Citations to this article

Enzyme replacement with PEGylated cystathionine β-synthase ameliorates homocystinuria in murine model
Erez M. Bublil, … , Viktor Kožich, Jan P. Kraus
Erez M. Bublil, … , Viktor Kožich, Jan P. Kraus
Published May 16, 2016
Citation Information: J Clin Invest. 2016;126(6):2372-2384. https://doi.org/10.1172/JCI85396.
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Enzyme replacement with PEGylated cystathionine β-synthase ameliorates homocystinuria in murine model

Abstract

Homocystinuria, which typically results from cystathionine β-synthase (CBS) deficiency, is the most common defect of sulfur amino acid metabolism. CBS condenses homocysteine and serine to cystathionine that is then converted to cysteine. Individuals with homocystinuria have markedly elevated plasma levels of homocysteine and methionine and reduced concentrations of cystathionine and cysteine. Clinical disease manifestations include thromboembolism and neuropsychiatric, ocular, and skeletal complications. Here, we have shown that administration of PEGylated CBS into the circulation of homocystinuria model mice alters the extra- and intracellular equilibrium of sulfur amino acids, resulting in a decrease of approximately 75% in plasma total homocysteine (tHcy) and normalization of cysteine concentrations. Moreover, the decrease in homocysteine and the normalization of cysteine in PEGylated CBS–treated model mice were accompanied by improvement of histopathological liver symptoms and increased survival. Together, these data suggest that CBS enzyme replacement therapy (ERT) is a promising approach for the treatment of homocystinuria and that ERT for metabolic diseases may not necessitate introduction of the deficient enzyme into its natural intracellular compartment.

Authors

Erez M. Bublil, Tomas Majtan, Insun Park, Richard S. Carrillo, Helena Hůlková, Jakub Krijt, Viktor Kožich, Jan P. Kraus

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Citations to this article (17)

Title and authors Publication Year
Mechanism of action and impact of thiol homeostasis on efficacy of an enzyme replacement therapy for classical homocystinuria
Philipp TM, Bottiglieri T, Clapper W, Liu K, Rodems S, Szabo C, Majtan T 		Redox Biology 2024
Association between homocysteine level and length of stay in patients with lower extremity atherosclerotic disease: a retrospective cohort study
Wang X, Yang Y, Xu L, Yu L, Zang S, Li X 		BMJ Open 2023
Inborn errors of amino acid metabolism - from underlying pathophysiology to therapeutic advances.
Ziegler SG, Kim J, Ehmsen JT, Vernon HJ 		Disease models & mechanisms 2023
Emerging therapeutic approaches to cystathionine beta-synthase-deficient homocystinuria
Majtan T, Kožich V, Kruger WD 		British Journal of Pharmacology 2022
Cystathionine-β-synthase: Molecular Regulation and Pharmacological Inhibition
K Zuhra, F Augsburger, T Majtan, C Szabo 		Biomolecules 2020
The Spectrum of Mutations of Homocystinuria in the MENA Region
DW Al-Sadeq, GK Nasrallah 		Genes & development 2020
Interplay of Enzyme Therapy and Dietary Management of Murine Homocystinuria
I Park, E Bublil, F Glavin, T Majtan 		Nutrients 2020
Behavior, body composition, and vascular phenotype of homocystinuric mice on methionine-restricted diet or enzyme replacement therapy
T Majtan, I Park, A Cox, BR Branchford, J di Paola, EM Bublil, JP Kraus 		The FASEB Journal 2019
Homocystinuria due to cystathionine beta-synthase (CBS) deficiency in Russia: Molecular and clinical characterization
E Voskoboeva, A Semyachkina, M Yablonskaya, E Nikolaeva 		Molecular Genetics and Metabolism Reports 2018
Enzyme Replacement Therapy Ameliorates Multiple Symptoms of Murine Homocystinuria
T Majtan, W Jones, J Krijt, I Park, WD Kruger, V Kožich, S Bassnett, EM Bublil, JP Kraus 		Molecular Therapy 2018
Import of TAT-Conjugated Propionyl Coenzyme A Carboxylase Using Models of Propionic Acidemia
R Collard, T Majtan, I Park, JP Kraus 		Molecular and cellular biology 2018
Hydrogen Sulfide Biochemistry and Interplay with Other Gaseous Mediators in Mammalian Physiology
A Giuffrè, JB Vicente 		Oxidative medicine and cellular longevity 2018
In silico and in vivo models for Qatari-specific classical homocystinuria as basis for development of novel therapies
HM Ismail, N Krishnamoorthy, N Al-Dewik, H Zayed, NA Mohamed, VD Giacomo, S Gupta, J Häberle, B Thöny, HJ Blom, WD Kruger, T Ben-Omran, GK Nasrallah 		Human Mutation 2018
The c.797 G>A (p.R266K) cystathionine β-synthase mutation causes homocystinuria by affecting protein stability: GUPTA et al
S Gupta, L Wang, WD Kruger 		Human Mutation 2017
A Clinically Relevant Variant of the Human Hydrogen Sulfide-Synthesizing Enzyme Cystathionine β -Synthase: Increased CO Reactivity as a Novel Molecular Mechanism of Pathogenicity?
JB Vicente, HG Colaço, F Malagrinò, PE Santo, A Gutierres, TM Bandeiras, P Leandro, JA Brito, A Giuffrè 		Oxidative medicine and cellular longevity 2017
Enzyme replacement prevents neonatal death, liver damage, and osteoporosis in murine homocystinuria
T Majtan, H Hůlková, I Park, J Krijt, V Kožich, EM Bublil, JP Kraus 		The FASEB Journal 2017
Vision of correction for classic homocystinuria
Dwight Koeberl 		Journal of Clinical Investigation 2016

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