National Institute of Immunology, Aruna Asaf Ali Marg, New Delhi 110 067, India.
Plant Physiol. 2010 Apr;152(4):1842-50. doi: 10.1104/pp.109.150680. Epub 2010 Feb 10.
A regulatory protein from grass pea (Lathyrus sativus), LS-24, a close homolog of albumin 2 from garden pea (Pisum sativum) that is associated with polyamine biosynthesis, was characterized and the structure of a hemopexin-type fold among plant proteins illustrated. Crystal structure of LS-24 determined at 2.2 A resolution by multiple isomorphous replacement phasing showed four-bladed beta-propeller structure having a pseudo 4-fold molecular symmetry along a metal ion-binding central channel. The structure represents typical mammalian hemopexin fold with discernible features correlated with the possible functional variations. The protein was found to exist in the dimeric state. While LS-24 dimer binds to spermine in the crystal structure as well as in solution, binding of heme in solution resulted in the dissociation of the dimer into monomers with concomitant release of bound spermine. Interactions of heme and spermine with LS-24 bear physiological implications. While binding of spermine to LS-24 can be linked with polyamine biosynthesis that of heme correlates with oxidative stress. Mutually exclusive binding of heme and spermine in different oligomeric states suggest a role for LS-24 in sensing oxidative stress through a ligand-regulated monomer-dimer transition switch.
从菜豆(Pisum sativum)中与多胺生物合成相关的近白蛋白 2 同源的草豌豆(Lathyrus sativus)调节蛋白 LS-24 已被鉴定,并说明了植物蛋白中血影蛋白型折叠的结构。通过多同晶置换相测定法在 2.2 A 分辨率下确定的 LS-24 晶体结构显示出具有沿金属离子结合中心通道的伪四元分子对称性的四叶 β-推进器结构。该结构代表了典型的哺乳动物血影蛋白折叠,具有可辨别的特征,与可能的功能变化相关。该蛋白被发现以二聚体形式存在。虽然 LS-24 二聚体在晶体结构中和溶液中都与亚精胺结合,但在溶液中结合血红素会导致二聚体解离成单体,并伴随结合的亚精胺释放。血红素和亚精胺与 LS-24 的相互作用具有生理意义。虽然与多胺生物合成相关的 LS-24 与亚精胺的结合,但与氧化应激相关的血红素的结合。血红素和亚精胺在不同寡聚态下的相互排斥结合表明 LS-24 在通过配体调节的单体-二聚体转换开关来感知氧化应激方面发挥作用。