Department of Pathology, Institute of Biomedicine, University of Gothenburg, Gothenburg, Sweden.
N Engl J Med. 2010 Apr 1;362(13):1203-10. doi: 10.1056/NEJMoa0900661.
Glycogen, which serves as a major energy reserve in cells, is a large, branched polymer of glucose molecules. We describe a patient who had muscle weakness, associated with the depletion of glycogen in skeletal muscle, and cardiac arrhythmia, associated with the accumulation of abnormal storage material in the heart. The skeletal muscle showed a marked predominance of slow-twitch, oxidative muscle fibers and mitochondrial proliferation. Western blotting showed the presence of unglucosylated glycogenin-1 in the muscle and heart. Sequencing of the glycogenin-1 gene, GYG1, revealed a nonsense mutation in one allele and a missense mutation, Thr83Met, in the other. The missense mutation resulted in inactivation of the autoglucosylation of glycogenin-1 that is necessary for the priming of glycogen synthesis in muscle.
糖原是细胞内的主要能量储备物质,由葡萄糖分子组成的大型支链聚合物。我们描述了一位患者,其肌肉无力,与骨骼肌中糖原耗竭有关,还有心律失常,与心脏中异常储存物质的积累有关。骨骼肌显示出明显的慢肌纤维和线粒体增殖优势。Western blot 显示肌肉和心脏中存在未糖基化的糖原合酶-1。对糖原合酶-1 基因 GYG1 的测序显示,一个等位基因存在无义突变,另一个等位基因存在 Thr83Met 错义突变。该错义突变导致糖原合酶-1 的自糖基化失活,这对于肌肉中糖原合成的启动是必需的。