Motes Christy M, Pechter Priit, Yoo Cheol Min, Wang Yuh-Shuh, Chapman Kent D, Blancaflor Elison B
Plant Biology Division, Samuel Roberts Noble Foundation, 2510 Sam Noble Parkway, Ardmore, OK 73401, USA.
Protoplasma. 2005 Dec;226(3-4):109-23. doi: 10.1007/s00709-005-0124-4. Epub 2005 Dec 12.
Plant development is regulated by numerous chemicals derived from a multitude of metabolic pathways. However, we know very little about the biological effects and functions of many of these metabolites in the cell. N-Acylethanolamines (NAEs) are a group of lipid mediators that play important roles in mammalian physiology. Despite the intriguing similarities between animals and plants in NAE metabolism and perception, not much is known about the precise function of these metabolites in plant physiology. In plants, NAEs have been shown to inhibit phospholipase Dalpha (PLDalpha) activity, interfere with abscisic acid-induced stomatal closure, and retard Arabidopsis seedling development. 1-Butanol, an antagonist of PLD-dependent phosphatidic acid production, was reported to induce defects in Arabidopsis seedling development that were somewhat similar to effects induced by elevated levels of NAE. This raised the possibility that the impact of NAE on seedling growth could be mediated in part via its influence on PLD activity. To begin to address this possibility, we conducted a detailed, comparative analysis of the effects of 1-butanol and N-lauroylethanolamine (NAE 12:0) on Arabidopsis root cell division, in vivo cytoskeletal organization, seed germination, and seedling growth. Although both NAE 12:0 and 1-butanol induced profound cytoskeletal and morphological alterations in seedlings, there were distinct differences in their overall effects. 1-Butanol induced more pronounced modifications in cytoskeletal organization, seedling growth, and cell division at concentrations severalfold higher than NAE 12:0. We propose that these compounds mediate their differential effects on cellular organization and seedling growth, in part through the differential modulation of specific PLD isoforms.
植物的发育受众多源自多种代谢途径的化学物质调控。然而,我们对细胞中许多此类代谢物的生物学效应和功能却知之甚少。N-酰基乙醇胺(NAEs)是一类脂质介质,在哺乳动物生理学中发挥着重要作用。尽管动植物在NAE代谢和感知方面存在引人关注的相似性,但对于这些代谢物在植物生理学中的精确功能却了解不多。在植物中,NAEs已被证明可抑制磷脂酶Dα(PLDα)的活性,干扰脱落酸诱导的气孔关闭,并延缓拟南芥幼苗的发育。据报道,1-丁醇作为PLD依赖性磷脂酸产生的拮抗剂,会诱导拟南芥幼苗发育缺陷,这与NAE水平升高所诱导的效应有些相似。这就提出了一种可能性,即NAE对幼苗生长的影响可能部分是通过其对PLD活性的影响来介导的。为了开始探究这种可能性,我们对1-丁醇和N-月桂酰乙醇胺(NAE 12:0)对拟南芥根细胞分裂、体内细胞骨架组织、种子萌发和幼苗生长的影响进行了详细的比较分析。尽管NAE 12:0和1-丁醇都在幼苗中诱导了深刻的细胞骨架和形态学改变,但它们的总体效应存在明显差异。在浓度比NAE 12:0高几倍的情况下,1-丁醇在细胞骨架组织、幼苗生长和细胞分裂方面诱导的变化更为明显。我们认为,这些化合物部分通过对特定PLD亚型的差异调节来介导它们对细胞组织和幼苗生长的不同影响。
