Described
is a general method for the installation of a minimal
6-methyltetrazin-3-yl group via the first example of a Ag-mediated
Liebeskind–Srogl cross-coupling. The attachment of bioorthogonal
tetrazines on complex molecules typically relies on linkers that can
negatively impact the physiochemical properties of conjugates. Cross-coupling
with arylboronic acids and a new reagent, 3-((p-biphenyl-4-ylmethyl)thio)-6-methyltetrazine
(b-Tz), proceeds under mild, PdCl2(dppf)-catalyzed conditions
to introduce minimal, linker-free tetrazine functionality. Safety
considerations guided our design of b-Tz which can be prepared on
decagram scale without handling hydrazine and without forming volatile,
high-nitrogen tetrazine byproducts. Replacing conventional Cu(I) salts
used in Liebeskind–Srogl cross-coupling with a Ag2O mediator resulted in higher yields across a broad library of aryl
and heteroaryl boronic acids and provides improved access to a fluorogenic
tetrazine-BODIPY conjugate. A covalent probe for MAGL incorporating
6-methyltetrazinyl functionality was synthesized in high yield and
labeled endogenous MAGL in live cells. This new Ag-mediated cross-coupling
method using b-Tz is anticipated to find additional applications for
directly introducing the tetrazine subunit to complex substrates.
A method to activate sulfamoyl fluorides, fluorosulfates, and sulfonyl fluorides with calcium triflimide and DABCO for SuFEx with amines is described. The reaction was applied to a diverse set of sulfamides, sulfamates, and sulfonamides at room temperature under mild conditions. Additionally, we highlight this transformation to parallel medicinal chemistry to generate a broad array of nitrogen-based S(VI) compounds.
The total synthesis of amphidinolide C and a second-generation synthesis of amphidinolide F have been accomplished through the use of a common intermediate to access both the C1-C8 and the C18-C25 sections. The development of a Ag-catalyzed cyclization of a propargyl benzoate diol is described to access both trans-tetrahydrofuran rings. The evolution of a Felkin-controlled 2-lithio-1,3-dienyl addition strategy to incorporate C9-C11 diene as well as C8 stereocenter is detailed. Key controlling aspects in the sulfone alkylation / oxidative desulfurization to join the major subunits, including the exploration of the optimum masking group for the C18 carbonyl motif, are discussed. A Trost asymmetric alkynylation and a stereoselective cuprate addition to an alkynoate have been developed for the rapid construction of the C26-C34 subunit. A Tamura/Vedejs olefination to introduce the C26 sidearm of amphidnolides C and F is employed. The late-stage incorporation of the C15, C18 diketone motif proved critical to the successful competition of the total syntheses.
New drugs introduced to the market every year represent privileged structures for particular biological targets. These new chemical entities (NCEs) provide insight into molecular recognition while serving as leads for designing future new drugs. This annual review describes the most likely process-scale synthetic approaches to 39 new chemical entities approved for the first time globally in 2018.
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