Uranium Exerts Acute Toxicity by Binding to Pyrroloquinoline Quinone Cofactor

Overview

Journal Environ Sci Technol

Publisher American Chemical Society

Specialty Environmental Health

Date 2010 Dec 21

PMID 21166389

Citations 7

Authors

Michael R VanEngelen

Robert K Szilagyi

Robin Gerlach

Brady D Lee

William A Apel

Brent M Peyton

Affiliations

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Abstract

Uranium as an environmental contaminant has been shown to be toxic to eukaryotes and prokaryotes; however, no specific mechanisms of uranium toxicity have been proposed so far. Here a combination of in vivo, in vitro, and in silico studies are presented describing direct inhibition of pyrroloquinoline quinone (PQQ)-dependent growth and metabolism by uranyl cations. Electrospray-ionization mass spectroscopy, UV-vis optical spectroscopy, competitive Ca(2+)/uranyl binding studies, relevant crystal structures, and molecular modeling unequivocally indicate the preferred binding of uranyl simultaneously to the carboxyl oxygen, pyridine nitrogen, and quinone oxygen of the PQQ molecule. The observed toxicity patterns are consistent with the biotic ligand model of acute metal toxicity. In addition to the environmental implications, this work represents the first proposed molecular mechanism of uranium toxicity in bacteria, and has relevance for uranium toxicity in many living systems.

Citing Articles

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Interaction of Uranium with Bacterial Cell Surfaces: Inferences from Phosphatase-Mediated Uranium Precipitation.

Kulkarni S, Misra C, Gupta A, Ballal A, Apte S Appl Environ Microbiol. 2016; 82(16):4965-74.

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Identification of Bacteria Synthesizing Ribosomal RNA in Response to Uranium Addition During Biostimulation at the Rifle, CO Integrated Field Research Site.

McGuinness L, Wilkins M, Williams K, Long P, Kerkhof L PLoS One. 2015; 10(9):e0137270.

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Metals other than uranium affected microbial community composition in a historical uranium-mining site.

Sitte J, Loffler S, Burkhardt E, Goldfarb K, Buchel G, Hazen T Environ Sci Pollut Res Int. 2015; 22(24):19326-41.

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Modulation of medium pH by Caulobacter crescentus facilitates recovery from uranium-induced growth arrest.

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