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Query: UMLS:C0034067 (
emphysema
)
11,506
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Disruption of the extracellular matrix is believed to play an important role in the pathogenesis of
emphysema
. Prior studies have demonstrated that transgenic mice expressing the human tissue collagenase,
matrix metalloproteinase 1
(
MMP-1
), develop
emphysema
.
MMP-1
is a protease with substrate specificity for fibrillar collagen. Type I and III collagens, which are the most abundant proteins within the lungs, are the primary substrates for
MMP-1
. To assess if type I collagen was indeed the site of action for
MMP-1
in these transgenic mice, hybrid mice were generated by crossing the
MMP-1
transgenic mice with mice that had degradation-resistant type I collagen. The hybrid mice demonstrated an identical emphysematous phenotype as the
MMP-1
transgenic mice, indicating that the degradation of type I collagen was not essential to the development of
emphysema
in these mice. Immunohistochemical studies in control mice demonstrated that collagen fibers in the alveolar walls and ducts of the normal mouse lungs consist mainly of type III collagen. In the transgenic and hybrid mice, the emphysematous changes, which developed, were associated with a marked decrease in type III collagen in these alveolar structures. These results indicate that
MMP-1
generated the emphysematous phenotype via the degradative effect on type III collagen, which is a vital structural element of the alveolar walls. This is the first study to show that a matrix metalloproteinase may cause
emphysema
via its effects on a specific collagen subtype. As such, it should provide important insight into the mechanisms of this disease in humans.
...
PMID:Emphysematous changes are caused by degradation of type III collagen in transgenic mice expressing MMP-1. 1265 12
An abnormal increase in proteolytic enzymes is thought to play a key role in pulmonary
emphysema
. Alveolar macrophage proteolytic enzymes include cathepsin L, cathepsin S,
matrix metalloproteinase 1
, 9, and 12, and a number of studies have implicated these proteinases in the alveolar destruction that characterizes
emphysema
. The aim of this study was to investigate cathepsin L, cathepsin S,
matrix metalloproteinase 1
, 9, and 12 mRNA expression in alveolar macrophages isolated from patients with varying degrees of
emphysema
and to correlate their level of expression with measures of
emphysema
. Alveolar macrophages were isolated from fifty-four patients who underwent surgical resection for lung carcinoma. The level of mRNA expression was determined using real-time PCR.
Emphysema
was quantified using high-resolution CT scans. Alveolar macrophages were also cultured for 24 h and 48 h; the effect of proinflammatory mediators and promoter polymorphisms on expression was analyzed. There was a significant correlation between
matrix metalloproteinase 1
mRNA expression and
emphysema
. A higher level of
matrix metalloproteinase 1
mRNA was associated with more severe
emphysema
. Matrix metalloproteinase 12 mRNA expression was increased in current smokers as compared with former smokers. Furthermore, there was a negative correlation between matrix metalloproteinase 12 gene expression and carbon monoxide diffusing capacity. The matrix metalloproteinase 9 C-1562T polymorphism significantly influenced matrix metalloproteinase 9 mRNA expression in alveolar macrophages. These results suggest that alveolar macrophage
matrix metalloproteinase 1
and 12 may have a role in the lung structural changes leading to the development of
emphysema
. Furthermore, these data provide evidence to support the concept that multiple proteinases, causing both elastin and collagen degradation, are important in the pathogenesis of pulmonary
emphysema
.
...
PMID:Matrix metalloproteinase expression by human alveolar macrophages in relation to emphysema. 1825 71
