Characterization of M. tuberculosis SerB2, an essential HAD-family phosphatase, reveals novel properties

Characterization of M. tuberculosis SerB2, an essential HAD-family phosphatase, reveals novel properties

M. tuberculosis harbors an essential phosphoserine phosphatase (MtSerB2, Rv3042c) that contains two small- molecule binding ACT-domains (Pfam 01842) at the N-terminus followed by the phosphoserine phosphatase (PSP) domain. We found that exogenously added MtSerB2 elicits microtubule rearrangements in...

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Bibliographic Details
Published in:PloS one Vol. 9; no. 12; p. e115409
Main Authors: Yadav, Gaya Prasad, Shree, Sonal, Maurya, Ruchi, Rai, Niyati, Singh, Diwakar Kumar, Srivastava, Kishore Kumar, Ramachandran, Ravishankar
Format: Journal Article
Language:English
Published: United States Public Library of Science 18-12-2014
Public Library of Science (PLoS)
Subjects:
Amino Acid Sequence
Amino acids
Binding
Binding Sites
Biology
Biology and Life Sciences
Calorimetry
Chemical properties
Chromatography
E coli
Enzymatic activity
Enzyme activity
Enzyme Inhibitors - pharmacology
Enzymes
Experiments
Feedback control
Genomics
Inhibitors
Kinases
L-Serine
Ligands
Molecular Docking Simulation
Molecular Sequence Data
Mutation
Mycobacterium tuberculosis - enzymology
N-Terminus
Oligomers
Pathogens
Phosphatase
Phosphatases
Phosphoric Monoester Hydrolases - antagonists & inhibitors
Phosphoric Monoester Hydrolases - chemistry
Phosphoric Monoester Hydrolases - genetics
Phosphoric Monoester Hydrolases - metabolism
Phosphoserine
Phosphoserine phosphatase
Porphyromonas gingivalis
Protein Binding
Proteins
Signal transduction
Size exclusion chromatography
Tuberculosis
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Summary:M. tuberculosis harbors an essential phosphoserine phosphatase (MtSerB2, Rv3042c) that contains two small- molecule binding ACT-domains (Pfam 01842) at the N-terminus followed by the phosphoserine phosphatase (PSP) domain. We found that exogenously added MtSerB2 elicits microtubule rearrangements in THP-1 cells. Mutational analysis demonstrates that phosphatase activity is co-related to the elicited rearrangements, while addition of the ACT-domains alone elicits no rearrangements. The enzyme is dimeric, exhibits divalent metal- ion dependency, and is more specific for l- phosphoserine unlike other classical PSPases. Binding of a variety of amino acids to the ACT-domains influences MtSerB2 activity by either acting as activators/inhibitors/have no effects. Additionally, reduced activity of the PSP domain can be enhanced by equimolar addition of the ACT domains. Further, we identified that G18 and G108 of the respective ACT-domains are necessary for ligand-binding and their mutations to G18A and G108A abolish the binding of ligands like l- serine. A specific transition to higher order oligomers is observed upon the addition of l- serine at ∼0.8 molar ratio as supported by Isothermal calorimetry and Size exclusion chromatography experiments. Mutational analysis shows that the transition is dependent on binding of l- serine to the ACT-domains. Furthermore, the higher-order oligomeric form of MtSerB2 is inactive, suggesting that its formation is a mechanism for feedback control of enzyme activity. Inhibition studies involving over eight inhibitors, MtSerB2, and the PSP domain respectively, suggests that targeting the ACT-domains can be an effective strategy for the development of inhibitors.
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Conceived and designed the experiments: GPY SS KKS RR. Performed the experiments: GPY SS RM NR DKS RR. Analyzed the data: GPY SS KKS RR. Wrote the paper: GPY SS KKS RR.
Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0115409