α-galactosidase A deficiency promotes von Willebrand factor secretion in models of Fabry disease

Kang, Justin; Kaissarian, Nayiri; Desch, Karl C.; Kelly, Robert J.; Shu, Liming; Bodary, Peter F.; Shayman, James A.

doi:10.1016/j.kint.2018.08.033

Cited by 18 publications

(7 citation statements)

References 61 publications

(83 reference statements)

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“…Increased reactive oxygen species (ROS) and decreased nitric oxide (NO) also contribute to endothelial damage [24][25][26]. A different hypothesis about the development of vasculopathy, proposes that the accumulation of endothelial Gb3 causes a dysregulation of the enzyme nitric oxide endothelial synthase (eNOS) with the consequent formation of oxidant species derived from NO, which could be direct markers of vasculopathy in FD [27][28][29][30][31][32][33][34]. In addition, Gb3 could also contribute to endothelial damage from other different pathogenic mechanisms related to KCa3.1 channel dysfunction [35,36].…”

Section: Pathogenesismentioning

confidence: 99%

Biomarkers in Fabry Disease. Implications for Clinical Diagnosis and Follow-up

Carnicer-Cáceres

Arranz-Amo

Cea-Arestin

et al. 2021

JCM

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Fabry disease (FD) is a lysosomal storage disorder caused by deficient alpha-galactosidase A activity in the lysosome due to mutations in the GLA gene, resulting in gradual accumulation of globotriaosylceramide and other derivatives in different tissues. Substrate accumulation promotes different pathogenic mechanisms in which several mediators could be implicated, inducing multiorgan lesions, mainly in the kidney, heart and nervous system, resulting in clinical manifestations of the disease. Enzyme replacement therapy was shown to delay disease progression, mainly if initiated early. However, a diagnosis in the early stages represents a clinical challenge, especially in patients with a non-classic phenotype, which prompts the search for biomarkers that help detect and predict the evolution of the disease. We have reviewed the mediators involved in different pathogenic mechanisms that were studied as potential biomarkers and can be easily incorporated into clinical practice. Some accumulation biomarkers seem to be useful to detect non-classic forms of the disease and could even improve diagnosis of female patients. The combination of such biomarkers with some response biomarkers, may be useful for early detection of organ injury. The incorporation of some biomarkers into clinical practice may increase the capacity of detection compared to that currently obtained with the established diagnostic markers and provide more information on the progression and prognosis of the disease.

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Section: Pathogenesismentioning

confidence: 99%

Biomarkers in Fabry Disease. Implications for Clinical Diagnosis and Follow-up

Carnicer-Cáceres

Arranz-Amo

Cea-Arestin

et al. 2021

JCM

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“…Proinflammatory cytokines have been implicated as a predisposing factor for thrombosis [68], stimulating the release of soluble prothrombotic markers, such as von Willebrand factor, and upregulating the expression of endothelial adhesion molecules [69,70]. In fact, both increases in von Willebrand factor and the expression of endothelial adhesion molecules have been observed in patients and mouse models of the disease [71,72]. Gb3 accumulation also promotes cell death pathways [73].…”

Section: Mechanisms Of Pathogenesismentioning

confidence: 99%

Progress in the understanding and treatment of Fabry disease

Miller

Kanack

Dahms

2020

Biochimica et Biophysica Acta (BBA) - General Subjects

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Background: Fabry disease is caused by α-galactosidase A deficiency. Substrates of this lysosomal enzyme accumulate, resulting in cellular dysfunction. Patients experience neuropathic pain, kidney failure, heart disease, and strokes. Scope of review:The clinical picture and molecular features of Fabry disease are described, along with updates on disease mechanisms, animal models, and therapies.Major conclusions: How the accumulation of α-galactosidase A substrates, mainly glycosphingolipids, leads to organ damage is incompletely understood. Enzyme replacement and chaperone therapies are clinically available to patients, while substrate reduction, mRNA-based, and gene therapies are on the horizon. Animal models exist to optimize these therapies and elucidate disease mechanisms for novel treatments.General significance: Recent newborn screening studies demonstrate that Fabry disease is the most common lysosomal storage disease. As many countries now include Fabry disease in their screening panels, the number of identified patients is expected to increase significantly. Better knowledge of disease pathogenesis is needed to improve treatment options.

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“…There is a procoagulant and proinflammatory status in patients with FD manifested by endothelial cell activation, increased release of microparticles, activation of plasminogen, and, in some patients, elevation of D-dimer-products of fibrinogen breakdown [15] , [64] , [65] . In addition there is evidence of dysfunctional platelets favouring thrombosis and higher secretion of von Willebrand factor by endothelial cells in FD models [66] .…”

Section: Inflammation and Thrombosismentioning

confidence: 99%

Fabry disease patients have an increased risk of stroke in the COVID-19 ERA. A hypothesis

2020

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Stroke is a severe and frequent complication of Fabry disease (FD), affecting both males and females. Cerebrovascular complications are the end result of multiple and complex pathophysiology mechanisms involving endothelial dysfunction and activation, development of chronic inflammatory cascades leading to a prothrombotic state in addition to cardioembolic stroke due to cardiomyopathy and arrhythmias. The recent coronavirus disease 2019 outbreak share many overlapping deleterious pathogenic mechanisms with those of FD and therefore we analyze the available information regarding the pathophysiology mechanisms of both disorders and hypothesize that there is a markedly increased risk of ischemic and hemorrhagic cerebrovascular complications in Fabry patients suffering from concomitant SARS-CoV-2 infections.

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α-galactosidase A deficiency promotes von Willebrand factor secretion in models of Fabry disease

Cited by 18 publications

References 61 publications

Biomarkers in Fabry Disease. Implications for Clinical Diagnosis and Follow-up

Biomarkers in Fabry Disease. Implications for Clinical Diagnosis and Follow-up

Progress in the understanding and treatment of Fabry disease

Fabry disease patients have an increased risk of stroke in the COVID-19 ERA. A hypothesis

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