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Microbial peptide de-coppers mitochondria: implications for Wilson disease
Stephen G. Kaler
Stephen G. Kaler
Published June 20, 2016
Citation Information: J Clin Invest. 2016;126(7):2412-2414. https://doi.org/10.1172/JCI88617.
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Microbial peptide de-coppers mitochondria: implications for Wilson disease

Abstract

The severe liver pathology of untreated Wilson disease (WD) is associated with massive copper overload caused by mutations in a liver-specific copper-transporting ATPase, ATP7B. While early, presymptomatic detection and chelation with conventional copper-binding molecules enables effective and life-saving treatment, liver transplantation is the sole option currently available for those with advanced disease. In this issue of the JCI, Lichtmannegger, Leitzinger, and colleagues delineate the therapeutic effect of methanobactin (MB), a potent bacterial copper-binding protein, at three late stages of disease in a WD rat model. Their results suggest that a formal clinical trial of MB in human subjects with severe hepatic pathology caused by WD would be rational.

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Stephen G. Kaler

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Year: 2022 2017 2016 Total
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Citations to this article (3)

Title and authors Publication Year
Crystal structure and catalytic mechanism of the MbnBC holoenzyme required for methanobactin biosynthesis
C Dou, Z Long, S Li, D Zhou, Y Jin, L Zhang, X Zhang, Y Zheng, L Li, X Zhu, Z Liu, S He, W Yan, L Yang, J Xiong, X Fu, S Qi, H Ren, S Chen, L Dai, B Wang, W Cheng 		Cell Research 2022
Methanobactins: from genome to function
LM Dassama, GE Kenney, AC Rosenzweig 		Metallomics 2017
An Aminotransferase is Responsible for the Deamination of the N-terminal Leucine and Required for Formation of Oxazolone Ring A in Methanobactin of Methylosinus trichosporium OB3b
W Gu, BS Baral, AA DiSpirito, JD Semrau 		Applied and environmental microbiology 2016

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