Andrew L. Shorter scite author profile

Nordihydroguaiaretic acid (NDGA), one of the most efficient inhibitors of lipoxygenases, is shown, by electron paramagnetic resonance, circular dichroism, and fluorescence studies, to reduce the catalytically active ferric soybean lipoxygenase 1 (Eox) to the inactive ferrous form (Ered). In decreasing order of reactivity, the following also reduce Eox: catechol greater than hydroquinone greater than 2,6-di-tert-butyl-4-methylphenol greater than esculetin greater than caffeic acid approximately equal to alpha-tocopherol greater than norepinephrine greater than dithiothreitol. The reduction of Eox by NDGA (kappa = 8.1 X 10(6) M-1 S-1, pH 9.0, 25 degrees C) is almost as fast as the Eox-catalyzed conversion of linoleate (LH) to 13(S)-hydroperoxy-9(Z), 11(E)-octadecadienoate (LOOH) and the oxidation of Ered by LOOH to give Eox. Thus, NDGA can efficiently inhibit the Eox-catalyzed conversion of LH to LOOH by reducing Eox to the inactive Ered, thereby diminishing the turnover rate. Lipoxygenase catalyzes the oxidation of NDGA by LOOH at a rate that is consistent with the independently determined rate constant for the reduction of Eox by NDGA. All four reducing equivalents from the two catechol groups in NDGA can be utilized in the reduction of Eox, leading to the consumption of 4 mol of LOOH/mol of NDGA initially present. Because the catalytically inactive Ered is oxidized by fatty acid hydroperoxides (e.g., LOOH) to give the active Eox, reducing agents such as NDGA are most effective as lipoxygenase inhibitors at low hydroperoxide concentrations. Our results suggest that in vivo, where lipid hydroperoxides are maintained at low steady-state levels, reduction of lipoxygenase from the ferric to ferrous state may be important in the regulation of lipoxygenase activity and hence leukotriene biosynthesis.

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Preparation and configurational analysis of the stereoisomers of .beta.,.gamma.-bidentate Rh(H2O)4ATP and .alpha.,.beta.,.gamma.-tridentate Rh(H2O)3ATP. A new class of enzyme active site probes

Lu¹,

Shorter²,

Lin³

et al. 1988

Inorg. Chem.

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The results show that (OP)2Cu+ reacts with 0-hydroxyl radicals to form intermediates with copper-carbon -bonds, which decompose via 0-hydroxyl elimination reactions. It will be very interesting to find out whether (OP)2Cu+ reacts also with free radicals formed in biological systems to produce transients with copper-carbon -bonds. If this is the case, one of the routes for biological damage may occur through such intermediates.Acknowledgment. This study was supported by The Council of Tobacco Research, The Israel Academy of Science, The Israel USA BNF, The Israel Atomic Energy Commission, and the Planning and Granting Committee of the Council of Higher Education. We wish to thank D. Carmi, Y. Nehemia, and Y. Nahon for technical assistance. D.M. wishes to thank I. Evans for her interest and support.

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Kinetics of reduction of ferrichrome and ferrichrome A by chromium(II), europium(II), vanadium(II), and dithionite

Kazmi¹,

Shorter²,

McArdle³

1984

Inorg. Chem.

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Structural and biochemical properties of bidentate tetraaquarhodium(III) complexes of inorganic pyrophosphate and adenosine 5'-diphosphate

Shorter¹,

Haromy²,

Scalzo-Brush³

et al. 1987

Biochemistry

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The structural and biochemical properties of the alpha,beta-bidentate tetraaquarhodium(III) complexes of inorganic pyrophosphate [Rh(H2O)4PP] and adenosine diphosphate [Rh(H2O)4ADP] are examined. These Rh(III) complexes are exchange-inert analogues of the corresponding physiologically important MgIIPP and MgIIADP complexes. The crystal structure of [Rh(H2O)4H2P2O7]+Cl- shows that the six-membered chelate ring adopts a twist-boat conformation with an unusually high puckering amplitude of 0.756 (3) A. The Rh coordination distances average 2.02 (1) A, while the bridge P-O bonds are virtually equal in length. All 10 protons of the complex participate in hydrogen bonding. There are two intramolecular hydrogen bonds between the phosphate oxygen atoms and the axially coordinated water molecules. The Rh(H2O)4PP complex was found to be a substrate for yeast inorganic pyrophosphatase, with Ki = 0.063 (7) mM and Vm = 500 (100) min-1. The two screw sense isomers of Rh(H2O)4ADP were prepared from (Rp)-[alpha-16O,18O]ADP and assigned configuration on the basis of the magnitude of their 31P NMR isotopic chemical shifts. The Rh(H2O)4ADP complex binds a number of kinases as tightly as MgADP. Arginine kinase and creatine kinase were shown to bind the delta Rh(H2O)4ADP isomer 7 and 45 times tighter, respectively, than the lambda isomer. The reactivity of Rh(H2O)4PP with pyrophosphatase is comparable to that of Cr(H2O)4PP, and the binding affinities of the Rh(H2O)4ADP screw sense isomers for kinases are also comparable to those observed for the corresponding Cr(H2O)4ADP screw sense isomers.

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Callahan¹,

Shorter²,

Hem

1991

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The adsorptive behavior of the recombinant malarial antigens R32tet32, R32NS181 and NS181V20 to aluminum hydroxide and aluminum phosphate gels was studied as a function of pH and buffer ions. The Plasmodium falciparum antigen, R32NS181, and the P. vivax antigen, NS181V20, with isoelectric points (pI) of 5.9 and 5.5, respectively, adsorbed readily to the positively charged boehmite form of aluminum hydroxide gel. These two antigens displayed reversible, linear adsorption behavior in the pH range 5-9, with maximal adsorption observed at the lowest pH studied. The addition of acetate buffer ions had little effect on adsorption, while the presence of phosphate decreased adsorption for R32NS181 and NS181V20 by 25 and 40% respectively. The adsorptive behavior of these two antigens with the negatively charged adjuvant, aluminum phosphate, was markedly decreased. The converse situation was observed with the R32tet32 antigen, whose pI is estimated to be 12.8. There was minimal interaction of this antigen with aluminum hydroxide gel except in the presence of phosphate counter ions and significant, nonreversible adsorption with aluminum phosphate gel. Enhanced adsorption of R32tet32 to aluminum hydroxide gel in the presence of phosphate is suggested to be the result of a covalent bond between a surface aluminum and a phosphate anion that modifies the surface charge of the aluminum hydroxide gel. These results indicate that the role of complementary surface charges, both for the ionization state of the protein and for the aluminum adjuvants, is the key in optimizing conditions for significant antigen-adjuvant interactions.

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Andrew L. Shorter

Reductive inactivation of soybean lipoxygenase 1 by catechols: a possible mechanism for regulation of lipoxygenase activity

Preparation and configurational analysis of the stereoisomers of .beta.,.gamma.-bidentate Rh(H2O)4ATP and .alpha.,.beta.,.gamma.-tridentate Rh(H2O)3ATP. A new class of enzyme active site probes

Kinetics of reduction of ferrichrome and ferrichrome A by chromium(II), europium(II), vanadium(II), and dithionite

Structural and biochemical properties of bidentate tetraaquarhodium(III) complexes of inorganic pyrophosphate and adenosine 5'-diphosphate

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