Frigeri A, Nicchia G P, Nico B, Quondamatteo F, Herken R, Roncali L, Svelto M
Dipartimento di Fisiologia Generale ed Ambientale, Università degli Studi di Bari, I-70126 Bari, Italy.
FASEB J. 2001 Jan;15(1):90-98. doi: 10.1096/fj.00-0260com.
We report a detailed study of AQP4 expression in the neuromuscular system of mdx mice. Immunocytochemical analysis performed by double immunostaining revealed that mdx mice manifest a progressive reduction in AQP4 at the sarcolemmal level of skeletal muscle fast fibers and that type IIB fibers are the first to manifest this reduction in AQP4 expression. No labeling was observed in the cytoplasm of muscle fibers, indicating that the reduction in sarcolemma staining is not associated with an intracellular compartmentalization of mistargeted protein. By Western blot and RT-PCR analysis, we found that whereas the total content of AQP4 protein decreased (by 90% in adult mdx mice), mRNA levels for AQP4 remained unchanged. A similar age-related reduction in AQP4 expression was found in brain astrocytic end-feet surrounding capillaries of mdx mice. Morphometric analysis performed after immunogold electron microscopy indicated a reduction of approximately 85% in gold particles (32+/-2/microm vs. 4.7+/-0.61/microm). Western blot experiments conducted using membrane fractions from brain cortex revealed a strong reduction (of 70%) in AQP4 protein in adult mdx mice, and RT-PCR experiments demonstrated that the reduction was not at transcription level. More interesting was the finding that AQP4 reduction was associated with swelling of astrocytic perivascular processes whose ultrastructural modifications are commonly indicated as an important and early event in the development of brain edema. No apparent reduction in AQP4 was found in mdx stomach and kidney. Our data provide evidence that dystrophin deficiency in mdx mice leads to disturbances in AQP4 assembly in the plasma membrane of fast skeletal muscle fibers and brain astrocytic end-feet, suggesting that changes in the osmotic equilibrium of the neuromuscular apparatus may be involved in the pathology of muscular dystrophy.
我们报告了一项关于mdx小鼠神经肌肉系统中AQP4表达的详细研究。通过双重免疫染色进行的免疫细胞化学分析显示,mdx小鼠骨骼肌快肌纤维肌膜水平的AQP4呈进行性减少,且IIB型纤维是最早出现AQP4表达减少的。在肌纤维细胞质中未观察到标记,这表明肌膜染色的减少与错误靶向蛋白的细胞内分隔无关。通过蛋白质免疫印迹法和逆转录-聚合酶链反应分析,我们发现虽然AQP4蛋白的总含量下降(成年mdx小鼠中下降了90%),但AQP4的mRNA水平保持不变。在mdx小鼠毛细血管周围的脑星形胶质细胞终足中也发现了类似的与年龄相关的AQP4表达减少。免疫金电子显微镜检查后的形态计量分析表明,金颗粒减少了约85%(32±2/μm对4.7±0.61/μm)。使用大脑皮层膜组分进行的蛋白质免疫印迹实验显示,成年mdx小鼠中AQP4蛋白强烈减少(减少了70%),逆转录-聚合酶链反应实验表明这种减少并非发生在转录水平。更有趣的是,发现AQP4减少与星形胶质细胞血管周围突起的肿胀有关,其超微结构改变通常被认为是脑水肿发展中的一个重要早期事件。在mdx小鼠的胃和肾中未发现AQP4有明显减少。我们的数据提供了证据,表明mdx小鼠中的肌营养不良蛋白缺乏导致快速骨骼肌纤维和脑星形胶质细胞终足质膜中AQP4组装紊乱,这表明神经肌肉装置渗透平衡的变化可能参与了肌肉营养不良的病理过程。
