Department of Process Research and Development, Merck & Co., Inc., 126 E. Lincoln Avenue, Rahway, New Jersey 07065, United States.
J Am Chem Soc. 2022 Apr 6;144(13):5855-5863. doi: 10.1021/jacs.1c12106. Epub 2022 Mar 25.
As practitioners of organic chemistry strive to deliver efficient syntheses of the most complex natural products and drug candidates, further innovations in synthetic strategies are required to facilitate their efficient construction. These aspirational breakthroughs often go hand-in-hand with considerable reductions in cost and environmental impact. Enzyme-catalyzed reactions have become an impressive and necessary tool that offers benefits such as increased selectivity and waste limitation. These benefits are amplified when enzymatic processes are conducted in a cascade in combination with novel bond-forming strategies. In this article, we report a highly diastereoselective synthesis of MK-1454, a potent agonist of the stimulator of interferon gene (STING) signaling pathway. The synthesis begins with the asymmetric construction of two fluoride-bearing deoxynucleotides. The routes were designed for maximum convergency and selectivity, relying on the same benign electrophilic fluorinating reagent. From these complex subunits, four enzymes are used to construct the two bridging thiophosphates in a highly selective, high yielding cascade process. Critical to the success of this reaction was a thorough understanding of the role transition metals play in bond formation.
作为有机化学从业者,我们致力于高效合成最复杂的天然产物和药物候选物,因此需要进一步创新合成策略,以促进其高效构建。这些有抱负的突破往往伴随着成本和环境影响的显著降低。酶催化反应已成为一种令人印象深刻且必要的工具,它具有提高选择性和限制废物产生等优势。当酶促过程与新型成键策略相结合进行级联反应时,这些优势会得到放大。在本文中,我们报道了一种高度非对映选择性合成 MK-1454 的方法,MK-1454 是干扰素基因 (STING) 信号通路的一种有效激动剂。该合成从不对称构建两个含氟脱氧核苷酸开始。这些路线的设计旨在实现最大的收敛性和选择性,依赖于相同的良性亲电氟化试剂。从这些复杂的亚基出发,使用四种酶在高度选择性和高产的级联过程中构建两个桥接硫代磷酸酯。该反应成功的关键是深入了解过渡金属在键形成中所起的作用。
