Your search keyword '"Nikica Mise"' showing total 2 results

1. Cigarette smoke alters primary human bronchial epithelial cell differentiation at the air-liquid interface

Author

Andrea C. Schamberger, Claudia A. Staab-Weijnitz, Oliver Eickelberg, and Nikica Mise-Racek

Subjects

Pathology, medicine.medical_specialty, Cell type, Keratin 14, Cellular differentiation, Cell, Bronchi, Mucin 5AC, Biology, Article, Tubulin, Smoke, Metaplasia, medicine, Humans, Uteroglobin, Secretion, Multidisciplinary, Keratin-14, Acetylation, Cell Differentiation, Epithelial Cells, Forkhead Transcription Factors, Tobacco Products, respiratory system, Epithelium, Cell biology, medicine.anatomical_structure, Respiratory epithelium, medicine.symptom

Abstract

The differentiated human airway epithelium consists of different cell types forming a polarized and pseudostratified epithelium. This is dramatically altered in chronic obstructive pulmonary disease (COPD), characterized by basal and goblet cell hyperplasia and squamous cell metaplasia. The effect of cigarette smoke on human bronchial epithelial cell (HBEC) differentiation remains to be elucidated. We analysed whether cigarette smoke extract (CSE) affected primary (p)HBEC differentiation and function. pHBEC were differentiated at the air-liquid interface (ALI) and differentiation was quantified after 7, 14, 21, or 28 days by assessing acetylated tubulin, CC10, or MUC5AC for ciliated, Clara, or goblet cells, respectively. Exposure of differentiating pHBEC to CSE impaired epithelial barrier formation, as assessed by resistance measurements (TEER). Importantly, CSE exposure significantly reduced the number of ciliated cells, while it increased the number of Clara and goblet cells. CSE-dependent cell number changes were reflected by a reduction of acetylated tubulin levels, an increased expression of the basal cell marker KRT14 and increased secretion of CC10, but not by changes in transcript levels of CC10, MUC5AC, or FOXJ1. Our data demonstrate that cigarette smoke specifically alters the cellular composition of the airway epithelium by affecting basal cell differentiation in a post-transcriptional manner.

Published

2015

2. Autonomous growth and hepatocarcinogenesis in transgenic mice expressing the p53 family inhibitor DNp73.

Author

Andrea Tannapfel, Katja John, Nikica Mise, Anke Schmidt, Sven Buhlmann, Saleh M. Ibrahim, and Brigitte M. Pützer

Subjects

CANCER patients, LIVER, ABDOMEN, BILIARY tract

Abstract

p53 family proteins carry on a wide spectrum of biological functions from differentiation, cell cycle arrest, apoptosis and chemosensitivity of tumors. Conversely, N-terminally truncated p73 (DNp73) functions as a potent inhibitor of all these tumor suppressor properties, implicating its participation in malignant transformation and oncogenesis. Several reports indicated considerable up-regulation of DNp73 in hepatocellular carcinoma (HCC) that correlates with reduced survival of patients, but little is known about the functional significance of DNp73 to tumorigenesis in vivo due to the lack of an appropriate model. To address this, we generated transgenic mice in which DNp73 expression is directed to the liver by the albumin promoter. Gene expression was tested by mRNA and protein analyses. Transgenic mice exhibited prominent hepatic histological abnormalities including increased hepatocyte proliferation resulting in preneoplastic lesions (liver cell adenomas) at 3–4 months. Among 12- to 20-month-old mice, 83% of animals developed hepatic carcinoma. HCC displayed a significant increase of hyperphosphorylated inactive retinoblastoma, whereas p53-regulated inhibitors of cell cycle progression were down-regulated in the tumors. Our data firmly establish the unique oncogenic capability of DNp73 to drive hepatocarcinogenesis in vivo, supporting its significance as a marker for disease severity in patients and as target for cancer prevention. This model offers new opportunities to further delineate DNp73-mediated liver oncogenesis but may also enable the development of more effective cancer therapies. [ABSTRACT FROM AUTHOR]

Published

2008