<i>Profound Hypothermia in the Monkey With Recovery After Long Periods of Cardiac Standstill</i>

Human plasma and fatty acid free human albumin were incubated with soman at pH 8.0 and 25 degrees C. Four methods were used to monitor the reaction of albumin with soman: progressive inhibition of the aryl acylamidase activity of albumin, the release of fluoride ion from soman, 31P NMR, and mass spectrometry. Inhibition (phosphonylation) was slow with a bimolecular rate constant of 15 +/- 3 M(-1) min (-1). MALDI-TOF and tandem mass spectrometry of the soman-albumin adduct showed that albumin was phosphonylated on tyrosine 411. No secondary dealkylation of the adduct (aging) occurred. Covalent docking simulations and 31P NMR experiments showed that albumin has no enantiomeric preference for the four stereoisomers of soman. Spontaneous reactivation at pH 8.0 and 25 degrees C, measured as regaining of aryl acylamidase activity and decrease of covalent adduct (pinacolyl methylphosphonylated albumin) by NMR, occurred at a rate of 0.0044 h (-1), indicating that the adduct is quite stable ( t1/2 = 6.5 days). At pH 7.4 and 22 degrees C, the covalent soman-albumin adduct, measured by MALDI-TOF mass spectrometry, was more stable ( t1/2 = 20 days). Though the concentration of albumin in plasma is very high (about 0.6 mM), its reactivity with soman (phosphonylation and phosphotriesterase activity) is too slow to play a major role in detoxification of the highly toxic organophosphorus compound soman. Increasing the bimolecular rate constant of albumin for organophosphates is a protein engineering challenge that could lead to a new class of bioscavengers to be used against poisoning by nerve agents. Soman-albumin adducts detected by mass spectrometry could be useful for the diagnosis of soman exposure.

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The role of the carboxyl and amino groups of polyene macrolides in their interactions with sterols and their selective toxicity. A 31P-NMR study

Hervé

Debouzy

Borowski

et al. 1989

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Carbon nanotubes induce inflammation but decrease the production of reactive oxygen species in lung

Crouzier¹,

Follot²,

Gentilhomme

et al. 2010

Toxicology

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Mechanism of α-Cyclodextrin Induced Hemolysis. 2. A Study of the Factors Controlling the Association with Serine-, Ethanolamine-, and Choline-Phospholipids

Debouzy¹,

Fauvelle²,

Crouzy³

et al. 1998

Journal of Pharmaceutical Sciences

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A nuclear magnetic resonance (NMR) spectroscopy and molecular modeling study of the interaction between alpha-cyclodextrin (alpha-CD) and phospholipids with serine, ethanolamine, or choline headgroups is presented. The experimental approach is based on 31P and 1H NMR measurements on small unilamellar vesicles (SUV), multilamellar systems (MLV), and aqueous suspensions of lipids using a direct complex preparation with alpha-CD. Molecular dynamics computer simulations are used to investigate the trajectory of alpha-CD in the vicinity of a membrane surface and the influence of the charge and dipole moment of the phospholipid headgroups. These factors of charge and orientation of dipole moment seem to play a key role in the interaction of phospholipids with alpha-CD and reflect very well the experimentally observed selectivity of the phospholipid -alpha-CD approach. However, with this approach, there is no evidence for the formation of a complex with the phospholipid headgroup (except for phosphatidylinositol) that results from electrostatic forces. Rather, after a possible extraction of the lipid from the membrane, a classical inclusion of the sn-2 chain in the cavity of alpha-CD occurs. This step depends on the alkyl chain length and saturation state of the lipids as well as on their organization (i.e., as vesicles or dispersions). Based on our results, chemical modifications of the alpha-CD molecule to control the hemolytic properties of alpha-CD are discussed.

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Mechanism of α-Cyclodextrin-lnduced Hemolysis. 1. The Two-Step Extraction of Phosphatidylinositol from the Membrane

Fauvelle

Debouzy

Crouzy

et al. 1997

Journal of Pharmaceutical Sciences

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It has been suggested that the interaction of cyclodextrins with the lipid components of the erythrocyte membranes is the determining factor in the hemolysis induced by these cyclic oligosaccharides. In the case of alpha-cyclodextrin (cyclomaltohexose), phospholipids have been identified as the cell target. In our study, evidence for the interaction between alpha-cyclodextrin and different phospholipids has been obtained using synthetic membranes. Since phosphatidylinositol (PI) showed the strongest affinity for alpha-cyclodextrin, it has been selected to investigate the respective contributions of the polar head group and the aliphatic chains to the association process using 31P, 2H, and 1H NMR spectroscopy. In this work, we describe the two-step extraction of PI from the membrane following its association with alphaCD: a cyclodextrin molecule is first attracted to the membrane surface by electrostatic remote interactions and associates with the lipid head group. Then the whole PI molecule is extracted, and inclusion of its unsaturated sn-2 acyl chain into another alphaCD molecule occurs in the bulk.

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Jean‐Claude Debouzy

Binding and Hydrolysis of Soman by Human Serum Albumin

The role of the carboxyl and amino groups of polyene macrolides in their interactions with sterols and their selective toxicity. A 31P-NMR study

Carbon nanotubes induce inflammation but decrease the production of reactive oxygen species in lung

Mechanism of α-Cyclodextrin Induced Hemolysis. 2. A Study of the Factors Controlling the Association with Serine-, Ethanolamine-, and Choline-Phospholipids

Mechanism of α-Cyclodextrin-lnduced Hemolysis. 1. The Two-Step Extraction of Phosphatidylinositol from the Membrane

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