Department of Chemistry, Merkert Chemistry Center, Boston College, Chestnut Hill, Massachusetts 02467, United States.
J Am Chem Soc. 2023 Jul 5;145(26):14233-14250. doi: 10.1021/jacs.3c00169. Epub 2023 Jun 21.
We disclose a practical catalytic method for arming bioactive amide-based natural products and other small-molecule drugs with various functional handles for the synthesis of drug conjugates. We demonstrate that a set of readily available Sc-based Lewis acids and N-based Brønsted bases can function cooperatively to deprotonate amide N-H bonds in polyfunctional drug molecules. An aza-Michael reaction between the resulting amidate and α,β-unsaturated compounds produces an array of drug analogues that are equipped with an alkyne, azide, maleimide, tetrazine, or diazirine moiety under redox and pH-neutral conditions. The utility of this chemical tagging strategy is showcased through the production of drug conjugates by the click reaction between the alkyne-tagged drug derivatives and an azide-containing green fluorescent protein, nanobody, or antibody.
我们揭示了一种实用的催化方法,用于为生物活性酰胺基天然产物和其他小分子药物武装各种功能手柄,以合成药物偶联物。我们证明了一组现成的基于 Sc 的路易斯酸和基于 N 的布朗斯台德碱可以协同作用,使多官能药物分子中的酰胺 N-H 键去质子化。由此产生的酰胺和α,β-不饱和化合物之间的氮杂迈克尔加成反应生成了一系列药物类似物,这些类似物在氧化还原和 pH 中性条件下都带有炔基、叠氮基、马来酰亚胺、四嗪或重氮化合物部分。通过炔基标记的药物衍生物与含叠氮化物的绿色荧光蛋白、纳米抗体或抗体之间的点击反应生成药物偶联物,展示了这种化学标记策略的实用性。