Abstract
ContextGlycogenin is considered to be an essential primer for glycogen biosynthesis. Nevertheless, patients with glycogenin-1 deficiency due to biallelic GYG1 (NM_004130.3) mutations can store glycogen in muscle. Glycogenin-2 has been suggested as an alternative primer for glycogen synthesis in patients with glycogenin-1 deficiency.ObjectiveThe objective of this article is to investigate the importance of glycogenin-1 and glycogenin-2 for glycogen synthesis in skeletal and cardiac muscle.Design, Setting, and PatientsGlycogenin-1 and glycogenin-2 expression was analyzed by Western blot, mass spectrometry, and immunohistochemistry in liver, heart, and skeletal muscle from controls and in skeletal and cardiac muscle from patients with glycogenin-1 deficiency.ResultsGlycogenin-1 and glycogenin-2 both were found to be expressed in the liver, but only glycogenin-1 was identified in heart and skeletal muscle from controls. In patients with truncating GYG1 mutations, neither glycogenin-1 nor glycogenin-2 was expressed in skeletal muscle. However, nonfunctional glycogenin-1 but not glycogenin-2 was identified in cardiac muscle from patients with cardiomyopathy due to GYG1 missense mutations. By immunohistochemistry, the mutated glycogenin-1 colocalized with the storage of glycogen and polyglucosan in cardiomyocytes.ConclusionsGlycogen can be synthesized in the absence of glycogenin, and glycogenin-1 deficiency is not compensated for by upregulation of functional glycogenin-2. Absence of glycogenin-1 leads to the focal accumulation of glycogen and polyglucosan in skeletal muscle fibers. Expression of mutated glycogenin-1 in the heart is deleterious, and it leads to storage of abnormal glycogen and cardiomyopathy.
Highlights
Glycogenin-1 and glycogenin-2 both were found to be expressed in the liver, but only glycogenin-1 was identified in heart and skeletal muscle from controls
Nonfunctional glycogenin-1 but not glycogenin-2 was identified in cardiac muscle from patients with cardiomyopathy due to GYG1 missense mutations
Expression of mutated glycogenin-1 in the heart is deleterious, and it leads to storage of abnormal glycogen and cardiomyopathy
Summary
ParticipantsThis study included biopsy specimens from 5 previously described unrelated patients with biallelic pathogenic GYG1 mutations [5,6,7, 15]. Skeletal muscle specimens from Pt1, Pt2, and Pt3 were obtained by open biopsy. Cardiac muscle specimens were obtained by endomyocardial biopsy and heart explants after transplantation in Pt4 and Pt5. Control skeletal muscle (M1, M2, and M3) included muscle biopsy specimens from individuals who had been investigated for a possible muscle disorder but in whom the investigation excluded muscle disease. There were control cardiac muscles from 2 individuals with no apparent cardiac disease who had donated their hearts for transplantation, but who had been excluded (H1 and H2). Two additional cardiac muscle controls (H3 and H4) were from explanted hearts in patients with dilated cardiomyopathy. The liver and muscle specimens used as immunohistochemical staining controls were obtained from routine diagnostic work at Sahlgrenska University Hospital, Gothenburg, Sweden
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