Adrian Hall scite author profile

The five dopamine receptor subtypes (D 1−5 ) are activated by the endogenous catecholamine dopamine. Sustained research has sought to identify selective ligands for receptor subtypes. In particular, activation of the D 1 receptor has attracted attention due to its promising role in neurological diseases. Initial attempts to identify agonists yielded catechol derivatives, mimicking dopamine, with suboptimal DMPK parameters and low selectivity over the D 5 subtype. However, more recent efforts to identify ligands capable of activating the D 1 receptor have made substantial progress with the identification of non-catechol agonists with suitable properties to progress to clinical studies. In addition, several research groups have identified positive allosteric modulators that offer new potential. Furthermore, structural studies have surprisingly uncovered two potential allosteric binding sites, the most characterized of which appears to be on intracellular loop 2 (ICL2). This review highlights the recent progress in the field, covering both orthosteric and allosteric modes of activation, discusses the elucidation of the allosteric binding sites, and summarizes the clinical development status of various compounds. Perspective pubs.acs.org/jmc

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Harnessing Sulfinyl Nitrenes: A Unified One-Pot Synthesis of Sulfoximines and Sulfonimidamides

Davies

Tilby

Ren

et al. 2020

J. Am. Chem. Soc.

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Sulfoximines and sulfonimidamides are promising compounds for medicinal and agrochemistry. As monoaza analogues of sulfones and sulfonamides, respectively, they combine good physicochemical properties, high stability, and the ability to build complexity from a three-dimensional core. However, a lack of quick and efficient methods to prepare these compounds has hindered their uptake in molecule discovery programmes. Herein, we describe a unified, one-pot approach to both sulfoximines and sulfonimidamides, which exploits the high electrophilicity of sulfinyl nitrenes. We generate these rare reactive intermediates from a novel sulfinylhydroxylamine (R–O–N=S=O) reagent through an N–O bond fragmentation process. Combining sulfinyl nitrenes with carbon and nitrogen nucleophiles enables the synthesis of sulfoximines and sulfonimidamides in a reaction time of just 15 min. Alkyl, (hetero)aryl, and alkenyl organometallic reagents can all be used as the first or second component in the reaction, while primary and secondary amines, and anilines, all react with high efficiency as the second nucleophile. The tolerance of the reaction to steric and electronic factors has allowed for the synthesis of the most diverse set of sulfoximines and sulfonimidamides yet described. Experimental and computational investigations support the intermediacy of sulfinyl nitrenes, with nitrene formation proceeding via a transient triplet intermediate before reaching a planar singlet species.

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One‐Pot, Three‐Component Sulfonimidamide Synthesis Exploiting the Sulfinylamine Reagent N‐Sulfinyltritylamine, TrNSO

2017

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Sulfonimidamides are increasingly important molecules in medicinal chemistry and agrochemistry, but their preparation requires lengthy synthetic sequences, which has likely limited their use. We describe a one-pot de novo synthesis of sulfonimidamides from widely available organometallic reagents and amines. This convenient and efficient process uses a stable sulfinylamine reagent, N-sulfinyltritylamine (TrNSO), available in one step on 10 gram scale, as a linchpin. In contrast to classical approaches starting from thiols or their derivatives, our TrNSO-based approach facilitates the rapid assembly of the three reaction components into a variety of differentially substituted sulfonimidamides containing medicinally relevant moieties, including pyridines and indoles. Analogues of the sulfonamide-containing COX-2 inhibitor Celecoxib were prepared and evaluated.

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Lipopolysaccharide Induction of Tissue Factor in THP-1 Cells Involves Jun Protein Phosphorylation and Nuclear Factor κB Nuclear Translocation

Hall¹,

Vos²,

Bertina³

1999

Journal of Biological Chemistry

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Adrian Hall

Total Synthesis and Structural Confirmation of the Marine Natural Product Dysinosin A: A Novel Inhibitor of Thrombin and Factor VIIa

Novel Strategies To Activate the Dopamine D₁ Receptor: Recent Advances in Orthosteric Agonism and Positive Allosteric Modulation

Harnessing Sulfinyl Nitrenes: A Unified One-Pot Synthesis of Sulfoximines and Sulfonimidamides

One‐Pot, Three‐Component Sulfonimidamide Synthesis Exploiting the Sulfinylamine Reagent N‐Sulfinyltritylamine, TrNSO

Lipopolysaccharide Induction of Tissue Factor in THP-1 Cells Involves Jun Protein Phosphorylation and Nuclear Factor κB Nuclear Translocation

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Adrian Hall

Total Synthesis and Structural Confirmation of the Marine Natural Product Dysinosin A: A Novel Inhibitor of Thrombin and Factor VIIa

Novel Strategies To Activate the Dopamine D1 Receptor: Recent Advances in Orthosteric Agonism and Positive Allosteric Modulation

Harnessing Sulfinyl Nitrenes: A Unified One-Pot Synthesis of Sulfoximines and Sulfonimidamides

One‐Pot, Three‐Component Sulfonimidamide Synthesis Exploiting the Sulfinylamine Reagent N‐Sulfinyltritylamine, TrNSO

Lipopolysaccharide Induction of Tissue Factor in THP-1 Cells Involves Jun Protein Phosphorylation and Nuclear Factor κB Nuclear Translocation

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Product

Resources

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Novel Strategies To Activate the Dopamine D₁ Receptor: Recent Advances in Orthosteric Agonism and Positive Allosteric Modulation