Ober Dietrich, Harms Reiner, Witte Ludger, Hartmann Thomas
Institut für Pharmazeutische Biologie, Technische Universität Braunschweig, Mendelssohnstrasse 1, D-38106 Braunschweig, Germany.
J Biol Chem. 2003 Apr 11;278(15):12805-12. doi: 10.1074/jbc.M207112200. Epub 2003 Jan 31.
Deoxyhypusine synthase participates in the post-translational activation of the eukaryotic initiation factor 5A (eIF5A). The enzyme transfers the aminobutyl moiety of spermidine to a specific lysine residue in the eIF5A precursor protein, i.e. eIF5A(lys). Homospermidine synthase catalyzes an analogous reaction but uses putrescine instead of eIF5A(lys) as substrate yielding the rare polyamine homospermidine as product. Homospermidine is an essential precursor in the biosynthesis of pyrrolizidine alkaloids, an important class of plant defense compounds against herbivores. Sequence comparisons of the two enzymes indicate an evolutionary origin of homospermidine synthase from ubiquitous deoxyhypusine synthase. The two recombinant enzymes from Senecio vernalis were purified, and their properties were compared. Protein-protein binding and kinetic substrate competition studies confirmed that homospermidine synthase, in comparison to deoxyhypusine synthase, lost the ability to bind the eIF5A(lys) to its surface. The two enzymes show the same unique substrate specificities, catalyze the aminobutylation of putrescine with the same specific activities, and exhibit almost identical Michaelis kinetics. In conclusion, homospermidine synthase behaves like a deoxyhypusine synthase that lost its major function (aminobutylation of eIF5A precursor protein) but retained unaltered its side activity (aminobutylation of putrescine). It is suggested as having evolved from deoxyhypusine synthase by gene duplication and being recruited for a new function.
脱氧hypusine合酶参与真核生物起始因子5A(eIF5A)的翻译后激活。该酶将亚精胺的氨丁基部分转移到eIF5A前体蛋白中的特定赖氨酸残基上,即eIF5A(lys)。高亚精胺合酶催化类似反应,但使用腐胺而非eIF5A(lys)作为底物,产生稀有多胺高亚精胺作为产物。高亚精胺是吡咯里西啶生物碱生物合成中的必需前体,吡咯里西啶生物碱是一类重要的植物抗食草动物防御化合物。两种酶的序列比较表明高亚精胺合酶起源于普遍存在的脱氧hypusine合酶。纯化了来自春千里光的两种重组酶,并比较了它们的性质。蛋白质-蛋白质结合和动力学底物竞争研究证实,与脱氧hypusine合酶相比,高亚精胺合酶失去了将eIF5A(lys)结合到其表面的能力。这两种酶表现出相同独特的底物特异性,以相同的比活性催化腐胺的氨丁基化反应,并表现出几乎相同的米氏动力学。总之,高亚精胺合酶的行为类似于一种失去其主要功能(eIF5A前体蛋白的氨丁基化)但保留其副活性(腐胺的氨丁基化)不变的脱氧hypusine合酶。有人认为它是通过基因复制从脱氧hypusine合酶进化而来,并被赋予了新功能。