磷脂酸在植物中的第二信使功能

磷脂酸(phosphatidic acid, PA)是植物中重要的细胞内信号分子,被称为“脂质第二信使”,特别是几个PA的作用靶点已被克隆和鉴定.植物体内PA的产生可以通过磷脂酶C和D两条信号通路,前者与甘油二酯激酶协同作用.PA主要由各种生物和非生物胁迫诱导产生,磷脂酸的水平在各种胁迫处理后的几分钟内增强.增强的信号水平通过PA的磷酸化形成甘油二酯焦磷酸而被迅速减弱.本文就PA产生的磷脂酶信号通路,PA在各种胁迫诱导下的产生,PA的作用靶点和作用机理及在植物中的功能等几个方面进行综述.     

Signaling roles of diacylglycerol kinases

Diacylglycerol kinases (DGKs) attenuate diacylglycerol signaling by converting this lipid to phosphatidic acid (PA). The nine mammalian DGKs that have been identified are widely expressed, but each isoform has a unique tissue and subcellular distribution. Their kinase activity is regulated by mechanisms that modify their access to diacylglycerol, directly affect their kinase activity, or alter their ability to bind to other proteins. In many cases, these enzymes regulate the activity of proteins that are modulated by either diacylglycerol or PA. Experiments using cultured cells and model organisms have demonstrated that DGKs have prominent roles in neuronal transmission, lymphocyte signaling, and carcinogenesis.     

The sphingosine and diacylglycerol kinase superfamily of signaling kinases: localization as a key to signaling function

The sphingosine and diacylglycerol kinases form a superfamily of structurally related lipid signaling kinases. One of the striking features of these kinases is that although they are clearly involved in agonist-mediated signaling, this signaling is accomplished with only a moderate (and sometimes no) increase in the enzymatic activity of the enzymes. Here, we summarize findings that indicate that signaling by these kinases is strongly dependent on their localization to specific intracellular sites rather than on increases in enzyme activity. Both the substrates and products of these enzymes are bioactive lipids. Moreover, many of the metabolic enzymes that act on these lipids are found in specific organelles. Therefore, changes in the membrane localization of these signaling kinases have profound effects not only on the production of signaling lipid phosphates but also on the metabolism of the upstream signaling lipids.     

Immunolocalization of Drosophila eye-specific diacylgylcerol kinase,rdgA, which is essential for the maintenance of the photoreceptor

The Drosophila retinal degeneration A (rdgA) mutant has photoreceptor cells that degenerate within a week after eclosion. The degeneration starts with the disruption of the subrhabdomeric cisternae (SRC), which are the organelles essential for the transport of phospholipids to the photoreceptive membranes. Our previous biochemical and molecular studies suggested that the rdgA gene encodes an eye-specific diacylglycerol kinase (DGK). In this study, we show that retinal degeneration is prevented by the introduction of the eye-DGK gene in the rdgA mutant genome, suggesting that the DGK activity is crucial for the maintenance of the photoreceptor. Furthermore, by immunohistochemical analysis, we have demonstrated that the rdgA protein is predominantly associated with the SRC, suggesting that the conversion from diacylglycerol (DG) to phosphatidic acid (PA) most actively occurs in SRC. The analysis of the eyes of mutants homozygous for rdgA and eye-protein kinase C mutations indicates that retinal degeneration is caused by the deficiency of PA rather than excessive accumulation of DG. From these data, we conclude that the production of PA in the SRC membranes is essential for the maintenance of the photoreceptor. © 1997 John Wiley & Sons, Inc. J Neurobiol 32 : 695–706, 1997     

Evidence for the presence of diacylglycerol kinase in rat brain myelin

The previous demonstration that incubation of brain slices with [³²P]phosphate brings about rapid tabeling of phosphatidic acid in myelin suggests that the enzyme involved should be present in this specialized membrane. DAG kinase (ATP:1,2-diacyglycerol 3-phosphotransferase, E.C. 2.7.1.107) is present in rat brain homogenate at a specific activity of 2.5 nmol phosphatidic acid formed/min/mg protein, while highly purified myelin had a much lower specific activity (0.29 nmol/min/mg protein). Nevertheless, the enzyme appears to be intrinsic to this membrane since it can not be removed by washing with a variety of detergents or chelating agents, and it could not be accounted for as contamination by another subcellular fraction. Production of endogenous, membrane-associated, diacylglycerol (DAG) by PLC (phospholipase C) treatment brought about translocation from soluble to particulate fractions, including myelin. Another level of control of activity involves inactivation by phosphorylation; a 10 min incubation of brain homogenate with ATP resulted in a large decrease in DAG kinase activity in soluble, particulate and myelin fractions.     

磷脂酸的诱导和降解在植物逆境响应中的作用

磷脂酸(phosphatidic acid,PA)是植物中重要的脂质信号分子,被称为"脂质第二信使",参与多种逆境胁迫相关的信号传导途径.植物体内的PA可通过直接的磷脂酶D途径和间接的磷脂酶C途径产生.当植物受到胁迫刺激后,细胞内的PA含量会在几分钟内升高,在胁迫消失后经磷酸化作用形成甘油二酯焦磷酸降解,恢复到正常水平...     

Analysis of lipid-composition changes in plasma membrane microdomains

Sphingolipids accumulate in plasma membrane microdomain sites, such as caveolae or lipid rafts. Such microdomains are considered to be important nexuses for signal transduction, although changes in the microdomain lipid components brought about by signaling are poorly understood. Here, we applied a cationic colloidal silica bead method to analyze plasma membrane lipids from monolayer cells cultured in a 10 cm dish. The detergent-resistant fraction from the silica bead-coated membrane was analyzed by LC-MS/MS to evaluate the microdomain lipids. This method revealed that glycosphingolipids composed the microdomains as a substitute for sphingomyelin (SM) in mouse embryonic fibroblasts (tMEFs) from an SM synthase 1/2 double KO (DKO) mouse. The rate of formation of the detergent-resistant region was unchanged compared with that of WT-tMEFs. C2-ceramide (Cer) stimulation caused greater elevations in diacylglycerol and phosphatidic acid levels than in Cer levels within the microdomains of WT-tMEFs. We also found that lipid changes in the microdomains of SM-deficient DKO-tMEFs caused by serum stimulation occurred in the same manner as that of WT-tMEFs. This practical method for analyzing membrane lipids will facilitate future comprehensive analyses of membrane microdomain-associated responses.     

血管紧张素转换酶的结构功能及相关抑制剂

血管紧张素转化酶(angiotensin converting enzyme, ACE, EC 3.4.15.1)是一种位于细胞膜上, 依赖锌离子的羧二肽酶, 催化水解十肽血管紧张素I羧基末端两个氨基酸, 生成具有血管收缩作用的八肽血管紧张素II。ACE在血压调节系统renin - angiotensin system (RAS系统)中具有重要作用, 从ACE的结构功能、基因多态性及其抑制剂等方面进行了详细综述。发现体细胞ACE两个活性中心催化血管紧张素I和缓激肽的机制不同, 因此以体细胞ACE单个活性中心为靶点的研究, 将会为研制开发副作用更少, 安全性更高的ACE抑制剂提供新的途径。     

Lipid droplet formation on opposing sides of the endoplasmic reticulum

In animal cells, the primary repositories of esterified fatty acids and alcohols (neutral lipids) are lipid droplets that form on the lumenal and/or cytoplasmic side of the endoplasmic reticulum (ER) membrane. A monolayer of amphipathic lipids, intermeshed with key proteins, serves to solubilize neutral lipids as they are synthesized and desorbed. In specialized cells, mobilization of the lipid cargo for delivery to other tissues occurs by secretion of lipoproteins into the plasma compartment. Serum lipoprotein assembly requires an obligate structural protein anchor (apolipoprotein B) and a dedicated chaperone, microsomal triglyceride transfer protein. By contrast, lipid droplets that form on the cytoplasmic face of the ER lack an obligate protein scaffold or any required chaperone/lipid transfer protein. Mobilization of neutral lipids from the cytosol requires regulated hydrolysis followed by transfer of the products to different organelles or export from cells. Several proteins play a key role in controlling droplet number, stability, and catabolism; however, it is our premise that their formation initiates spontaneously, solely as a consequence of neutral lipid synthesis. This default pathway directs droplets into the cytoplasm where they accumulate in many lipid disorders.     

Evidence for de novo synthesis of phosphatidylinositol coupled with histamine release in activated rat mast cells

Phospholipid metabolisms in rat mast cells activated by ionophore A23187 and compound 48/80 were examined with reference to 'phosphatidylinositol (PI) cycle'. The addition of A23187 to [3H]glycerol-prelabeled mast cells induced a marked accumulation of the radioactivity in 1,2-diacylglycerol(DG) and phosphatidic acid(PA) within 10 to 30 sec. A great enhancement of [3H]glycerol incorporation into PA and PI was also detected during histamine release. On the other hand, 48/80 was far less effective than A23187 both in producing 1,2- DG and PA and in accerelating [3H]glycerol incorporation into PA and PI, despite the comparable ability of histamine release. The activity of Ca2+ uptake into mast cells, as measured by pulse-labeling with 45Ca2+, was increased when exposed to both of two agents. These data provide circumstantial evidence that phospholipid metabolisms, mainly de novo PI synthesis, may be a part of the triggering events for Ca2+ mobilization and secretory process. The PI metabolism induced by two different stimulants appears to behave in a different manner.     

Tinospora cordifolia induces enzymes of carcinogen/drug metabolism and antioxidant system, and inhibits lipid peroxidation in mice

The present study is an effort to identify a potent chemopreventive agent against various diseases (including cancer) in which oxidative stress plays an important causative role. Here, we investigated the effect of a hydroalcoholic (80% ethanol: 20% distilled water) extract of aerial roots of Tinospora cordifolia (50 and 100mg/kg body wt./day for 2 weeks) on carcinogen/drug metabolizing phase-I and phase-II enzymes, antioxidant enzymes, glutathione (GSH) content, lactate dehydrogenase and lipid peroxidation in liver of 8-week-old Swiss albino mice. The modulatory effect of the extract was also examined on extrahepatic organs, i.e., lung, kidney and forestomach, for the activities of GSH S-transferase (GST), DT-diaphorase (DTD), superoxide dismutase (SOD) and catalase. Significant increases in the levels of acid-soluble sulfhydryl (-SH) and cytochrome P(450) contents, and enzyme activities of cytochrome P(450) reductase, cytochrome b(5) reductase, GST, DTD, SOD, catalase, GSH peroxidase (GPX) and GSH reductase (GR) were observed in the liver. Both treated groups showed decreased malondialdehyde (MDA) formation. In lung SOD, catalase and GST; in kidney SOD and catalase; and in forestomach SOD, DTD and GST showed significant increase at both dose levels of treatment. BHA (0.75%, w/w in diet), a pure antioxidant compound, was used as a positive control. This group showed increase in hepatic levels of GSH content, cytochrome b(5), DTD, GST, GR and catalase, whereas MDA formation was inhibited significantly. In the BHA-treated group, the lung and kidney showed increased levels of catalase, DTD and GST, whereas SOD was significantly increased in the kidney and forestomach; the latter also showed an increase in the activities of DTD and GST. The enhanced GSH level and enzyme activities involved in xenobiotic metabolism and maintaining antioxidant status of cells are suggestive of a chemopreventive efficacy of T. cordifolia against chemotoxicity, including carcinogenicity, which warrants further investigation of active principle (s) present in the extract responsible for the observed effects employing various carcinogenesis models.     

Changes in the activities of aldolase and other enzymes for carbohydrate metabolism during embryonic and postembryonic development of Bombyx mori

Eggs at the early stages of embryogenesis and the larval fat body in Bombyx mori were confirmed to have an aldolase (ALD) isozyme type S. Its activity ratio with substrates fructose 1,6-bisphosphate (FBP) and fructose 1-phosphate (F1P) was 3. This isozyme was considered to be in favor of rather efficient utilization of F1P, since eggs in early stages of embryogenesis and the fat body had high activities of NADP-sorbitol dehydrogenase (NADP-SDH) and NAD-sorbitol dehydrogenase (NAD-SDH) responsible for the polyol pathway generating F1P. On the other hand, eggs at the second half of embryogenesis and the larval and adult muscle (plus epidermal cells and cuticle) possessed an ALD isozyme type F, whose FBP/F1P activity ratio was 10, suggesting that F1P utilization is less effective. This is in agreement with the fact that the NADP-SDH and NAD-SDH activities were low and the phosphofructokinase (PFK) activity was high in eggs at these stages and in muscle. Arch. Insect Biochem. Physiol. 36:139–148, 1997. © 1997 Wiley-Liss, Inc.     

Regulation of gene expression of hepatic drug metabolizing enzymes and transporters by the Toll-like receptor 2 ligand, lipoteichoic acid

Expression of hepatic drug metabolizing enzymes (DMEs) is altered in infection and inflammation. However, the role of Gram+ve bacterial components and their receptor, Toll-like receptor (TLR) 2 in regulation of hepatic DMEs is unknown. Gene expression of DMEs is regulated by members of the nuclear receptor superfamily (PXR, CAR and RXRα). The TLR2 ligand, lipoteichoic acid (LTA) reduced RNA levels of CAR and its target genes, Cyp2b10, Cyp2a4 and Sultn in mouse liver (∼60-80% reduction). Hepatic genes regulated by PXR and CAR, Cyp3a11 and Mrp2 were moderately reduced by LTA, along with ∼50% reduction of PXR RNA and nuclear protein levels of RXRα. The effects of LTA were significantly attenuated by pre-treatment with the Kupffer cell inhibitor, gadolinium chloride, indicating that Kupffer cells contribute to LTA-mediated down-regulation of hepatic genes. These results indicate that treatment with Gram+ve bacterial components preferentially down-regulate CAR and its target genes in the liver.     

The Synthesis of Photoaffinity Neoglycolipid Probes as Tools for Studying Membrane Lectins

A method for the synthesis of photoaffinity neoglycolipid probes with a highly efficient carbene-generating diazocyclopentadien-2-ylcarbonyl (Dcp) label, which can be radioiodinated under standard oxidation conditions, was developed. The probes are intended for incorporation into the lipid bilayer. They are lipophilic glycoconjugates on the basis of an amphiphilic aglycone built up from a diacylglycerol and a polyethylene glycol spacer (with a polymerization degree of 9–16) bearing the Dcp label at the terminal unit. The location of the label in the aglycone provides the possibility of one-step preparation of a wide range of probes using various carbohydrate synthons. We have synthesized photoaffinity neoglycoconjugates containing the oligosaccharides Sialyl LewisX and A trisaccharide, which are specific to some tumor cells. A probe containing an inactive pentaol (aminodeoxyglucitol) was also synthesized to detect nonspecific binding. The Dcp label is bound to the probe molecule by ester bond; its lability under alkaline conditions facilitates the analysis of crosslinked products after photoaffinity labeling.     

NaCl胁迫对无花果与海棠膜脂过氧化作用及保护酶活性的影响

在不同浓度NaCl处理条件下,无花果和海棠的耐NaCl逐渐表现出明显的差异。无花果的耐NaCl能力低于海棠,其枯萎症状的出现早于海棠。溶液随时间变化而改变的不同浓度处理下,无花果和海棠的耐NaCl胁迫的动态响应表现出显著差异。由于耐NaCl胁迫的能力不同,无花果的枯萎症状出现早于海棠。海棠MDA含量,随胁迫浓度的增大,表现出增高的趋势,而无花果的MDA含量变化较早地出现了下降趋势,但是仍高于对照水平;RC与MDA含量变化呈现正相关关系;保护酶SOD活性整体表现出下降的趋势;而POD活性变化表现出不显著的增高趋势。     

Synaptic removal of diacylglycerol by DGKζ and PSD‐95 regulates dendritic spine maintenance

Diacylglycerol (DAG) is an important lipid signalling molecule that exerts an effect on various effector proteins including protein kinase C. A main mechanism for DAG removal is to convert it to phosphatidic acid (PA) by DAG kinases (DGKs). However, it is not well understood how DGKs are targeted to specific subcellular sites and tightly regulates DAG levels. The neuronal synapse is a prominent site of DAG production. Here, we show that DGKζ is targeted to excitatory synapses through its direct interaction with the postsynaptic PDZ scaffold PSD‐95. Overexpression of DGKζ in cultured neurons increases the number of dendritic spines, which receive the majority of excitatory synaptic inputs, in a manner requiring its catalytic activity and PSD‐95 binding. Conversely, DGKζ knockdown reduces spine density. Mice deficient in DGKζ expression show reduced spine density and excitatory synaptic transmission. Time‐lapse imaging indicates that DGKζ is required for spine maintenance but not formation. We propose that PSD‐95 targets DGKζ to synaptic DAG‐producing receptors to tightly couple synaptic DAG production to its conversion to PA for the maintenance of spine density.