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本文引用的文献

1
Neuron-specific ablation of eIF5A or deoxyhypusine synthase leads to impairments in growth, viability, neurodevelopment, and cognitive functions in mice.神经元特异性敲除 eIF5A 或脱羟鸟氨酸合成酶会导致小鼠生长、存活、神经发育和认知功能受损。
J Biol Chem. 2021 Nov;297(5):101333. doi: 10.1016/j.jbc.2021.101333. Epub 2021 Oct 22.
2
Post-translational formation of hypusine in eIF5A: implications in human neurodevelopment.真核起始因子 5A 中 hypusine 的翻译后形成:对人类神经发育的影响。
Amino Acids. 2022 Apr;54(4):485-499. doi: 10.1007/s00726-021-03023-6. Epub 2021 Jul 17.
3
Impaired eIF5A function causes a Mendelian disorder that is partially rescued in model systems by spermidine.eIF5A 功能障碍导致一种孟德尔疾病,在模型系统中被亚精胺部分挽救。
Nat Commun. 2021 Feb 5;12(1):833. doi: 10.1038/s41467-021-21053-2.
4
Recessive Rare Variants in Deoxyhypusine Synthase, an Enzyme Involved in the Synthesis of Hypusine, Are Associated with a Neurodevelopmental Disorder.脱羟鸟氨酸合成酶中的隐性罕见变异与神经发育障碍有关,该酶参与了hypusine 的合成。
Am J Hum Genet. 2019 Feb 7;104(2):287-298. doi: 10.1016/j.ajhg.2018.12.017. Epub 2019 Jan 17.
5
MEHMO syndrome mutation EIF2S3-I259M impairs initiator Met-tRNAiMet binding to eukaryotic translation initiation factor eIF2.MEHMO 综合征突变 EIF2S3-I259M 损害起始 Met-tRNAiMet 与真核翻译起始因子 eIF2 的结合。
Nucleic Acids Res. 2019 Jan 25;47(2):855-867. doi: 10.1093/nar/gky1213.
6
Hypusine, a polyamine-derived amino acid critical for eukaryotic translation.双氢尿嘧啶,一种多胺衍生的氨基酸,对真核生物翻译至关重要。
J Biol Chem. 2018 Nov 30;293(48):18710-18718. doi: 10.1074/jbc.TM118.003341. Epub 2018 Sep 26.
7
mRNA Translation Gone Awry: Translation Fidelity and Neurological Disease.mRNA 翻译出错:翻译保真度与神经疾病。
Trends Genet. 2018 Mar;34(3):218-231. doi: 10.1016/j.tig.2017.12.007. Epub 2018 Jan 16.
8
eIF5A Functions Globally in Translation Elongation and Termination.真核起始因子5A在翻译延伸和终止过程中发挥全局作用。
Mol Cell. 2017 Apr 20;66(2):194-205.e5. doi: 10.1016/j.molcel.2017.03.003. Epub 2017 Apr 6.
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Targeting the polyamine-hypusine circuit for the prevention and treatment of cancer.靶向多胺-羟赖胺素回路用于癌症的预防和治疗。
Amino Acids. 2016 Oct;48(10):2353-62. doi: 10.1007/s00726-016-2275-3. Epub 2016 Jun 29.
10
Structure of the hypusinylated eukaryotic translation factor eIF-5A bound to the ribosome.与核糖体结合的Hypusin化真核翻译起始因子eIF-5A的结构。
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DOHH 中的双等位基因变异,催化 hypusine 生物合成的最后一步,与神经发育障碍有关。

Bi-allelic variants in DOHH, catalyzing the last step of hypusine biosynthesis, are associated with a neurodevelopmental disorder.

机构信息

Département de Génétique Médicale, Centre Hospitalier Universitaire d'Angers, 49933, Angers France; Université d'Angers, MitoVasc Unit, UMR Centre National de la Recherche Scientifique 6015, INSERM 1083, 49000 Angers, France.

Institute of Medical Genetics, University of Zurich, 8952 Schlieren-Zurich, Switzerland.

出版信息

Am J Hum Genet. 2022 Aug 4;109(8):1549-1558. doi: 10.1016/j.ajhg.2022.06.010. Epub 2022 Jul 19.

DOI:10.1016/j.ajhg.2022.06.010
PMID:35858628
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9388783/
Abstract

Deoxyhypusine hydroxylase (DOHH) is the enzyme catalyzing the second step in the post-translational synthesis of hypusine [N-(4-amino-2-hydroxybutyl)lysine] in the eukaryotic initiation factor 5A (eIF5A). Hypusine is formed exclusively in eIF5A by two sequential enzymatic steps catalyzed by deoxyhypusine synthase (DHPS) and deoxyhypusine hydroxylase (DOHH). Hypusinated eIF5A is essential for translation and cell proliferation in eukaryotes, and all three genes encoding eIF5A, DHPS, and DOHH are highly conserved throughout eukaryotes. Pathogenic variants affecting either DHPS or EIF5A have been previously associated with neurodevelopmental disorders. Using trio exome sequencing, we identified rare bi-allelic pathogenic missense and truncating DOHH variants segregating with disease in five affected individuals from four unrelated families. The DOHH variants are associated with a neurodevelopmental phenotype that is similar to phenotypes caused by DHPS or EIF5A variants and includes global developmental delay, intellectual disability, facial dysmorphism, and microcephaly. A two-dimensional gel analyses revealed the accumulation of deoxyhypusine-containing eIF5A [eIF5A(Dhp)] and a reduction in the hypusinated eIF5A in fibroblasts derived from affected individuals, providing biochemical evidence for deficiency of DOHH activity in cells carrying the bi-allelic DOHH variants. Our data suggest that rare bi-allelic variants in DOHH result in reduced enzyme activity, limit the hypusination of eIF5A, and thereby lead to a neurodevelopmental disorder.

摘要

脱氧鸟苷酸羟化酶(DOHH)是在真核起始因子 5A(eIF5A)中翻译后合成假尿嘧啶核苷[N-(4-氨基-2-羟基丁基)赖氨酸]的第二步反应的酶。假尿嘧啶核苷仅在 eIF5A 中由脱氧鸟苷酸合酶(DHPS)和脱氧鸟苷酸羟化酶(DOHH)的两个连续酶促步骤形成。在真核生物中,被假尿嘧啶化的 eIF5A 对翻译和细胞增殖是必不可少的,编码 eIF5A、DHPS 和 DOHH 的三个基因在整个真核生物中高度保守。以前已发现影响 DHPS 或 EIF5A 的致病性变体与神经发育障碍有关。使用三体型外显子组测序,我们鉴定了五个来自四个无关家庭的受影响个体中与疾病共分离的罕见双等位基因致病性错义和截断 DOHH 变体。DOHH 变体与神经发育表型相关,该表型类似于由 DHPS 或 EIF5A 变体引起的表型,包括全面发育迟缓、智力残疾、面部畸形和小头症。二维凝胶分析显示,受影响个体来源的成纤维细胞中含有脱氧假尿嘧啶核苷的 eIF5A [eIF5A(Dhp)]积累和被假尿嘧啶化的 eIF5A 减少,为携带双等位基因 DOHH 变体的细胞中 DOHH 活性缺乏提供了生化证据。我们的数据表明,DOHH 中的罕见双等位基因变体导致酶活性降低,限制了 eIF5A 的假尿嘧啶化,从而导致神经发育障碍。