Establishing 3-nitrotyrosine as a biomarker for the vasculopathy of Fabry disease.

[fabry disease]

The endothelial dysfunction of Fabry disease results from Î±-galactosidase A deficiency leading to the accumulation of globotriaosylceramide . Vasculopathy in the Î±-galactosidase A null mouse is manifested as oxidant-induced thrombosis , accelerated atherogenesis , and impaired arterial reactivity . To better understand the pathogenesis of Fabry disease in humans , we generated a human cell model by using RNA interference . Hybrid endothelial cells were transiently transfected with small interfering RNA (siRNA ) specifically directed against Î±-galactosidase A . Knockdown of Î±-galactosidase A was confirmed using immunoblotting and globotriaosylceramide accumulation . Endothelial nitric oxide synthase (eNOS ) activity was correspondingly decreased by >60 %. Levels of 3 -nitrotyrosine (3 NT ), a specific marker for reactive nitrogen species and quantified using mass spectrometry , increased by 40 - to 120 -fold without corresponding changes in other oxidized amino acids , consistent with eNOS-derived reactive nitrogen species as the source of the reactive oxygen species . eNOS uncoupling was confirmed by the observed increase in free plasma and protein-bound aortic 3 NT levels in the Î±-galactosidase A knockout mice . Finally , 3 NT levels , assayed in biobanked plasma samples from patients with classical Fabry disease , were over sixfold elevated compared with age- and gender-matched controls . Thus , 3 NT may serve as a biomarker for the vascular involvement in Fabry disease .

Diseases
Validation

Diseases presenting "vascular involvement" symptom

erdheim-chester disease

fabry disease

malignant atrophic papulosis

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