The Response of Mucosal Epithelial Cells to Infections

Editorial

16 November 2020

Editorial: The Response of Mucosal Epithelial Cells to Infections

Ran Wang

and

David Proud

1,663 views

2 citations

Editors

Ran Wang

Mater Research Institute, Faculty of Medicine, The University of Queensland

David Proud

Cumming School of Medicine, University of Calgary

Impact

(A) While the productive life cycle of HPV occurs in the squamous ectocervix, cervical intraepithelial neoplasia (CIN) and invasive cervical cancer dominantly arise from the squamo-columnar junction (SJL) of the cervix, which contains reserve and cuboidal cells with stem-like properties. Stemness-related pathways such as Focal Adhesion, Notch, Wnt, Hippo, and Hedgehog with cross-talk mechanisms facilitate cell survival, proliferation, epithelial mesenchymal transition, dissemination, and metastasis. (B) Using the Xenabrowser online portal (https://xenabrowser.net/) (Goldman et al., 2019), The Cancer Genome Atlas Cervical Squamous Cell Carcinoma and Endocervical Adenocarcinoma (TCGA-CESC) database was filtered on primary site samples (n = 304) and screened for significant association of high expression of stemness-related genes with poor 5-year (1,825 days) survival using Kaplan-Meier Plots, comparing subjects of the top and bottom 25% of gene expression. The web-based interactive Xenabrowser analysis integrates data of the following datasets: https://tcga.xenahubs.net/download/TCGA.CESC.sampleMap/HiSeqV2.gz (gene expression data), https://tcga.xenahubs.net/download/survival/CESC_survival.txt.gz (survival data) and https://tcga.xenahubs.net/download/TCGA.CESC.sampleMap/CESC_clinicalMatrix (clinical data). Input genes (n = 526) were selected from KEGG pathways (hsa04150, hsa04330, hsa04310, hsa04390, hsa04340). P-values of significantly (p < 0.05) associated genes where overexpression associated with poorer survival were –log10 transformed and plotted. Underlined genes are those not previously associated with cervical cancer prognosis. (C) Significant genes from (B) were analyzed for enriched cancer and viral infection pathways using Enrichr and the KEGG 2019 human database. P-values were –log10 transformed and plotted. (D) STRING-db analysis of genes from (B) was used to estimate protein-protein interaction networks and levels of connectivity. Genes enriched in the KEGG HPV infection pathway (hsa05165) are displayed in red. (E) Heat map of genes ordered based on highest to lowest connectivity estimated by STRING-db. (F) A combined score was established based on the sum of a connectivity score (1: 0–10 connections; 2: 11–20 connections; 3: 21–30 connections) and a p-value score (1: –log10 < 1.5; 2: –log10 = 1.5–2.0; 3: –log10 > 2.0), and displayed as heat map.

Perspective

25 June 2020

Dysregulation of Stemness Pathways in HPV Mediated Cervical Malignant Transformation Identifies Potential Oncotherapy Targets

Megha Budhwani

, 3 more and

Janin Chandra

3,949 views

16 citations

Peli1−/− animals recruit increased numbers of immune cells to the airways following influenza A virus infection. Peli1−/− mice and age- and sex-matched wild type littermate controls were given a single dose of 5 × 103 PFU influenza A X31 or PBS (control) i.n. under gaseous anesthesia. Animals were sacrificed and lavaged at the time points indicated. Live single immune cell types were analyzed by flow cytometry (A–L); gating strategies for defining subpopulations are shown in Supplementary Figure 3. Total numbers of cells were calculated using CountBright™ Beads (Invitrogen). Individual data points show a single mouse, and data panels show mean ± SEM; Peli1+/+ mice PBS n = 4, X31 2 day n = 4, X31 4 day n = 4, X31 8 day n = 4; Peli1−/− mice PBS n = 4, X31 2 day n = 4, X31 4 day n = 3, X31 8 day n = 4. Significant differences between groups are indicated by *p < 0.05, and ***p < 0.001, as measured by two-way ANOVA with Sidak's post-test.

Original Research

31 August 2020

Pellino-1 Regulates the Responses of the Airway to Viral Infection

Elizabeth K. Marsh

, 18 more and

Helen M. Marriott

5,345 views

12 citations

Original Research

16 September 2020

ABCF1 Regulates dsDNA-induced Immune Responses in Human Airway Epithelial Cells

Quynh T. Cao

, 10 more and

Jeremy A. Hirota

4,655 views

12 citations

Original Research

24 July 2020

Influence of the MUC1 Cell Surface Mucin on Gastric Mucosal Gene Expression Profiles in Response to Helicobacter pylori Infection in Mice

Yong H. Sheng

, 6 more and

Michael A. McGuckin

5,819 views

8 citations

Review

19 June 2020

Rhinovirus and Innate Immune Function of Airway Epithelium

Haleh Ganjian

, 2 more and

Umadevi Sajjan

Airway epithelial cells, which lines the respiratory mucosa is in direct contact with the environment. Airway epithelial cells are the primary target for rhinovirus and other inhaled pathogens. In response to rhinovirus infection, airway epithelial cells mount both pro-inflammatory responses and antiviral innate immune responses to clear the virus efficiently. Some of the antiviral responses include the expression of IFNs, endoplasmic reticulum stress induced unfolded protein response and autophagy. Airway epithelial cells also recruits other innate immune cells to establish antiviral state and resolve the inflammation in the lungs. In patients with chronic lung disease, these responses may be either defective or induced in excess leading to deficient clearing of virus and sustained inflammation. In this review, we will discuss the mechanisms underlying antiviral innate immunity and the dysregulation of some of these mechanisms in patients with chronic lung diseases.

11,720 views

29 citations

Inhibition of fluticasone on ATP-induced mucin production and involvement of extracellular ATP in HRV-induced mucin production and release in ALI-PBEC. (A) ATP (100 μM) treated cells in the presence of tiotropium or fluticasone. Cells were incubated for 24 h. The gene expression of MUC5AC was measured using qPCR. (B) ALI-PBEC were infected by HRV-A16 (MOI 5) after pre-treatment with suramin (10 μM). Cells were incubated for 48 h after infection. The gene expression of MUC5AC was measured by qPCR. (C) Levels of Mucin 5AC were assessed by ELISA assay. Gene expression were normalized for RPL13A and ATP5B. Data are shown as normalized or fold expression. Data are mean values ± SEM. n = 4 independent donors. Analysis of differences was conducted with paired one-way or two-way ANOVA with a Tukey post-hoc test Significant differences are indicated by *P < 0.05 compared with control, HRV-A16 and ATP group.

Original Research

19 June 2020

Tiotropium and Fluticasone Inhibit Rhinovirus-Induced Mucin Production via Multiple Mechanisms in Differentiated Airway Epithelial Cells

Ying Wang

, 2 more and

Pieter S. Hiemstra

4,315 views

15 citations

Differential effects of IL-22 and IFN-λ on the airway epithelial barrier. IL-22 and IFN-λ share a cognate receptor IL-10RB and stimulate JAK/STAT signaling. Downstream of IL-22, antimicrobial peptide (AMP) production is increased along with expression of junctional proteins. IFN-λ is induced in response to viruses such as influenza, and is associated with decreased expression of junctional protein and enhance transmigration of immune cells. Portions of this schematic was adapted by servier medical art website (smart.servier.com).

Review

19 June 2020

Participation of the IL-10RB Related Cytokines, IL-22 and IFN-λ in Defense of the Airway Mucosal Barrier

Danielle Ahn

and

Alice Prince

The airway epithelial barrier is a major barrier protecting against clinically significant infections of the lung. Its integrity is often compromised due to mechanical, chemical, or infectious causes. Opportunistic bacterial pathogens are poised to cause parenchymal infection and become difficult to eradicate due to adaptive metabolic changes, biofilm formation, and the acquisition of antimicrobial resistance and fitness genes. Enhancing mucosal defenses by modulating the cytokines that regulate barrier functions, such as interleukin-22 (IL-22) and interferon-λ (IFN-λ), members of the IL-10 family of cytokines, is an attractive approach to prevent these infections that are associated with high morbidity and mortality. These cytokines both signal through the cognate receptor IL-10RB, have related protein structures and common downstream signaling suggesting shared roles in host respiratory defense. They are typically co-expressed in multiple models of infections, but with differing kinetics. IL-22 has an important role in the producing antimicrobial peptides, upregulating expression of junctional proteins in the airway epithelium and working in concert with other inflammatory cytokines such as IL-17. Conversely, IFN-λ, a potent antiviral in influenza infection with pro-inflammatory properties, appears to decrease junctional integrity allowing for bacterial and immune cell translocation. The effects of these cytokines are pleotropic, with pathogen and tissue specific consequences. Understanding how these cytokines work in the mucosal defenses of the respiratory system may suggest potential targets to prevent invasive infections of the damaged lung.

7,107 views

28 citations