Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0851184 (thinning)
 11,252 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lung epithelial and mesenchymal cells are separated by a basement membrane. At late fetal gestation, this basement membrane in fenestrated, allowing epithelial cytoplasmic extensions to reach in close proximity of the interstitial fibroblast. The enzymes responsible for this focal basement membrane remodelling, and their cellular origin, remains to be defined. Basement membrane remodelling generally involves a special class of matrix-degrading enzymes, called metalloproteinases. Herein, we report that fetal lung cells originating from both tissue layers, mesoderm and endoderm, express the metalloproteinase genes, MMP-1 or interstitial collagenase, and MMP-3 or stromelysin. The inhibitor of metalloproteinases, TIMP-1, is mainly expressed in fetal lung fibroblasts. During late fetal development, MMP-1 mRNA expression in both cell types increases close to term (day 21, term = 22 days), while that of stromelysin and TIMP-1 remain constant. Both fibroblasts and epithelial cells express fibronectin (FN) mRNA. The expression of the FN gene in epithelial cells decreases slightly at the canalicular stage of lung development (days 19-20), whereas FN expression in fibroblasts is not changed with advancing gestation. Procollagen alpha 1 (I) mRNA is predominantly detected in fibroblasts whereas message for laminin B1 chain is primarily found in epithelial cells. Expression of procollagen alpha 1 (I) mRNA decreases in fibroblasts during the canalicular stage of fetal lung development compared to the pseudoglandular stage (day 18) but increases thereafter at the saccular stage (day 21) of development. Laminin B1 expression in epithelial cells declines with advancing gestation. These data are consistent with a process of basement membrane thinning during the canalicular stage, followed by metalloproteinase-mediated penetration. Further, a progressive reduction in laminin expression is consistent with progressive epithelial differentiation.
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PMID:Ontogeny of extracellular matrix gene expression by rat lung cells at late fetal gestation. 948 4

To test the hypothesis that early exercise training after myocardial infarction (MI) could preserve cardiac function, alleviate left ventricular (LV) remodeling and induce a protective effect on morphology, male Sprague-Dawley rats underwent coronary ligation or sham operation, and were assigned to 3 groups: Sham, sedentary MI (SedMI), and exercise MI (ExMI). We measured the changes in collagen volume fraction, matrix metalloproteinase (MMP) 1, tissue inhibitor matrix metalloproteinase 1 (TIMP-1), angiotensin II receptor type 1 (AT1), and angiotensin converting enzyme (ACE) at gene and protein levels after 8 weeks of exercise training. Cardiac functions were determined by echocardiographic and hemodynamic measurements. Early exercise training after MI had no effect on LV wall thinning. Cardiac function was significantly preserved in the ExMI group in comparison to the SedMI group. The collagen volume fraction in the ExMI group was significantly lower than in the SedMI group. Compared to the SedMI group, the ExMI group showed a markedly decrease at both the gene and protein levels in TIMP-1 (P<0.05). No significant differences were found in MMP-1 among the three groups. MMP-1/TIMP-1 ratio in the ExMI group was significantly higher than in the SedMI group. In addition, the expression of AT1 protein in the ExMI group was significantly lower than in the SedMI group. Furthermore, both ACE mRNA expression and ACE binding in the ExMI group are significantly decreased compared to the SedMI group. Our results suggest that early exercise training after MI reduces TIMP-1 expression, improves the balance between MMPs and TIMPs, and mitigates the expressions of ACE and AT1 receptor. These improvements, in turn, attenuate myocardial fibrosis and preserve post-MI cardiac function.
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PMID:Effects of exercise training on cardiac function and myocardial remodeling in post myocardial infarction rats. 1798 Mar 87