Are histidine rings the main potential sites of the interaction between proteins and the fluorescent Mg2+ indicator Mag-indo l?

Mag-indo1 affinity for Ca(2+), compartmentalization and binding to proteins: the challenge of measuring Mg(2+) concentrations in living cells

A physicochemical study of the Mag-indo1 binding to Ca(2+) in solution showed that: (i) the characteristic fluorescence spectra of Ca(2+)-bound and Mg(2+)-bound Mag-indo1 are identical; (ii) two successive equilibria occur for increasing Ca(2+) concentrations; and (iii) the value of the dissociation constant of the first one, as determined by using a probe dilution protocol, amounts to 780 nM. In order to investigate the fluorescence level of Mag-indo1 trapped in cell organelles, fluorescence spectra of Mag-indo1-loaded fibroblasts were recorded before and after a digitonin permeabilization. Their resolution into cation-bound, protein-bound, and free Mag-indo1 characteristic spectra allowed measurement of the fluorescence intensities of these species. The intensities emitted from whole cells were compared to those emitted from organelles (assumed to be endoplasmic reticulum according to a DiOC(6) loading). The cation-bound Mag-indo1 fluorescence resulted partially (20 to 50%) from the cytosol for 30% of the cells, and totally from compartments for 70% of the cells. We found a concentration value of 500 nM for compartmentalized Ca(2+) and concluded that the Mag-indo1 binding to Ca(2+) is likely to affect drastically the Mg(2+) concentration measurements in cells. Moreover, we showed that the amount variation of protein-bound Mag-indo1 also affects Mg(2+) measurements when using the two-wavelength ratio method.

Interaction of a protein, BSA, and a fluorescent probe, Mag-Indo-1, influence of EDTA and calcium on the equilibrium

Recent findings indicate that ion-chelator probes with tetracarboxylate structure bind proteins. It was suggested that these fluorescent probes are valuable tools to gain information on protein structure through the energy transfer from tryptophans to the bound probe. Here, the binding of the fluorescent probe Mag-Indo-1 to bovine serum albumin (BSA) was investigated. Mag-Indo-1 was reported previously to serve as a probe for magnesium cations (Kd = 2.8 x 10(-4) M for zero ionic strength) which can also interact with calcium cations (Kd = 7.5 x 10(-7) M). Probe complexation with protein results in a shift of the emission fluorescence spectrum of the probe from 480 to 457 nm. We used emission fluorescence techniques to monitor this interaction. Computational resolution of the complex fluorescence spectra and a new software to test the theoretical model were developed in our laboratory. This enabled us to calculate the number of interacting sites and the dissociation constants. The fluorescent probe Mag-Indo-1 binds at a singular site with high affinity (Kd = 1.8 x 10(-7) M) to bovine serum albumin (BSA). Since proteins are known to bind several compounds unspecifically, we have studied the influence of EDTA as a competitor of the probe. Our findings suggest that the BSA binding site is identical for both Mag-Indo-1 and EDTA. We found that EDTA binds the protein with Kd = 0.4 x 10(-3) M. We studied the influence of calcium and found that Mag-Indo-1 does not bind the calcium free Apo-protein anymore.