Department of Molecular Biology, Massachusetts General Hospital, Boston, Massachusetts 02114.
Department of Genetics, Harvard Medical School, Boston, Massachusetts 02115.
Genes Dev. 2021 Feb 1;35(3-4):212-217. doi: 10.1101/gad.345579.120. Epub 2021 Jan 14.
The molybdenum cofactor (Moco) is a 520-Da prosthetic group that is synthesized in all domains of life. In animals, four oxidases (among them sulfite oxidase) use Moco as a prosthetic group. Moco is essential in animals; humans with mutations in genes that encode Moco biosynthetic enzymes display lethal neurological and developmental defects. Moco supplementation seems a logical therapy; however, the instability of Moco has precluded biochemical and cell biological studies of Moco transport and bioavailability. The nematode can take up Moco from its bacterial diet and transport it to cells and tissues that express Moco-requiring enzymes, suggesting a system for Moco uptake and distribution. Here we show that protein-bound Moco is the stable, bioavailable species of Moco taken up by from its diet and is an effective dietary supplement, rescuing a model of Moco deficiency. We demonstrate that diverse Moco:protein complexes are stable and bioavailable, suggesting a new strategy for the production and delivery of therapeutically active Moco to treat human Moco deficiency.
钼辅因子(Moco)是一种 520-Da 的辅基,在所有生命领域中都有合成。在动物中,有四种氧化酶(其中包括亚硫酸盐氧化酶)将 Moco 用作辅基。Moco 在动物中是必不可少的;编码 Moco 生物合成酶的基因突变的人类会表现出致命的神经和发育缺陷。Moco 的补充似乎是一种合理的治疗方法;然而,Moco 的不稳定性排除了 Moco 运输和生物利用度的生化和细胞生物学研究。线虫可以从其细菌饮食中摄取 Moco,并将其运输到表达需要 Moco 的酶的细胞和组织中,这表明存在一种 Moco 摄取和分配的系统。在这里,我们表明,与蛋白质结合的 Moco 是线虫从饮食中摄取的稳定、具有生物利用度的 Moco 形式,并且是一种有效的膳食补充剂,可以挽救 Moco 缺乏的线虫模型。我们证明了不同的 Moco:蛋白质复合物是稳定和具有生物利用度的,这为生产和输送治疗性活性 Moco 以治疗人类 Moco 缺乏症提供了一种新策略。
