Eyal Drug scite author profile

In recent years, the exposure of biological systems to various nanomaterials has become an issue of great public concern. Although living organisms have arrays of biological defense mechanisms against exposure to exogenous compounds, the biochemical mechanisms allowing various nanomaterials to enter the body are not well understood. A unique example of a typical mucosal glycoprotein capable of binding and solubilizing nanomaterials in physiological solution is provided, suggesting a possible route for entry into biological systems.

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Synthesis and Evaluation of a Pseudocyclic Tristhiourea-Based Anion Host

Dahan

Ashkenazi

Кузнецов

et al. 2007

J. Org. Chem.

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A novel methodology for the evaluation of receptor arrangement in structurally flexible anion chemosensors was developed and applied to map the binding site of a new pseudocyclic tristhiourea chemosensor (6). The syntheses of 6 and related macrocyclic chemosensor 10 (a model of the folded monomeric structure of 6) are reported. Both chemosensors were evaluated by titration with a variety of structurally different anions in CH3Cl and DMSO, showing a common preference for F-, CH3CO2-, and H2PO4-. However, within this group of anions, the binding patterns of the chemosensors differed, indicating dissimilarity in the arrangement of the binding sites of 6 and 10.

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Catalytic Oxidation of Hydrazo Derivatives Promoted by a TiCl₃/HBr System

Drug

Gozin

2007

J. Am. Chem. Soc.

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Through a novel catalytic process of general synthetic interest, hydrazo compounds were efficiently and selectively converted into corresponding azo derivatives. The proposed mechanism of this process comprises two separate and distinctive catalytic cycles, linked together by radical species. The first cycle includes formation of a hydroxy radical, generated by Ti(III) single-electron reduction of H2O2. In the second cycle, the hydroxy radical oxidizes HBr into hypobromous acid, which in turn is reduced back to HBr and water by a hydrazo substrate.

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Placing CF₂ in the Center: Major Physicochemical Changes Upon a Minor Structural Alteration in Gem‐Difunctional Compounds

Saphier

Katalan

Yacov

et al. 2022

Chemistry A European J

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Fluorine atoms play an important role in all branches of chemistry and accordingly, it is very important to study their unique and varied effects systematically, in particular, the structure-physicochemical properties relationship. The present study describes exceptional physicochemical effects resulting from a H/F exchange at the methylene bridge of gem-difunctional compounds. The Δlog P (CF2-CH2) values, that is, the change in lipophilicity, observed for the CH 2 /CF 2 replacement in various α,α-phenoxyand thiophenoxy-esters/amides, diketones, benzodioxoles and more, fall in the range of 0.6-1.4 units, which for most cases, is far above the values expected for such a replacement. Moreover, for compounds holding more than one such gem-difunctional moiety, the effect is nearly additive, so one can switch from a hydrophilic compound to a lipophilic one in a limited number of H/F exchanges. DFT studies of some of these systems revealed that polarity, conformational preference as well as charge distributions are strongly affected by such hydrogen to fluorine atom substitution. The pronounced effects described, are a result of the interplay between changes in polarity, H-bond basicity and molecular volume, which were obtained with a very low 'cost' in terms of molecular weight or steric effects and may have a great potential for implementation in various fields of chemical sciences.

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Enhanced Bioavailability of Polyaromatic Hydrocarbons in the Form of Mucin Complexes

Drug

Landesman-Milo

Belgorodsky

et al. 2011

Chem. Res. Toxicol.

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Increasing exposure of biological systems to large amounts of polycyclic aromatic hydrocarbons is of great public concern. Organisms have an array of biological defense mechanisms, and it is believed that mucosal gel (which covers the respiratory system, the gastrointestinal tract, etc.) provides an effective chemical shield against a range of toxic materials. However, in this work, we demonstrate, for the first time, that, upon complexation of polyaromatic hydrocarbons with mucins, enhanced bioavailability and, therefore, toxicity are obtained. This work was aimed to demonstrate how complexation of various highly hydrophobic polycyclic aromatic hydrocarbons with representative mucin glycoprotein could lead to the formation of previously undescribed materials, which exhibit increased toxicity versus pristine polycyclic aromatic hydrocarbons. In the present work, we show that a representative mucin glycoprotein, bovine submaxillary mucin, has impressive and unprecedented capabilities of binding and solubilizing water-insoluble materials in physiological solution. The complexes formed between the mucin and a series of polycyclic aromatic hydrocarbons were comprehensively characterized, and their toxicity was evaluated by both in vivo and in vitro assays. In addition, the bioavailability and membrane-penetration capabilities were tested using an internalization assay. Our results provide, for the first time, evidence of an unknown route by which hydrophobic materials may achieve higher bioavailability, penetrating some of the biological defense systems, in the form of water-soluble complexes with mucosal proteins.

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Eyal Drug

Mucin Complexes of Nanomaterials: First Biochemical Encounter

Synthesis and Evaluation of a Pseudocyclic Tristhiourea-Based Anion Host

Catalytic Oxidation of Hydrazo Derivatives Promoted by a TiCl₃/HBr System

Placing CF₂ in the Center: Major Physicochemical Changes Upon a Minor Structural Alteration in Gem‐Difunctional Compounds

Enhanced Bioavailability of Polyaromatic Hydrocarbons in the Form of Mucin Complexes

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Eyal Drug

Mucin Complexes of Nanomaterials: First Biochemical Encounter

Synthesis and Evaluation of a Pseudocyclic Tristhiourea-Based Anion Host

Catalytic Oxidation of Hydrazo Derivatives Promoted by a TiCl3/HBr System

Placing CF2 in the Center: Major Physicochemical Changes Upon a Minor Structural Alteration in Gem‐Difunctional Compounds

Enhanced Bioavailability of Polyaromatic Hydrocarbons in the Form of Mucin Complexes

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Product

Resources

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Catalytic Oxidation of Hydrazo Derivatives Promoted by a TiCl₃/HBr System

Placing CF₂ in the Center: Major Physicochemical Changes Upon a Minor Structural Alteration in Gem‐Difunctional Compounds