Annapurna Venkatakrishnan scite author profile

In cystic fibrosis (CF), inflammatory mediator production by airway epithelial cells is a critical determinant of chronic airway inflammation. To determine whether altered signal transduction through the nuclear factor (NF)-kappaB pathway occurs in CF epithelial cells and results in excessive generation of inflammatory cytokines, we evaluated tumor necrosis factor (TNF)-alpha-induced production of the NF-kappaB-dependent cytokine interleukin (IL)-8 and activation of NF-kappaB in three different human bronchial epithelial cell lines: (1) BEAS cells that express wild-type CF transmembrane conductance regulator (CFTR), (2) IB3 cells with mutant CFTR, and (3) C38 cells, which are "corrected" IB3 cells complemented with wild-type CFTR. Treatment of cells with TNF-alpha (30 ng/ml) resulted in markedly elevated NF-kappaB activation and production of IL-8 by IB3 cells compared with BEAS and C38 cells. Despite the differences in NF- kappaB activation, no differences in basal levels of IkappaB-alpha or TNF-alpha- induced IkappaB-alpha processing and degradation were detected among the cell lines. In contrast, the basal level of IkappaB-beta was increased in the IB3 cells. Treatment with TNF-alpha resulted in increased formation of hypophosphorylated IkappaB-beta and increased nuclear localization of IkappaB-beta in IB3 cells compared with the other cell types. These findings provide additional evidence of a dysregulated inflammatory response in CF.

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Multiorgan Nuclear Factor Kappa B Activation in a Transgenic Mouse Model of Systemic Inflammation

Blackwell

Yull

Chen

et al. 2000

Am J Respir Crit Care Med

127

115

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We utilized a line of transgenic mice expressing Photinus luciferase complementary DNA (cDNA) under the control of a nuclear factor kappa B (NF-kappaB)-dependent promoter (from the 5' human immunodeficiency virus-1 [HIV-1] long terminal repeat) to examine the role of NF-kappaB activation in the pathogenesis of systemic inflammation induced by bacterial endotoxin (lipopolysaccharide [LPS]). After intraperitoneal injection of E. coli LPS, these mice displayed a time- and dose-dependent, organ-specific pattern of luciferase expression, showing that NF-kappaB-dependent gene transcription is transiently activated in multiple organs by systemic LPS administration. Luciferase expression in liver could be specifically blocked by intravenous administration of replication-deficient adenoviral vectors expressing a dominant inhibitor of NF-kappaB (IkappaB-alphaDN), confirming that luciferase gene expression is a surrogate marker for NF-kappaB activation in this line of mice. After treatment with intraperitoneal LPS, the mice were found to have increased lung tissue messenger RNA (mRNA) expression of a variety of cytokines that are thought to be NF-kappaB-dependent, as well as elevated serum concentrations of presumed NF-kappaB-dependent cytokines. In lung tissue homogenates, a close correlation was identified between luciferase activity and KC levels. These studies show that systemic treatment with LPS orchestrates a multiorgan NF-kappaB-dependent response that likely regulates the pathobiology of systemic inflammation.

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Cathepsin B Regulates the Intrinsic Angiogenic Threshold of Endothelial Cells

Venkatakrishnan

Kazlauskas

2005

MBoC

116

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The lysosomal protease cathepsin B has been implicated in a variety of pathologies including pancreatitis, tumor angiogenesis, and neuronal diseases. We used a tube formation assay to investigate the role of cathepsin B in angiogenesis. When cultured between two layers of collagen I, primary endothelial cells formed tubes in response to exogenously added VEGF. Overexpressing cathepsin B reduced the VEGF-dependent tube response, whereas pharmacologically or molecularly suppressing cathepsin B eliminated the dependence on exogenous VEGF. However, tube formation still required VEGF receptor activity, which suggested that endothelial cells generated VEGF. Indeed, VEGF mRNA and protein was detectable in cells treated with cathepsin B inhibitor, which correlated with a rise in the level of HIF-1alpha. In addition to boosting the level of proangiogenic factors, blocking cathepsin B activity reduced the amount of the antiangiogenic protein endostatin. Thus endothelial cells have the intrinsic capacity to generate pro- and antiangiogenic agents. These observations complement and expand our appreciation of how endothelial cell-derived proteases regulate angiogenesis.

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