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Respiratory Research
Published in: Respiratory Research 1/2011

Open Access 01-12-2011 | Research

The effect of cathepsin K deficiency on airway development and TGF-β1 degradation

Authors: Dongwei Zhang, Nelson Leung, Ekkehard Weber, Paul Saftig, Dieter Brömme

Published in: Respiratory Research | Issue 1/2011

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Abstract

Background

Cathepsin K, a cysteine protease predominantly expressed in osteoclasts, is a major drug target for the treatment of osteoporosis. Recent findings, however, indicate that cathepsin K is also involved in non-skeletal metabolism. The development of fibrotic phenotypes in lung and skin is a concern for cathepsin K inhibitors presently evaluated in clinical trials. Cathepsin K is expressed in lung tissue and has been implicated in lung fibrosis. However, little is known about the role of cathepsin K in airway development and its effect on TGF-β1 degradation.

Methods

We investigated the effects of cathepsin K-deficiency on alterations in airway integrity, extracellular matrix composition, and TGF-β1 expression and degradation. Lung homogenates of wild-type and cathepsin K-deficient mice were used to evaluate their contents of collagen, glycosaminoglycans, and TGF-β1. The accessibility of TGF-β1 to cathepsin K-mediated degradation was determined in vitro and lung fibroblast proliferations in wild-type and cathepsin K-deficient cells were evaluated.

Results

Lung airway cathepsin K expression in wild-type mice remained constant between 1 and 6 months of age and the airway integrity was maintained. In contrast, after 2 months of age, all Ctsk -/- mice demonstrated increased airway epithelium thickness by 16-28%, a lower structural airway integrity (1-2 score units lower), elevated cytokeratin expression of 12%, increased α-actin and vimentin expression by 50% and 70%, increased area of smooth muscle cells by 15%, elevated hydroxyproline and GAGs content by 20% and 25%, and increased TGF-β1 expression by 25%. TGF-β1 proved an efficient substrate of cathepsin K and TGF-β1 protein content in lung was increased by a potent cathepsin inhibitor. Lung fibroblasts from Ctsk -/- mice after TGF-β1 treatment showed increased proliferation rates, increased levels of TGF-β1 by 30%, and increased ECM secretion.

Conclusion

This study suggests that airway development is partly regulated by cathepsin K and that its expression contributes to the maintenance of the airway structural integrity. The anticipated use of therapeutic cathepsin K inhibitors needs to take potential changes in human lungs into consideration.
Appendix
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Metadata
Title
The effect of cathepsin K deficiency on airway development and TGF-β1 degradation
Authors
Dongwei Zhang
Nelson Leung
Ekkehard Weber
Paul Saftig
Dieter Brömme
Publication date
01-12-2011
Publisher
BioMed Central
Published in
Respiratory Research / Issue 1/2011
Electronic ISSN: 1465-993X
DOI
https://doi.org/10.1186/1465-9921-12-72

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