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Epithelial Cell Layer (epithelial + cell_layer)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

Cellular Evaluation of Synthesized Insulin/Transferrin Bioconjugates for Oral Insulin Delivery Using Intelligent Complexation Hydrogels

MACROMOLECULAR BIOSCIENCE, Issue 3 2010
Justin P. Shofner
Abstract Insulin transport across the epithelial cell layer in the small intestine was studied using insulin/transferrin conjugates with and without the presence of P(MAA -g- EG) microparticles in contact with a co-culture of Caco-2/HT29-MTX cells. The insulin/transferrin conjugate was shown to increase transport relative to pure insulin by a factor of 7, achieving an apparent permeability of 37,×,109,cm,·,s,1. The presence of P(MAA- g -EG) microparticles increased conjugate transport by a factor of 14 times relative to insulin, achieving an apparent permeability of 72.8,×,109,cm,·,s,1. The presence of the microparticles in solution was found to improve conjugate transport by nearly 100% with little to no change in cell monolayer integrity. [source]

Pathological airway remodelling in inflammation

THE CLINICAL RESPIRATORY JOURNAL, Issue 2010
Gunilla Westergren-Thorsson
Abstract Introduction:, Airway remodelling refers to a wide pattern of patophysiological mechanisms involving smooth muscle cell hyperplasia, increase of activated fibroblasts and myofibroblasts with deposition of extracellular matrix. In asthma, it includes alterations of the epithelial cell layer with goblet cell hyperplasia, thickening of basement membranes, peri-bronchial and peri-broncheolar fibrosis. Moreover, airway remodelling occurs not only in asthma but also in several pulmonary disorders such as chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis and systemic sclerosis. Asthma treatment with inhaled corticosteroids does not fully prevent airway remodelling and thus have restricted influence on the natural course of the disease. Objectives:, This review highlights the role of different fibroblast phenotypes and potential origins of these cells in airway remodelling. Results:, During inflammatory conditions, such as asthma, fibroblasts can differentiate into an active, more contractile phenotype termed myofibroblast, with expression of stress fibres and alpha-smooth muscle actin. The origin of myofibroblasts has lately been debated, and three sources have been identified: recruitment and differentiation of resident tissue fibroblasts; fibrocytes , circulating progenitor cells; and epithelial,mesenchymal transition. Conclusion:, It is clear that airway mesenchymal cells, including fibroblasts/myofibroblasts, are more dynamic in terms of differentiation and origin than has previously been recognised. Considering that these cells are key players in the remodelling process, it is of utmost importance to characterise specific markers for the various fibroblast phenotypes and to explore factors that drive the differentiation to develop future diagnostic and therapeutic tools for asthma patients. Please cite this paper as: Westergren-Thorsson G, Larsen K, Nihlberg K, Andersson-Sjöland A, Hallgren O, Marko-Varga G and Bjermer L. Pathological airway remodelling in inflammation. Clin Respir J 2010; 4 (Suppl. 1): 1,8. [source]

Co-localization of multiple ErbB receptors in stratified epithelium of oral squamous cell carcinoma

THE JOURNAL OF PATHOLOGY, Issue 3 2001
Roberto Bei
Abstract The expression of all four ErbB receptors was compared by immunohistochemistry, using receptor-specific polyclonal antisera, in 32 invasive, 11 in situ carcinomas, six benign lesions, and 22 samples of histologically normal mucosa adjacent to specimens of carcinoma originating from oral cavity epithelium. Among invasive and in situ carcinoma, EGFR expression was the most prevalent (in 29/32 and 8/11 cases, respectively) followed by ErbB2 (17/32 and 2/11) and ErbB4 (9/32 and 1/10), while ErbB3 was only detected in invasive tumours (12/32). Specific patterns included invasive tumours with expression of EGFR (8/32) or ErbB4 (1/32) alone, as well as different receptor combinations (EGFR+ErbB2, EGFR+ErbB4, EGFR+ErbB2+ErbB3, EGFR+ErbB2+ErbB4, and all four receptors). Simultaneous expression of three or four ErbB receptors correlated with tumour invasion (p=2.2×10,4) and localized in the intermediate epithelial cell layer of well and moderately differentiated tumours. No other significant correlation with clinico-pathological features was noticed. Some benign lesions and histologically normal mucosa adjacent to carcinomas showed weak immunostaining of EGFR (10/28), ErbB2 (4/28) or ErbB4 (3/28). By comparison, overexpression, as indicated by increased staining intensity, was observed in invasive tumours for EGFR (18/32), ErbB2 (8/32), ErbB4 (3/32), and ErbB3 (3/32). Statistical evaluation demonstrated a significant association of EGFR or ErbB2 overexpression with invasive carcinoma when compared with benign lesions and apparently normal epithelium (p=5.2×10,7 and p=5×10,3, respectively). Tumour-specific overexpression of ErbB receptors and their co-expression, most frequently involving EGFR and ErbB2, in the same cell layer of neoplastic epithelium, implicate receptor heterodimers in the pathogenesis of oral squamous carcinoma. Copyright © 2001 John Wiley & Sons, Ltd. [source]

Dysregulation of the Cytokine Network in the Uterus of the Diabetic Rat

AMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 6 2001
SERGE PAMPFER
Insulin-dependent (type 1) diabetes is an auto-immune disorder that produces secondary complications in numerous non-immunological systems. Changes in the synthesis and action pattern of several cytokines have been associated with the development of these alterations. Based on the clinical facts that the pregnant and non-pregnant functions of the reproductive system are also disrupted by diabetes, our laboratory has decided to concentrate its research activities on the hypothesis that cytokines may be implicated in the uteropathy and embryopathy associated with the metabolic disorder. This review article summarizes our major findings concerning the synthesis of TNF-, and IL-1, in the uterus of diabetic rats, and in cultures of rodent uterine cells upon their exposure to high concentrations of glucose. The paper also reviews evidence that both the peri-implanting embryo and the epithelial cell layer lining the uterine lumen are targets for the deleterious influence of excess TNF-,. If confirmed in the uterus of diabetic patients, these observations may explain how cytokines contribute to the dysregulation of crucial reproductive events like menstruation and embryo implantation in humans. [source]