Annalaura Sabatucci scite author profile

Lipoxygenases (LOXs) are iron-containing enzymes that play critical roles in plants and animals. As yet, metal atom extraction, reconstitution, and substitution have not been successfully applied to soybean LOX-1 [Glycine max (L.) Merrill], a prototype member of the LOX family that is widely used in structural and kinetic studies. Here, tryptic digestion of native LOX-1, used as a control, allowed us to isolate the 60-kDa C-terminal region (termed miniLOX), that retains the catalytically active iron in a more accessible position. Then, iron was removed to obtain an unprecedented apo-miniLOX, which was reconstituted and substituted with different metal ions. These forms of miniLOX were characterized vs. native LOX-1 by kinetic analysis, near UV circular dichroism, steady-state fluorescence, and fluorescence resonance energy transfer. MiniLOX showed a 2-fold increase in the membrane-binding affinity compared with native LOX-1 and a remarkable 4-fold increase compared with apo-miniLOX (K(d)=9.2+/-1.0, 17.9+/-2.0, and 45.4+/-4.3 microM, respectively). Furthermore, miniLOX reconstituted with Fe(II) or Fe(III) partially recovered its membrane-binding ability (K(d)=21.4+/-2.4 and 18.9+/-5.5 microM, respectively), overall supporting a novel noncatalytic role for iron in the LOX family.

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Structural Properties of Plant and Mammalian Lipoxygenases. Temperature-Dependent Conformational Alterations and Membrane Binding Ability

Mei

Venere

Nicolai

et al. 2008

Biochemistry

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Lipoxygenases form a heterogeneous family of lipid peroxidizing enzymes, which have been implicated in the synthesis of inflammatory mediators, in cell development and in the pathogenesis of various diseases with major health and political relevance (atherosclerosis, osteoporosis). The crystal structures of various lipoxygenase-isoforms have been reported, and X-ray coordinates for enzyme-ligand complexes are also available. Although the 3D-structures of plant and animal lipoxygenase-isoforms are very similar, recent small-angle X-ray scattering data suggested a higher degree of motional flexibility of mammalian isozymes in aqueous solutions. To explore the molecular basis for these differences we performed dynamic fluorescence measurements that allowed us to study temperature-induced conformational changes arising from three-dimensional fluctuations of the protein matrix. For this purpose, we first investigated the impact of elevated temperature on activity, secondary structure, tertiary structure dynamics and conformational alterations. Applying fluorescence resonance energy transfer we also tested the membrane binding properties of the two lipoxygenase-isoforms, and compared their binding parameters. Taken together, our results indicate that the rabbit 12/15-lipoxygenase is more susceptible to temperature-induced structural alterations than the soybean enzyme. Moreover, the rabbit enzyme exhibits a higher degree of conformational flexibility of the entire protein molecule (global flexibility) and offers the possibility of augmented substrate movement at the catalytic center (local flexibility).

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Conformational Changes of Calpain from Human Erythrocytes in the Presence of Ca2+

Dainese

Minafra

Sabatucci

et al. 2002

Journal of Biological Chemistry

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Small angle x-ray scattering has been used to monitor calpain structural transitions during the activation process triggered by Ca 2؉ binding. The scattering pattern of the unliganded enzyme in solution does not display any significant difference with that calculated from the crystal structure. The addition of Ca 2؉ promotes the formation of large aggregates, indicating the exposure of hydrophobic patches on the surface of the protease. In contrast, Ca 2؉ addition in the presence of the thiol proteinase inhibitor E64 or of the inhibitor leupeptin causes a small conformational change with no dissociation of the heterodimer. The resulting conformation appears to be slightly more extended than the unliganded form. From the comparison between ab initio models derived from our data with the crystal structure, the major observable conformational change appears to be localized at level of the L-subunit and in particular seems to confirm the mutual movement already observed by the crystallographic analysis of the dII (dIIb) and the dI (dIIa) domains creating a functional active site. This work not only provides another piece of supporting evidence for the calpain conformational change in the presence of Ca 2؉ , but actually constitutes the first experimental observation of this change for intact heterodimeric calpain in solution.

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The Self‐Recognition and Self‐Assembly of Folic Acid Salts in Isotropic Water Solution

Gottarelli

Mezzina

Spada

et al. 1996

Helvetica Chimica Acta

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The self-assembly of alkaline folates in isotropic water solutions, with or without added salts, has been investigated by small-angle neutron-scattering, circular-dichroism, and NMR techniques. The assembled species are chiral, cylindrical aggregates of finite length, composed of stacked tetramers; each tetramer is formed by Hoogsteen-bonded folate residues. The assembly process is more efficient in the presence of an excess of Na-I ions, leading to longer aggregates with stronger tetramer-tetramer interaction. In pure water, the rods are shorter and the tetramer-tetramer interaction weaker. Association between folates can be detected by circular-dichroism spectroscopy starting from a concentration of 6.10(-4) mol l(-1), well below the critical concentration for the formation of the cholesteric mesophase (ca. 0.5 mol l(-1))

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Structural Stability of Soybean Lipoxygenase-1 in Solution as Probed by Small Angle X-ray Scattering

Dainese

Sabatucci

Zadelhoff

et al. 2005

Journal of Molecular Biology

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Soybean lipoxygenase-1 (LOX-1) is used widely as a model for studying the structural and functional properties of the homologous family of lipoxygenases. The crystallographic structure revealed that LOX-1 is organized in a b-sheet N-terminal domain and a larger, mostly helical, C-terminal domain. Here, we describe the overall structural characterization of native unliganded LOX-1 in solution, using small angle X-ray scattering (SAXS). We show that the scattering pattern of the unliganded enzyme in solution does not display any significant difference compared with that calculated from the crystal structure, and that models of the overall shape of the protein calculated ab initio from the SAXS pattern provide a close envelope to the crystal structure. These data, demonstrating that LOX-1 has a compact structure also in solution, rule out any major motional flexibility of the LOX-1 molecule in aqueous solutions. In addition we show that eicosatetraynoic acid, an irreversible inhibitor of lipoxygenase used to mimic the effect of substrate binding, does not alter the overall conformation of LOX-1 nor its ability to bind to membranes. In contrast, the addition of glycerol (to 5%, v/v) causes an increase in the binding of the enzyme to membranes without altering its catalytic efficiency towards linoleic acid nor its SAXS pattern, suggesting that the global conformation of the enzyme is unaffected. Therefore, the compact structure determined in the crystal appears to be essentially preserved in these various solution conditions. During the preparation of this article, a paper by M. Hammel and co-workers showed instead a sharp difference between crystal and solution conformations of rabbit 15-LOX-1. The possible cause of this difference might be the presence of oligomers in the rabbit lipoxygenase preparations.

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Membrane lipids are key modulators of the endocannabinoid-hydrolase FAAH

Dainese

Fabritiis

Sabatucci

et al. 2014

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Lipid composition is expected to play an important role in modulating membrane enzyme activity, in particular if the substrates are themselves lipid molecules. A paradigmatic case is FAAH (fatty acid amide hydrolase), an enzyme critical in terminating endocannabinoid signalling and an important therapeutic target. In the present study, using a combined experimental and computational approach, we show that membrane lipids modulate the structure, subcellular localization and activity of FAAH. We report that the FAAH dimer is stabilized by the lipid bilayer and shows a higher membrane-binding affinity and enzymatic activity within membranes containing both cholesterol and the natural FAAH substrate AEA (anandamide). Additionally, co-localization of cholesterol, AEA and FAAH in mouse neuroblastoma cells suggests a mechanism through which cholesterol increases the substrate accessibility of FAAH.

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In silico mapping of allosteric ligand binding sites in type‐1 cannabinoid receptor

Sabatucci

Tortolani

Dainese

et al. 2018

Biotech and App Biochem

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The recent resolution of the crystal structure of type-1 cannabinoid receptor (CB ) and the discovery of novel modulators for this target open the way to the possibility of elucidating the structural requirements for CB binding, and thereby facilitate a rational drug design. Compounds that target the orthosteric site of CB in some cases have shown side effects. Allosteric modulators could potentially avoid these side effects by influencing binding and/or efficacy of orthosteric ligands. Here, we summarize and compare previous data on different putative allosteric binding sites observed in CB homology models with an in silico docking study of the recently published crystal structure of the same receptor on endogenous and natural hydrophobic ligands that act as positive allosteric modulators and negative allosteric modulators of CB . In particular, a lipid-exposed pocket targeted by most of the tested molecules is reported and discussed.

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Structural Characterization of the Ceruloplasmin: Lactoferrin Complex in Solution

Sabatucci

Vachette

Vasilyev

et al. 2007

Journal of Molecular Biology

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