(Bolyai Research Scholarship of the Hungarian Academy of Sciences) Támogató: MTA Bolyai
pályázat
Új Nemzeti Kiválóság Program
Significance: Cardiovascular disorders are the most important
cause of morbidity and mortality in the Western world. Monogenic developmental disorders
of the heart and vessels are highly valuable to study the physiological and pathological
processes in cardiovascular system homeostasis. The arterial tortuosity syndrome (ATS)
is a rare, autosomal recessive connective tissue disorder showing lengthening, tortuosity,
and stenosis of the large arteries, with a propensity for aneurysm formation. In histopathology,
it associates with fragmentation and disorganization of elastic fibers in several
tissues, including the arterial wall. ATS is caused by pathogenic variants in SLC2A10
encoding the facilitative glucose transporter (GLUT)10. Critical
Issues: Although several hypotheses have been forwarded, the molecular
mechanisms linking disrupted GLUT10 activity with arterial malformations are largely
unknown. Recent Advances: The vascular
and systemic manifestations and natural history of ATS patients have been largely
delineated. GLUT10 was identified as an intracellular transporter of dehydroascorbic
acid, which contributes to collagen and elastin cross-linking in the endoplasmic reticulum,
redox homeostasis in the mitochondria, and global and gene-specific methylation/hydroxymethylation
affecting epigenetic regulation in the nucleus. We revise here the current knowledge
on ATS and the role of GLUT10 within the compartmentalization of ascorbate in physiological
and diseased states. Future Directions:
Centralization of clinical, treatment, and outcome data will enable better management
for ATS patients. Establishment of representative animal disease models could facilitate
the study of pathomechanisms underlying ATS. This might be relevant for other forms
of vascular dysplasia, such as isolated aneurysm formation, hypertensive vasculopathy,
and neovascularization. Antioxid. Redox Signal. 00, 000-000.