Catalytic and regulatory roles of species involved in metal-nucleotide equilibriums in human pyridoxal kinase

Navarro, F; Ramirez-Sarmiento, CA; Guixe, V

Abstract

Pyridoxal 5'-phosphate is the active form of vitamin B-6 and its deficiency is directly related with several human disorders, which make human pyridoxal kinase (hPLK) an important pharmacologic target. In spite of this, a carefully kinetic characterization of hPLK including the main species that regulates the enzymatic activity is at date missing. Here we analyse the catalytic and regulatory mechanisms of hPLK as a function of a precise determination of the species involved in metal-nucleotide equilibriums and describe new regulatory mechanisms for this enzyme. hPLK activity is supported by several metals, being Zn2+ the most effective, although the magnitude of the effect observed is highly dependent on the relative concentrations of metal and nucleotide used. The true substrate for the reaction catalyzed by hPLK is the metal nucleotide complex, while ATP(4-) and HATP(3-) did not affect the activity. The enzyme presents substrate inhibition by both pyridoxal (PL) and ZnATP(2-), although the latter behaves as a weakly inhibitor. Our study also established, for the first time, a dual role for free Zn2+; as an activator at low concentrations (19 mu M optimal concentration) and as a potent inhibitor with a IC50 of 37 mu M. These results highlighted the importance of an accurate estimation of the actual concentration of the species involved in metal-nucleotide equilibriums in order to obtain reliable values for the kinetic parameters, and for determine the true regulators of the PLK activity. They also help to explain the dissimilar kinetic parameters reported in the literature for this enzyme.

Más información

Título según WOS: Catalytic and regulatory roles of species involved in metal-nucleotide equilibriums in human pyridoxal kinase
Título según SCOPUS: Catalytic and regulatory roles of species involved in metal-nucleotide equilibriums in human pyridoxal kinase
Título de la Revista: BIOMETALS
Volumen: 26
Número: 5
Editorial: Springer
Fecha de publicación: 2013
Página de inicio: 805
Página final: 812
Idioma: English
URL: http://link.springer.com/10.1007/s10534-013-9660-0
DOI:

10.1007/s10534-013-9660-0

Notas: ISI, SCOPUS