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4. Normal Calcium-Activated Anion Secretion in a Mouse Selectively Lacking TMEM16A in Intestinal Epithelium.

Author

Vega G, Guequén A, Johansson MEV, Arike L, Martínez-Abad B, Nyström EEL, Scudieri P, Pedemonte N, Millar-Büchner P, Philp AR, Galietta LJ, Hansson GC, and Flores CA

Abstract

Calcium-activated anion secretion is expected to ameliorate cystic fibrosis, a genetic disease that carries an anion secretory defect in exocrine tissues. Human patients and animal models of the disease that present a mild intestinal phenotype have been postulated to bear a compensatory calcium-activated anion secretion in the intestine. TMEM16A is calcium-activated anion channel whose presence in the intestinal epithelium is contradictory. We aim to test the functional expression of TMEM16A using animal models with Cftr and/or Tmem16a intestinal silencing. Expression of TMEM16A was studied in a wild type and intestinal Tmem16a knockout mice by mRNA-seq, mass-spectrometry, q-PCR, Western blotting and immunolocalization. Calcium-activated anion secretion was recorded in the ileum and proximal colon of these animals including intestinal Cftr knockout and double mutants with dual Tmem16a and Cftr intestinal ablation. Mucus homeostasis was studied by immune-analysis of Mucin-2 (Muc2) and survival curves were recorded. Tmem16a transcript was found in intestine. Nevertheless, protein was barely detected in colon samples. Electrophysiological measurements demonstrated that the intestinal deletion of Tmem16a did not change calcium-activated anion secretion induced by carbachol or ATP in ileum and proximal colon. Muc2 architecture was not altered by Tmem16a silencing as was observed when Cftr was deleted from mouse intestine. Tmem16a silencing neither affected animal survival nor modified the lethality observed in the intestinal Cftr -null mouse. Our results demonstrate that TMEM16A function in the murine intestine is not related to electrogenic calcium-activated anion transport and does not affect mucus homeostasis and survival of animals.

Published
2019
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5. Attached stratified mucus separates bacteria from the epithelial cells in COPD lungs.

Author

Fernández-Blanco JA, Fakih D, Arike L, Rodríguez-Piñeiro AM, Martínez-Abad B, Skansebo E, Jackson S, Root J, Singh D, McCrae C, Evans CM, Åstrand A, Ermund A, and Hansson GC

Subjects
Animals, Bronchoalveolar Lavage Fluid, Cystic Fibrosis complications, Disease Models, Animal, Epithelial Cells microbiology, Epithelial Cells pathology, Female, Humans, Lung, Mice, Mice, Inbred C57BL, Mice, Knockout, Mucin-5B genetics, Pancreatic Elastase, Pseudomonas aeruginosa, Respiratory Mucosa, Bacteria, Epithelial Cells metabolism, Mucus microbiology, Mucus physiology, Pulmonary Disease, Chronic Obstructive complications
Abstract

The respiratory tract is normally kept essentially free of bacteria by cilia-mediated mucus transport, but in chronic obstructive pulmonary disease (COPD) and cystic fibrosis (CF), bacteria and mucus accumulates instead. To address the mechanisms behind the mucus accumulation, the proteome of bronchoalveolar lavages from COPD patients and mucus collected in an elastase-induced mouse model of COPD was analyzed, revealing similarities with each other and with the protein content in colonic mucus. Moreover, stratified laminated sheets of mucus were observed in airways from patients with CF and COPD and in elastase-exposed mice. On the other hand, the mucus accumulation in the elastase model was reduced in Muc5b-KO mice. While mucus plugs were removed from airways by washing with hypertonic saline in the elastase model, mucus remained adherent to epithelial cells. Bacteria were trapped on this mucus, whereas, in non-elastase-treated mice, bacteria were found on the epithelial cells. We propose that the adherence of mucus to epithelial cells observed in CF, COPD, and the elastase-induced mouse model of COPD separates bacteria from the surface cells and, thus, protects the respiratory epithelium.

Published
2018
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6. New IL-15 receptor-α splicing variants identified in intestinal epithelial Caco-2 cells.

Author

Escudero-Hernández C, Martínez-Abad B, Ruipérez V, Garrote JA, and Arranz E

Subjects
Caco-2 Cells, DNA Methylation, Epigenesis, Genetic, Exocytosis genetics, Humans, Interleukin-15 metabolism, Interleukin-15 Receptor alpha Subunit genetics, Protein Binding genetics, Protein Isoforms genetics, Protein Splicing, Celiac Disease immunology, Colorectal Neoplasms immunology, Inflammatory Bowel Diseases immunology, Interleukin-15 Receptor alpha Subunit metabolism, Intestinal Mucosa immunology, Protein Isoforms metabolism
Abstract

IL-15 is a pleiotropic cytokine related to IL-2 which acts at a broader level than its counterpart. It is presented through its specific high-affinity receptor, IL-15Rα. Both cytokine and receptor are tightly regulated at multiple levels and are widely distributed. Thus, deregulation of their expression leads to an inflammatory immune response. Variants of splicing of IL-15Rα have been described in immune and barrier cells; however, their presence has not been focused on intestinal epithelial cells. In this study, we describe five new alternative variants of splicing of IL-15Rα in Caco-2 cells. Four of them were expressed into proteins inside Caco-2 cells, but these were unable to bind IL-15 or to follow the secretory pathway. However, the expression of mRNA itself might be relevant to diseases such as celiac disease, inflammatory bowel disease or colorectal cancer.

Published
2017
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7. Increased Intraepithelial Vα24 Invariant NKT Cells in the Celiac Duodenum.

Author

Montalvillo E, Bernardo D, Martínez-Abad B, Allegretti Y, Fernández-Salazar L, Calvo C, Chirdo FG, Garrote JA, and Arranz E

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Celiac Disease metabolism, Celiac Disease pathology, Child, Child, Preschool, Diet, Gluten-Free, Duodenum metabolism, Duodenum pathology, Female, Glutens immunology, Humans, Inflammation metabolism, Interferon-gamma metabolism, Intestinal Mucosa metabolism, Intestinal Mucosa pathology, Male, Middle Aged, Young Adult, Celiac Disease immunology, Duodenum immunology, Intestinal Mucosa immunology, Killer Cells, Natural metabolism, Receptors, Antigen, T-Cell metabolism, T-Lymphocytes metabolism
Abstract

Celiac Disease (CD) is an interferon (IFN)γ-mediated duodenal hypersensitivity to wheat gluten occurring in genetically predisposed individuals. Gluten-free diet (GFD) leads to a complete remission of the disease. Vα24-restricted invariant NKT (iNKT) cells are important to maintain immune homeostasis in the gut mucosa because of their unique capacity to rapidly produce large quantities of both T-helper (Th)1 and Th2 cytokines upon stimulation. We studied the presence of these cells in the CD duodenum. Duodenal biopsies were obtained from 45 untreated-CD patients (uCD), 15 Gluten Free Diet-CD patients (GFD-CD), 44 non-inflamed non-CD controls (C-controls) and 15 inflamed non-CD controls (I-controls). Two populations from Spain and Argentina were recruited. Messenger RNA (mRNA) expression of Vα24-Jα18 (invariant TCRα chain of human iNKT cells), IFNγ and intracellular transcription factor Forkhead Box P3 (Foxp3), and flow cytometry intraepithelial lymphocyte (IEL) profile were determined. Both uCD and GFD-CD patients had higher Vα24-Jα18 mRNA levels than non-CD controls (I and C-controls). The expression of Vα24-Jα18 correlated with Marsh score for the severity of mucosal lesion and also with increased mRNA IFNγ levels. uCD and GFD-CD patients had decreased mRNA expression of FoxP3 but increased expression of Vα24-Jα18, which revealed a CD-like molecular profile. Increased numbers of iNKT cells were confirmed by flow cytometry within the intraepithelial lymphocyte compartment of uCD and GFD-CD patients and correlated with Vα24-Jα18 mRNA expression. In conclusion, we have found an increased number of iNKT cells in the duodenum from both uCD and GFD-CD patients, irrespective of the mucosal status. A CD-like molecular profile, defined by an increased mRNA expression of Vα24-Jα18 together with a decreased expression of FoxP3, may represent a pro-inflammatory signature of the CD duodenum.

Published
2015
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8. IL-6 promotes immune responses in human ulcerative colitis and induces a skin-homing phenotype in the dendritic cells and Tcells they stimulate.

Author

Bernardo D, Vallejo-Díez S, Mann ER, Al-Hassi HO, Martínez-Abad B, Montalvillo E, Tee CT, Murugananthan AU, Núñez H, Peake ST, Hart AL, Fernández-Salazar L, Garrote JA, Arranz E, and Knight SC

Subjects
Adult, Aged, Aged, 80 and over, Cells, Cultured, Cytokines analysis, Cytokines immunology, Cytokines metabolism, Female, Humans, Inflammation immunology, Interleukin-13 immunology, Male, Middle Aged, Severity of Illness Index, Th2 Cells immunology, Colitis, Ulcerative immunology, Dendritic Cells immunology, Interleukin-6 immunology, Skin immunology, T-Lymphocytes immunology
Abstract

Dendritic cells (DCs) control the type and location of immune responses. Ulcerative colitis (UC) is considered a Th2 disease mediated by IL-13 where up to one third of patients can develop extraintestinal manifestations. Colonic biopsies from inflamed and noninflamed areas of UC patients were cultured in vitro and their supernatants were used to condition human blood enriched DCs from healthy controls. Levels of IL-13 in the culture supernatants were below the detection limit in most cases and the cytokine profile suggested a mixed profile rather than a Th2 cytokine profile. IL-6 was the predominant cytokine found in inflamed areas from UC patients and its concentration correlated with the Mayo endoscopic score for severity of disease. DCs conditioned with noninflamed culture supernatants acquired a regulatory phenotype with decreased stimulatory capacity. However, DCs conditioned with inflamed culture supernatants acquired a proinflammatory phenotype with increased expression of the skin-homing chemokine CCR8. These DCs did not have decreased T-cell stimulatory capacity and primed T cells with the skin-homing CLA molecule in an IL-6-dependent mechanism. Our results highlight the role of IL-6 in UC and question the concept of UC as a Th2 disease and the relevance of IL-13 in its etiology., (© 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2012
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