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CFTR-mediated monocyte/macrophage dysfunction revealed by cystic fibrosis proband-parent comparisons
Xi Zhang, Camille M. Moore, Laura D. Harmacek, Joanne Domenico, Vittobai Rashika Rangaraj, Justin E. Ideozu, Jennifer R. Knapp, Katherine J. Woods, Stephanie Jump, Shuang Jia, Jeremy W. Prokop, Russell Bowler, Martin J. Hessner, Erwin W. Gelfand, Hara Levy
Xi Zhang, Camille M. Moore, Laura D. Harmacek, Joanne Domenico, Vittobai Rashika Rangaraj, Justin E. Ideozu, Jennifer R. Knapp, Katherine J. Woods, Stephanie Jump, Shuang Jia, Jeremy W. Prokop, Russell Bowler, Martin J. Hessner, Erwin W. Gelfand, Hara Levy
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Research Article Pulmonology

CFTR-mediated monocyte/macrophage dysfunction revealed by cystic fibrosis proband-parent comparisons

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Abstract

Cystic fibrosis (CF) is an inherited disorder caused by biallelic mutations of the CF transmembrane conductance regulator (CFTR) gene. Converging evidence suggests that CF carriers with only 1 defective CFTR copy are at increased risk for CF-related conditions and pulmonary infections, but the molecular mechanisms underpinning this effect remain unknown. We performed transcriptomic profiling of peripheral blood mononuclear cells (PBMCs) of CF child-parent trios (proband, father, and mother) and healthy control (HC) PBMCs or THP-1 cells incubated with the plasma of these participants. Transcriptomic analyses revealed suppression of cytokine-enriched immune-related genes (IL-1β, CXCL8, CREM), implicating lipopolysaccharide tolerance in innate immune cells (monocytes) of CF probands and their parents. These data suggest that a homozygous as well as a heterozygous CFTR mutation can modulate the immune/inflammatory system. This conclusion is further supported by the finding of lower numbers of circulating monocytes in CF probands and their parents, compared with HCs, and the abundance of mononuclear phagocyte subsets, which correlated with Pseudomonas aeruginosa infection, lung disease severity, and CF progression in the probands. This study provides insight into demonstrated CFTR-related innate immune dysfunction in individuals with CF and carriers of a CFTR mutation that may serve as a target for personalized therapy.

Authors

Xi Zhang, Camille M. Moore, Laura D. Harmacek, Joanne Domenico, Vittobai Rashika Rangaraj, Justin E. Ideozu, Jennifer R. Knapp, Katherine J. Woods, Stephanie Jump, Shuang Jia, Jeremy W. Prokop, Russell Bowler, Martin J. Hessner, Erwin W. Gelfand, Hara Levy

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Figure 6

Plasma-cultured monocytes, but not macrophages, show dramatic changes in gene expression.

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Plasma-cultured monocytes, but not macrophages, show dramatic changes in...
(A) Breakdown of differentially expressed transcripts (fold change <–2 or >2, FDR P < 0.05, CF probands versus HCs in the THP-1 monocyte and macrophage models) in main categories according to locus type. (B and C) Volcano plots of (B) all differentially expressed transcripts and the (C) differentially expressed transcripts in “coding” and “multiple complex” (MC) categories. (D) Bubble plot of top 10 significant pathways in WikiPathways ranked by number of regulated genes. (E) Venn diagrams showing the numbers and overlap of unique genes (upper) and top 20 pathways (lower) for CF probands versus HCs in the indicated models. (F) Bar plot of THP-1 cell numbers after 4 days of culture with CF plasma. Dunn’s multiple comparison for nonparametric post hoc testing was performed following the Kruskal-Wallis test to compare the differences between HC and other groups. ***P < 0.001. Pa, P. aeruginosa; Sa, Staphylococcus aureus; Ng, negative; FBS, fetal bovine serum; DEGs, differentially expressed genes.

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