Electrochemical Dimerization of Phenylpropenoids and the Surprising Antioxidant Activity of the Resultant Quinone Methide Dimers

A simple method for the dimerization of phenylpropenoid derivatives is reported. It leverages electrochemical oxidation of pâ unsaturated phenols to access the dimeric materials in a biomimetic fashion. The mild nature of the transformation provides excellent functional group tolerance, resulting in a unified approach for the synthesis of a range of natural products and related analogues with excellent regiocontrol. The operational simplicity of the method allows for greater efficiency in the synthesis of complex natural products. Interestingly, the quinone methide dimer intermediates are potent radicalâ trapping antioxidants; more so than the phenols from which they are derivedâ or transformed toâ despite the fact that they do not possess a labile Hâ atom for transfer to the peroxyl radicals that propagate autoxidation.Chinonmethidâ Dimere wurden durch milde anodische Oxidation vermittelt durch eine preiswerte und leicht verfügbare Aminbase mit exzellenter Ausbeute und Regiokontrolle hergestellt. Diese Strategie ermöglicht raschen Zugang zu Zwischenprodukten für die katalytische Synthese von Phenylpropenoidâ Oligomeren und bietet ein neues Werkzeug für die Totalsynthese dieser komplexen Moleküle.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/146959/1/ange201810870.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/146959/2/ange201810870_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/146959/3/ange201810870-sup-0001-misc_information.pd

Electrochemical Dimerization of Phenylpropenoids and the Surprising Antioxidant Activity of the Resultant Quinone Methide Dimers

A simple method for the dimerization of phenylpropenoid derivatives is reported. It leverages electrochemical oxidation of pâ unsaturated phenols to access the dimeric materials in a biomimetic fashion. The mild nature of the transformation provides excellent functional group tolerance, resulting in a unified approach for the synthesis of a range of natural products and related analogues with excellent regiocontrol. The operational simplicity of the method allows for greater efficiency in the synthesis of complex natural products. Interestingly, the quinone methide dimer intermediates are potent radicalâ trapping antioxidants; more so than the phenols from which they are derivedâ or transformed toâ despite the fact that they do not possess a labile Hâ atom for transfer to the peroxyl radicals that propagate autoxidation.Quinone methide dimers are prepared via mild anodic oxidation mediated by a cheap and readily available amine base with excellent yield and regiocontrol. This strategy provides rapid access to intermediates for the synthesis of phenylpropenoid oligomers in a catalytic fashion, providing a new tool for the total synthesis of these complex molecules.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/147117/1/anie201810870-sup-0001-misc_information.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/147117/2/anie201810870_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/147117/3/anie201810870.pd

Death penalty: the political foundations of the global trend toward abolition

The death penalty is like no other punishment. Its continued existence in many countries of the world creates political tensions within these countries and between governments of retentionist and abolitionist countries. After the Second World War, more and more countries have abolished the death penalty. This article argues that the major determinants of this global trend toward abolition are political, a claim which receives support in a quantitative cross-national analysis from 1950 to 2002. Democracy, democratization, international political pressure on retentionist countries and peer group effects in relatively abolitionist regions all raise the likelihood of abolition. There is also a partisan effect as abolition becomes more likely if the chief executive’s party is left-wing oriented. Cultural, social and economic determinants receive only limited support. The global trend toward abolition will go on if democracy continues to spread around the world and abolitionist countries stand by their commitment to press for abolition all over the world.

Structure–Activity Relationship of ¹⁸F‑Labeled Phosphoramidate Peptidomimetic Prostate-Specific Membrane Antigen (PSMA)-Targeted Inhibitor Analogues for PET Imaging of Prostate Cancer

A series of phosphoramidate-based prostate specific membrane antigen (PSMA) inhibitors of increasing lipophilicity were synthesized (<b>4</b>, <b>5</b>, and <b>6</b>), and their fluorine-18 analogs were evaluated for use as positron emission tomography (PET) imaging agents for prostate cancer. To gain insight into their modes of binding, they were also cocrystallized with the extracellular domain of PSMA. All analogs exhibited irreversible binding to PSMA with IC₅₀ values ranging from 0.4 to 1.3 nM. In vitro assays showed binding and rapid internalization (80–95%, 2 h) of the radiolabeled ligands in PSMA­(+) cells. In vivo distribution demonstrated significant uptake in CWR22Rv1 (PSMA­(+)) tumor, with tumor to blood ratios of 25.6:1, 63.6:1, and 69.6:1 for [¹⁸F]<b>4</b>, [¹⁸F]<b>5</b>, and [¹⁸F]<b>6</b>, respectively, at 2 h postinjection. Installation of aminohexanoic acid (AH) linkers in the phosphoramidate scaffold improved their PSMA binding and inhibition and was critical for achieving suitable in vivo imaging properties, positioning [¹⁸F]<b>5</b> and [¹⁸F]<b>6</b> as favorable candidates for future prostate cancer imaging clinical trials