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  • 2',3'-cAMP hydrolysis by metal-dependent phosphodiesterases containing DHH, EAL, and HD domains is non-specific: Implications for PDE screening.

2',3'-cAMP hydrolysis by metal-dependent phosphodiesterases containing DHH, EAL, and HD domains is non-specific: Implications for PDE screening.

Biochemical and biophysical research communications (2010-07-06)
Feng Rao, Yaning Qi, Elavazhagan Murugan, Swathi Pasunooti, Qiang Ji
RÉSUMÉ

The recent report of 2',3'-cAMP isolated from rat kidney is the first proof of its biological existence, which revived interest in this mysterious molecule. 2',3'-cAMP serves as an extracellular adenosine source, but how it is degraded remains unclear. Here, we report that 2',3'-cAMP can be hydrolyzed by six phosphodiesterases containing three different families of hydrolytic domains, generating invariably 3'-AMP but not 2'-AMP. The catalytic efficiency (k(cat)/K(m)) of each enzyme against 2',3'-cAMP correlates with that against the widely used non-specific substrate bis(p-nitrophenyl)phosphate (bis-pNPP), indicating that 2',3'-cAMP is a previously unknown non-specific substrate for PDEs. Furthermore, we show that the exclusive formation of 3'-AMP is due to the P-O2' bond having lower activation energy and is not the result of steric exclusion at enzyme active site. Our analysis provides mechanistic basis to dissect protein function when 2',3'-cAMP hydrolysis is observed.

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Sigma-Aldrich
Adenosine 3′-monophosphate, from yeast
Sigma-Aldrich
Adenosine 2′:3′-cyclic monophosphate sodium salt, ≥93%
Sigma-Aldrich
Adenosine 2′(3′)-monophosphate mixed isomers
Sigma-Aldrich
Adenosine 3′-monophosphate sodium salt, from yeast