ABSTRACT Introduction/Aims Although asymptomatic or pre‐symptomatic Pompe disease is increasingly recognized, early skeletal muscle pathology and the role of residual glycogen at this stage remain unclear. Here, we investigated early muscle pathological changes using human samples and an early‐stage Gaa −/− mouse model, focusing on residual glycogen accumulation. Methods Clinical, genetic, imaging, and muscle pathological analyses were performed in an asymptomatic Pompe disease patient carrying a novel GAA variant. Skeletal muscle samples from asymptomatic and symptomatic patients, as well as from early‐stage and late‐stage Gaa −/− mice, were analyzed using histochemistry, immunohistochemistry, immunofluorescence, and Western blotting to assess residual glycogen accumulation and lysosome‐associated pathways. Results We identified a novel mutation, c.361C > T, in an asymptomatic Pompe disease patient. Despite the lack of symptoms, residual glycogen accumulated in muscle lysosomes. Immunohistochemistry showed positive glycogenin expression, while LAMP1 and LC3 were negative, suggesting early glycogenin detection. Western blot revealed increased glycogenin and STBD1, with mild LAMP1 and LC3 upregulation. In 1‐month‐old Gaa −/− mice, glycogenin, LAMP1, STBD1, and LC3 were all upregulated. Furthermore, immunofluorescence further showed glycogenin/LAMP1 double‐positive muscle fibers in both the patient and mice. Discussion Our study shows that key pathological changes in Pompe disease occur during the asymptomatic stage, with early lysosomal accumulation of residual glycogen. This suggests residual glycogen may serve as a biomarker of early disease activity and a potential target for early intervention, informing disease monitoring and the timing of enzyme replacement therapy (ERT). Further studies are needed to validate its clinical utility and explore strategies for early clearance.
Shi et al. (Wed,) studied this question.