A CBS domain-containing pyrophosphatase of Moorella thermoacetica is regulated by adenine nucleotides
Résumé
Cystathionine-β-synthase (CBS) domains are found in proteins from all kingdoms of life, and point mutations in these domains are responsible for a variety of hereditary diseases in humans; however, the functions of CBS domains are not well understood. Here, we cloned, expressed in Escherichia coli, and characterized a family II inorganic pyrophosphatase (PPase) from Moorella thermoacetica (mtCBS-PPase) that has a pair of tandem 60-amino acid CBS domains within its N-terminal domain. Because mtCBS-PPase is a dimer and requires transition metal ions (Co 2+} or Mn 2+}) for activity, it resembles common family II PPases, which lack CBS domains. The mtCBS-PPase, however, has lower activity than common family II PPases, is potently inhibited by ADP and AMP, and is activated up to 1.6-fold by ATP. Inhibition by AMP is competitive whereas inhibition by ADP and activation by ATP are both of mixed types. The nucleotides are effective at nanomolar (ADP) or micromolar concentrations (AMP and ATP) and appear to compete for the same site on the enzyme. The nucleotide binding affinities are thus 100- to 10,000-fold higher than for other CBS domain-containing proteins. Interestingly, genes encoding CBS-PPase occur most frequently in bacteria that have a membrane-bound H +}-translocating PPase with a comparable PP i}-hydrolyzing activity. Our results suggest that soluble nucleotide-regulated PPases act as amplifiers of metabolism in M. thermoacetica by enhancing or suppressing ATP production and biosynthetic reactions at high and low [ATP]/([AMP] + [ADP]) ratios, respectively.
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