Proton-in-flight mechanism for the spontaneous hydrolysis of N-methyl O-phenyl sulfamate: implications for the design of steroid sulfatase inhibitors.

David R Edwards, Richard Wolfenden

Index: J. Org. Chem. 77(9) , 4450-3, (2012)

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Abstract

The hydrolysis of N-methyl O-phenyl sulfamate (1) has been studied as a model for steroid sulfatase inhibitors such as Coumate, 667 Coumate, and EMATE. At neutral pH, simulating physiological conditions, hydrolysis of 1 involves an intramolecular proton transfer from nitrogen to the bridging oxygen atom of the leaving group. Remarkably, this proton transfer is estimated to accelerate the decomposition of 1 by a factor of 10(11). Examination of existing kinetic data reveals that the sulfatase PaAstA catalyzes the hydrolysis of sulfamate esters with catalytic rate accelerations of ~10(4), whereas the catalytic rate acceleration generated by the enzyme for its cognate substrate is on the order of ~10(15). Rate constants for hydrolysis of a wide range of sulfuryl esters, ArOSO(2)X(-), are shown to be correlated by a two-parameter equation based on pK(a)(ArOH) and pK(a)(ArOSO2XH).