery of CRISPR/Cas9 to human airway basal cells we achieve highly efficient gene inactivation without the need for positive selection. Genome edited cells are differentiated at air liquid interface (ALI) into a pseudostratified epithelium. We focus on profiling ciliation using imaging cytometry coupled to confocal microscopy and immunohistochemistry. To our knowledge, this is the first study to describe highly efficient genome editing of ALI cultured primary HBECs. As proof of concept, we establish that inactivation of the gene encoding the transcription factor FOXJ1 in primary human airway basal cells precludes ciliation in ALI differentiated bronchial epithelia.

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Adenovirus early region I proteins: Action through interaction

Roger

2001

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Jan Roger

Goblet Cells Are Derived from a FOXJ1-Expressing Progenitor in a Human Airway Epithelium

Highly efficient genome editing in primary human bronchial epithelial cells differentiated at air–liquid interface

Adenovirus early region I proteins: Action through interaction

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