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  • Organic vanadium chelators potentiate vanadium-evoked glucose metabolism in vitro and in vivo: establishing criteria for optimal chelators.

Organic vanadium chelators potentiate vanadium-evoked glucose metabolism in vitro and in vivo: establishing criteria for optimal chelators.

Molecular pharmacology (2000-09-22)
I Goldwaser, S Qian, E Gershonov, M Fridkin, Y Shechter
ABSTRACT

Several ligands, when complexed with vanadium, potentiate its insulinomimetic activity both in vivo and in vitro. We have recently found that L-Glu-gamma-monohydroxamate (HXM) and L-Asp(beta)HXM were especially potent in this regard. In the present study, we used vanadium-enriched adipose cells and cell-free experimental systems to determine the features of L-Glu(gamma)HXM and L-Asp(beta)HXM that turn these ligands into optimal-synergizing vanadium chelators. We found that L-Glu(gamma)HXM and L-Asp(beta)(HXM) possess the following characteristics: 1) They associate with vanadium(+5) at pH 7.2 within a narrow range of an apparent formation constant of 1.3 to 1.9 x 10(2) M(-1); 2) they have nearly the same binding affinity for the vanadyl(+4) cation and the vanadate(+5) anion at physiological pH values; and 3) they form intense ultraviolet absorbing complexes upon associating with vanadium(+4) at 1 and 3 M stoichiometry, respectively, at pH 3.0. Vanadium ligands lacking any of these three defined criteria synergize less effectively with vanadium to activate glucose metabolism.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
L-Glutamic acid γ-monohydroxamate