Ca II Binding Regulates and Dominates the Reactivity of a Transition‐Metal‐Ion‐Dependent Diesterase from Mycobacterium tuberculosis

The diesterase Rv0805 from Mycobacterium tuberculosis is a dinuclear metallohydrolase that plays an important role in signal transduction by controlling the intracellular levels of cyclic nucleotides. As Rv0805 is essential for mycobacterial growth it is a promising new target for the development of...

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Bibliographic Details
Published in:Chemistry : a European journal 2016-01, Vol.22 (3), p.999-1009
Main Authors: Pedroso, Marcelo M., Larrabee, James A., Ely, Fernanda, Gwee, Shuhui E., Mitić, Nataša, Ollis, David L., Gahan, Lawrence R., Schenk, Gerhard
Format: Article
Language:English
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Summary:The diesterase Rv0805 from Mycobacterium tuberculosis is a dinuclear metallohydrolase that plays an important role in signal transduction by controlling the intracellular levels of cyclic nucleotides. As Rv0805 is essential for mycobacterial growth it is a promising new target for the development of chemotherapeutics to treat tuberculosis. The in vivo metal‐ion composition of Rv0805 is subject to debate. Here, we demonstrate that the active site accommodates two divalent transition metal ions with binding affinities ranging from approximately 50 n m for Mn II to about 600 n m for Zn II . In contrast, the enzyme GpdQ from Enterobacter aerogenes , despite having a coordination sphere identical to that of Rv0805, binds only one metal ion in the absence of substrate, thus demonstrating the significance of the outer sphere to modulate metal‐ion binding and enzymatic reactivity. Ca II also binds tightly to Rv0805 ( K d ≈40 n m ), but kinetic, calorimetric, and spectroscopic data indicate that two Ca II ions bind at a site different from the dinuclear transition‐metal‐ion binding site. Ca II acts as an activator of the enzymatic activity but is able to promote the hydrolysis of substrates even in the absence of transition‐metal ions, thus providing an effective strategy for the regulation of the enzymatic activity.
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201504001