Arabidopsis Profilin Isoforms, PRF1 and PRF2Show Distinctive Binding Activities and Subcellular Distributions

Profilin is an actin-binding protein that shows complex effects on the dynamics of the actin cytoskeleton. There are five profilin isoforms in Arabidopsis thaliana L. However, it is still an open question whether these isoforms are functionally different. In the present study, two profilin isoforms from Arabidopsis, PRF1 and PRF2 were fused with green fluorescent protein (GFP) tag and expressed in Escherichia coli and A. thaliana in order to compare their biochemical properties in vitro and their cellular distributions in vivo. Biochemical analysis revealed that fusion proteins of GFP-PRF1 and GFP-PRF2 can bind to poly-L-proline and G-actin showing remarkable differences. GFP-PRF1 has much higher affinities for both poly-L-proline and G-actin compared with GFP-PRF2. Observations of living cells in stable transgsnic A. thaliana lines revealed that 35S::GFP-PRF1 formed a filamentous network, while 35S::GFP-PRF2 formed polygonal meshes. Results from the treatment with latrunculin A and a subsequent recovery experiment indicated that filamentous alignment of GFP-PRF1 was likely associated with actin filaments. However, GFP-PRF2 localized to polygonal meshes resembling the endoplasmic reticulum. Our results provide evidence that Arabidopsis profllin isoforms PRF1 and PRF2 have different biochemical affinities for poly-L-proline and G-actin, and show distinctive Iocalizations in living cells. These data suggest that PRF1 and PRF2 are functionally different isoforms.     

植物细胞中的前纤维蛋白

肌动蛋白组成的微丝骨架是真核细胞中的重要结构,在体内处于高度动态变化之中,受多种肌动蛋白结合蛋白（actin-binding proteins）的调节。前纤维蛋白（profilin）是一种单体肌动蛋白结合蛋白,存在于所有的真核细胞中,在植物细胞中也得到较多的研究。前纤维蛋白除可以结合单体肌动蛋白之外,还可以与磷脂酰肌醇及富含多聚脯氨酸的蛋白质等多种分子结合,在细胞信号转导中行使着重要的功能。本文结合本实验室的研究结果,概述了前纤维蛋白的最新研究进展。     

ATP和钾离子对肌动蛋白与前纤维蛋白结合的影响及其在植物肌动蛋白纯化中的应用

根据ATP和钾离子影响肌动蛋白聚合及肌动蛋白及肌动蛋白与前纤维蛋白结合的实验结果,通过对以往报道的利用多聚脯氨酸-琼脂糖亲和柱层析法纯化植物肌动蛋白过程中ATP及钾离子浓度的改变,不需要加源前纤维蛋白。可得到较大量高纯度具活性的花粉肌动蛋白。SDS凝胶电泳、免疫印迹、电镜负染及紫外检测表明,所得肌动蛋白在纯度、聚合特性等方面均与原方法所得结果相同,肌动蛋白产率为原方法的73.5%,而整个肌动蛋白提纯过程所需时间缩短了1/3,节省了纯化重组前纤维蛋白所需的费用,消除了外源前纤维蛋白的使用对一些实验室的限制,而且同时得到了大量纯化的花粉前纤维蛋白。     

Arabidopsis Profilin Isoforms,PRF1 and PRF2 Show Distinctive Binding Activities and Subcellular Distributions

Profilin is an actin-binding protein that shows complex effects on the dynamics of the actin cytoskeleton. There are five profilin isoforms in Arabidopsis thaliana L. However, it is still an open question whether these isoforms are functionally different. In the present study, two profilin isoforms from Arabidopsis, PRF1 and PRF2 were fused with green fuorescent protein （GFP） tag and expressed in Escherichia coil and A. thaliana in order to compare their biochemical properties in vitro and their cellular distributions in vivo. Biochemical analysis revealed that fusion proteins of GFP-PRF1 and GFP-PRF2 can bind to poly-L-proline and G-actin showing remarkable differences. GFP-PRF1 has much higher affinities for both poly-L-proline and G-actin compared with GFP-PRF2. Observations of living cells in stable transgenic A. thaliana lines revealed that 35S：：GFP-PRF1 formed a filamentous network, while 35S：：GFP-PRF2 formed polygonal meshes. Results from the treatment with latrunculin A and a subsequent recovery experiment indicated that filamentous alignment of GFP-PRF1 was likely associated with actin filaments. However, GFP-PRF2 localized to polygonal meshes resembling the endoplasmic reticulum. Our results provide evidence that Arabidopsis profllin isoforms PRF1 and PRF2 have different biochemical affinities for poly-L-proline and G-actin, and show distinctive Iocalizations in living cells. These data suggest that PRF1 and PRF2 are functionally different isoforms.     

Profilin tyrosine phosphorylation in poly-L-proline-binding regions inhibits binding to phosphoinositide 3-kinase in Phaseolus vulgaris

The profilin family consists of a group of ubiquitous highly conserved 12-15 kDa eukaryotic proteins that bind actin, phosphoinositides, poly-l-proline (PLP) and proteins with proline-rich motifs. Some proteins with proline-rich motifs form complexes that have been implicated in the dynamics of the actin cytoskeleton and processes such as vesicular trafficking. A major unanswered question in the field is how profilin achieves the required specificity to bind such an array of proteins. It is now becoming clear that profilin isoforms are subject to differential regulation and that they may play distinct roles within the cell. Considerable evidence suggests that these isoforms have different functional roles in the sorting of diverse proteins with proline-rich motifs. All profilins contain highly conserved aromatic residues involved in PLP binding which are presumably implicated in the interaction with proline-rich motif proteins. We have previously shown that profilin is phosphorylated on tyrosine residues. Here, we show that profilin can bind directly to Phaseolus vulgaris phosphoinositide 3-kinase (PI3K) type III. We demonstrate that a new region around Y72 of profilin, as well as the N- and C-terminal PLP-binding domain, recognizes and binds PLP and PI3K. In vitro binding assays indicate that PI3K type III forms a complex with profilin in a manner that depends on the tyrosine phosphorylation status within the proline-rich-binding domain in profilin. Profilin-PI3K type III interaction suggests that profilin may be involved in membrane trafficking and in linking the endocytic pathway with actin reorganization dynamics.     

水稻花粉[肌动蛋白]抑制蛋白基因的克隆和表达分析

[肌动蛋白]抑制蛋白（profilin）是一种低分子量、与肌动蛋白结构的蛋白质。通过筛选水稻成熟花粉的cDNA文库,获得了两个全长cDNA片段,序列分析结果表明,两个cDNA片段长度分别为821bp和805bp;共同拥有一个由131个氨基酸组成的开放密码框、5′末端翻译区和一个带有poly(A)的3′区域。[肌动蛋白]抑制蛋白与玉米、C.dactylon、H.brasiliensis、P.pratense中的该蛋白质的同源性分别为89％、87％、83％、89％。Southern杂交分析显示,在基因组至少有两个基因存在。Northern杂交和RT-PCR结果显示它在花粉和花粉中特异表达。     

三叶木通花粉前纤维蛋白基因的克隆与表达

以三叶木通花蕾为材料,采用RT-PCR、3-′RACE方法克隆了三叶木通花粉前纤维蛋白基因,命名为Atf-Pro(GenBank登录号GQ478584)。结果表明:AtfPro的cDNA全长735 bp、阅读框393 bp、编码131个氨基酸,有1个342 bp的3′端非翻译区。预测分子量约为14.081 kD,等电点4.74。氨基酸和核苷酸序列的同源性分析发现,AtfPro基因属于植物花粉profilin基因家族的新成员。RT-PCR定性分析表明,AtfPro基因在三叶木通花蕾、花药、雌花花瓣和柱头组织中均有表达,但在幼叶、茎尖、根尖组织中低水平表达或不表达,生殖器官中的表达时期从花序分化发育开始到开花散粉结束。     

粗糙脉孢菌前纤维蛋白Y86和R88位点突变抑制菌丝生长

微丝骨架在真菌的生长发育过程中发挥着重要的作用,而动力学特性是其实现功能的关键．前纤维蛋白（profilin）是肌动蛋白动态组装的主要调控因子,对其功能研究有助于阐明微丝骨架在真菌生长发育中的机制．本文以丝状真菌模式生物粗糙脉孢菌(Neurospora crassa)为材料,利用定点突变技术和同源重组技术,分别将前纤维蛋白上肌动蛋白结合位点86位酪氨酸（Y86）和88位精氨酸（R88）进行了单突变和双突变,获得了Y86R、R88E和Y86RR86E前纤维蛋白点突变株．进一步利用平板培养和竞争性生长管培养对点突变株的表型进行分析后发现,与野生型相比,3个前纤维蛋白点突变株的菌丝生长均明显减慢．这些结果表明,前纤维蛋白与肌动蛋白的相互作用对于N. crassa的生长和发育至关重要．     

Actin binding proteins that change extent and rate of actin monomer-polymer distribution by different mechanisms

Actin binding proteins control actin assembly and disassembly by altering the critical concentration and by changing the kinetics of polymerization. All of these control mechanisms in some way or the other make use of the energy of hydrolysis of actin-bound ATP. Capping of barbed filament ends increases the critical concentration as long as ATP hydrolysis maintains a difference in the actin monomer binding constants of the two ends. A further increase in the critical concentration on adding a second cap, tropomodulin, to the other, pointed filament end also requires ATP hydrolysis as described by the model presented here. Changes in the critical concentration are amplified into much larger changes of the monomer pool by actin sequestering proteins, provided their actin binding equilibrium constants fall within a relatively narrow range around the values for the two critical concentrations of actin. Cofilin greatly speeds up treadmilling, which requires ATP hydroysis, by increasing the rate constant of depolymerization. Profilin increases the rate of elongation at the barbed filament end, coupled to a lowering of the critical concentration, only if ATP hydrolysis makes profilin binding to the barbed end independent of its binding constant for actin monomers.     

Profilin1 activity in cerebellar granule neurons is required for radial migration in vivo

Neuron migration defects are an important aspect of human neuropathies. The underlying molecular mechanisms of such migration defects are largely unknown. Actin dynamics has been recognized as an important determinant of neuronal migration, and we recently found that the actin-binding protein profilin1 is relevant for radial migration of cerebellar granule neurons (CGN). As the exploited brain-specific mutants lacked profilin1 in both neurons and glial cells, it remained unknown whether profilin1 activity in CGN is relevant for CGN migration in vivo. To test this, we capitalized on a transgenic mouse line that expresses a tamoxifen-inducible Cre variant in CGN, but no other cerebellar cell type. In these profilin1 mutants, the cell density was elevated in the molecular layer, and ectopic CGN occurred. Moreover, 5-bromo-2′-deoxyuridine tracing experiments revealed impaired CGN radial migration. Hence, our data demonstrate the cell autonomous role of profilin1 activity in CGN for radial migration.