Mavroidis Manolis, Capetanaki Yassemi
Department of Molecular and Cellular Biology, Baylor College of Medicine, Houston, Texas, USA.
Am J Pathol. 2002 Mar;160(3):943-52. doi: 10.1016/S0002-9440(10)64916-4.
Mice lacking the intermediate filament protein desmin demonstrate abnormal mitochondria behavior, disruption of muscle architecture, and myocardial degeneration with extensive calcium deposits and fibrosis. These abnormalities are associated with cardiomyocyte hypertrophy, cardiac chamber dilation and eventually with heart failure. In an effort to elucidate the molecular mechanisms leading to the observed pathogenesis, we have analyzed gene expression changes in cardiac tissue using differential display polymerase chain reaction and cDNA atlas array methods. The most substantial changes were found in genes coding the small extracellular matrix proteins osteopontin and decorin that are dramatically induced in the desmin-null myocardium. We further analyzed their expression pattern both at the RNA and protein levels and we compared their spatial expression with the onset of calcification. Extensive osteopontin localization is observed by immunohistochemistry in the desmin-null myocardium in areas with massive myocyte death, as well as in hypercellular regions with variable degrees of calcification and fibrosis. Osteopontin is consistently co-localized with calcified deposits, which progressively are transformed to psammoma bodies surrounded by decorin, especially in the right ventricle. These data together with the observed up-regulation of transforming growth factor-beta1 and angiotensin-converting enzyme, could explain the extensive fibrosis and dystrophic calcification observed in the heart of desmin-null mice, potentially crucial events leading to heart failure.
缺乏中间丝蛋白结蛋白的小鼠表现出线粒体行为异常、肌肉结构破坏以及心肌变性,并伴有大量钙沉积和纤维化。这些异常与心肌细胞肥大、心腔扩张以及最终的心力衰竭有关。为了阐明导致所观察到的发病机制的分子机制,我们使用差异显示聚合酶链反应和cDNA图谱阵列方法分析了心脏组织中的基因表达变化。发现编码小细胞外基质蛋白骨桥蛋白和核心蛋白聚糖的基因发生了最显著的变化,这些基因在缺乏结蛋白的心肌中被显著诱导。我们进一步在RNA和蛋白质水平分析了它们的表达模式,并将它们的空间表达与钙化的发生进行了比较。通过免疫组织化学观察到,在缺乏结蛋白的心肌中,大量心肌细胞死亡区域以及不同程度钙化和纤维化的高细胞区域均有广泛的骨桥蛋白定位。骨桥蛋白始终与钙化沉积物共定位,这些沉积物逐渐转变为被核心蛋白聚糖包围的砂粒体,尤其是在右心室。这些数据以及观察到的转化生长因子-β1和血管紧张素转换酶的上调,可以解释在缺乏结蛋白的小鼠心脏中观察到的广泛纤维化和营养不良性钙化,这可能是导致心力衰竭的关键事件。