Bore Raju scite author profile

The previously developed chelator O-aminophenol-N,N,O-triacetic acid (APTRA) (L. A. Levy, E. Murphy, B. Raju, and R. E. London. Biochemistry 27: 4041-4048, 1988) has been modified to yield a fluorescent analogue which can be utilized as an intracellular probe for ionized Mg2+. The fluorescent analogue, FURAPTRA, with a magnesium dissociation constant of 1.5 mM, is structurally analogous to the calcium chelator fura-2 and exhibits a similar excitation shift on magnesium complexation. Hence, data on the intracellular Mg2+ concentration can be obtained using an analogous ratio method. The acetoxymethyl form of the chelator is readily loaded into cells and has been used to determine a cytosolic free Mg2+ concentration of 0.59 mM for isolated rat hepatocytes. As a consequence of the relatively high levels of cytosolic Mg2+, the problem of ion buffering is much less severe than for the analogous calcium indicators.

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Measurement of cytosolic free magnesium ion concentration by fluorine-19 NMR

Levy

Murphy²,

Raju³

et al. 1988

Biochemistry

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Fluorinated derivatives of the chelator o-aminophenol-N,N,O-triacetic acid (APTRA) have been developed, synthesized, and analyzed for use as 19F NMR indicators of free cytosolic magnesium concentration. Magnesium dissociation constants for the 4-fluoro, 5-fluoro, and 4-methyl-5-fluoro species were determined to be 3.1, 0.9, and 0.6 mM, respectively, on the basis of UV absorption measurements at 37 degrees C in 115 mM KCl and 20 mM NaCl, pH 7.1, buffered with 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid-tris-(hydroxymethyl)aminomethane. The corresponding pK values, which reflect protonation of the nitrogen atom, were determined by 19F NMR to be 4.15, 5.45, and 5.55, respectively, so that the chelators are insensitive to pH variations near the normal physiological range. The dissociation constants of these chelators for calcium ions are lower than those for magnesium but roughly 2-3 orders of magnitude above typical basal cytosolic free calcium levels, so that calcium ions will not interfere with the determinations of magnesium levels. 19F NMR studies carried out at 339.7 MHz indicate that magnesium ions are in slow exchange with the 5-fluoro and 4-methyl-5-fluoro APTRA derivatives and in fast exchange with the 4-fluoro APTRA derivative. In contrast, calcium ions were found to be in intermediate to fast exchange with all chelators. The apparent anomaly of higher thermodynamic stability of the APTRA complexes for calcium relative to magnesium but lower kinetic stability (higher k-1 values) for the calcium complexes reflects the very different association rates for the two ions. Thus, the magnesium association rates are 3 orders of magnitude slower than those for calcium ions.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cytosolic Free Magnesium Levels in Ischemic Rat Heart

Murphy

Steenbergen

Levy

et al. 1989

Journal of Biological Chemistry

215

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Measurement of cytosolic calcium using 19F NMR.

Murphy

Levy

Raju

et al. 1990

Environ Health Perspect

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Fluorine-19 nuclear magnetic resonance (NMR) studies of cells and perfused organs loaded with fluorinated ion chelators represent a new approach to determining cytosolic free calcium levels in situ. The molecular basis for this approach and the relative advantages and disadvantages of the NMR technique are discussed in this paper. Results obtained on perfused normoxic and ischemic rat hearts are presented, indicating that ischemia is associated with an elevation in the level of cytosolic free calcium before the onset of irreversible cell injury. The results are therefore consistent with this elevation playing a causative role in the mediation of myocardial cell injury resulting from ischemia.

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Cytosolic free magnesium concentration in cultured chick heart cells

Rotevatn

Murphy

Levy

et al. 1989

American Journal of Physiology-Cell Physiology

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Cytosolic free magnesium (Mgi) was measured in embryonic chick heart cells loaded with one of two newly developed 19F nuclear magnetic reasonance (NMR)-sensitive magnesium chelators, 4-methyl,5-fluoro-2-aminophenol-N,N,O-triacetate (MF-APTRA) and 5-fluoro-2-aminophenol-N,N,O-triacetate (5F-APTRA). The cells, embedded in strands of collagen, were superfused at a rate that allowed for solution changes in 2 min. In this preparation 19F- and 31P-NMR spectra were stable for at least 3.5 h. Because Na-coupled Mg countertransport may be a possible mechanism of Mg transport, in some experiments extracellular Na was reduced to 1 mM (choline substituted). This manipulation caused a 2.5-fold increase in Mgi from the basal level of 0.56 mM. A significant proportion of this increase in Mgi could be secondary to an increase in Cai that occurs with low extracellular Na (Nao) perfusion (Nai-Cao exchange). Perfusing cells with nominally Ca-free, 1 mM Na salt solution substantially attenuated the increase in Mgi that occurred with Ca present (1.25 mM) in the low Na (1 mM) solution. Furthermore, perfusion with 1 mM Na, Mg-free salt solution caused a 1.5-fold increase in Mgi, which cannot be attributable to Nai-Mgo exchange. Therefore attempts to describe the regulation of Mgi in heart cells must differentiate between the effects of Nai-Mgo exchange and competition for binding sites that are secondary to stimulation of ion gradient-coupled mechanisms.

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Bore Raju

A fluorescent indicator for measuring cytosolic free magnesium

Measurement of cytosolic free magnesium ion concentration by fluorine-19 NMR

Cytosolic Free Magnesium Levels in Ischemic Rat Heart

Measurement of cytosolic calcium using 19F NMR.

Cytosolic free magnesium concentration in cultured chick heart cells

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