RESUMO
BMS-813160 is a pharmaceutical entity currently in development at Bristol Myers Squibb. Its defining structural feature is a unique chiral all cis triamino cyclohexane core. Medicinal and process chemistry groups at BMS have previously published synthesis strategies for chemotypes similar to the target molecule, but a streamlined approach amenable for longer-term supply was necessary. A new synthetic route was conceptualized, experimentally investigated, and determined to meet the criteria for efficiency that addressed key limitations of previous approaches. Adopting/optimizing the Trost asymmetric allylic amination desymmetrization methodology was a key tool used to produce a synthesis intermediate with high optical purity. In addition, developing a tandem Mannich-aza-Michael reaction to obviate the need for a Curtis/acylation sequence and a novel reductive amination/thermal lactamization to circumvent Freidinger-type pyrrolidone preparation are some of the synthesis improvements that enabled access to the target molecule to fulfill long-term supply requirements.
Assuntos
Catálise , Aminação , Pirazóis , Estereoisomerismo , TriazinasRESUMO
The use of sodium dithionite with perfluoroalkyl iodides under basic conditions facilitates the direct perfluoroalkylation of arenes with pendant benzylic electron-withdrawing groups. This occurs via attack of the arene on the electrophilic perfluoroalkyl radical, through the donation of electron density from a benzylic anion. The substrate scope was expanded beyond benzylic nitriles with cyclic substrates bearing electron-withdrawing groups at the benzylic position-enforcing donation of electron density to the aromatic ring and enabling attack on the perfluoroalkyl radical.
Assuntos
Iodetos , Nitrilas , Elétrons , Estrutura MolecularRESUMO
The use of the unprecedented annulating reagents methyl N-(tert-butylsulfinyl)-4-chlorobutanimidate and methyl N-(tert-butylsulfinyl)-5-bromopentanimidate enables the diastereoselective preparation of 5- and 6-membered carbocycles bearing three contiguous stereocenters. These synthons undergo cycloaddition with a variety of Michael acceptors to form cyclopentane/cyclohexane rings with excellent stereochemical control, generating only one of the eight possible diastereomers. This novel methodology has enabled the highly enantioselective and high yielding synthesis of novel chemotypes of pharmacological relevance.
RESUMO
This communication highlights the use of chiral sulfinamides as nitrogen nucleophiles in intermolecular aza-Michael reactions. When chiral sulfinamides are coupled to a chloroethyl group, the corresponding novel annulating reagents can be used to streamline the stereoselective synthesis of complex pyrrolidine-containing molecules. As a result, it has enabled a medicinal chemistry campaign for the synthesis of biologically active RORγt inverse agonists.
RESUMO
A syn-selective synthesis of ß-branched α-amino acids has been developed based on the alkylation of glycine imine esters with secondary sulfonates. The potassium counterion for the enolate, the solvent, and the leaving group on the electrophile were key levers to maximize the diasteroselectivity of the alkylation. The optimized conditions enabled a straightforward preparation of a number of ß-branched α-amino acids that can be challenging to obtain.
Assuntos
Aminoácidos/química , Glicina/química , Iminas/química , Ácidos Sulfônicos/química , Alquilação , Ácidos Carboxílicos , Catálise , Ésteres , Estrutura Molecular , EstereoisomerismoRESUMO
Suzuki cross-coupling reactions of an unprecedented array of unactivated primary and secondary alkyl halides (including challenging alkyl chlorides) can be accomplished through the use of nickel/amino alcohol-based catalysts. Both the nickel precatalyst and the amino alcohols (prolinol or trans-2-aminocyclohexanol) are commercially available and air-stable. In view of the remarkable diversity of amino alcohols that are readily accessible, this discovery may open the door to the rapid development of versatile catalysts for a wide range of cross-coupling processes.
Assuntos
Amino Álcoois/química , Ácidos Borônicos/química , Halogênios/química , Níquel/química , Catálise , LigantesRESUMO
Using water as the reaction medium, ketones can be transformed into alpha-iodoketones upon treatment with sodium iodide, hydrogen peroxide and an acid; interestingly, alpha-iodoketones can be also obtained from secondary alcohols through a metal-free tandem oxidation-iodination approach.
RESUMO
The use of bis(pyridine)iodonium tetrafluoroborate (IPy(2)BF(4)) as an oxidizing agent towards different types of alcohols is reported. The observed reactivity involves different reaction pathways, as a function both of the structures of the starting materials and of the experimental conditions. Interestingly, the title iodine-containing compound is capable of a tuneable reaction with simple cycloalkanols, providing straight and selective access either to omega-iodocarbonyl compounds or to ketones, a previously unreported and chemoselective range of oxidation potential. Furthermore, appropriate conditions for the preparation of aldehydes and esters from primary alcohols by easily performed experimental procedures were also established. The beta-scission reactions of cycloalkanols and the alpha-oxidation processes of primary, secondary and benzylic alcohols are discussed.
RESUMO
An efficient protocol to synthesize iodohydrins from alkenes is presented. Reactions were conducted in aqueous media using safe and readily available sodium iodide (the most abundant form of the element), and a highly convenient oxidant such as hydrogen peroxide. Addition of a protic acid triggers a faster and efficient process, a role formally related to that played by haloperoxidase enzymes in naturally occurring transformations. The successful application of these conditions to multigram scale preparations and over natural products derivatives is also discussed.