Ultrastructural and cytochemical studies of acid phosphatase and trimetaphosphatase in rat peritoneal mast cells developing in vivo

Summary The ultrastructural and cytochemical features of peritoneal mast cells of the rat were studied. Immature mast cells show specific cytoplasmic granules of different sizes, the smaller ones localized in the Golgi region. The rough endoplasmic reticulum and Golgi apparatus are well developed, and mitochondria are numerous. Nuclei show deep indentations. Acid phosphatase is present in the Golgi saccules, in GERL (Golgi apparatus-endoplasmic reticulumlysosome) and in some small granules. It is not present in mature granules. Trimetaphosphatase is present in the Golgi saccules, in GERL, in most immature granules and in some mature granules. These enzymes appear to be transported and packaged into granules by the Golgi apparatus, suggesting that the specific mast cell granules may be a form of lysosome. The results of this study are consistent with the hypothesis that peritoneal mast cells may be derived from macrophage-like precursors.     

Tannic acid affects the phenotype of Staphylococcus aureus resistant to tetracycline and erythromycin by inhibition of efflux pumps

The widespread use of antibiotics created selective pressure for the emergence of strains that would persist despite antibiotic toxicity. The bacterial resistance mechanisms are several, with efflux pumps being one of the main ones. These pumps are membrane proteins with the function of removing antibiotics from the cell cytoplasm. Due to this importance, the aim of this work was to evaluate the inhibitory effect of tannic acid against efflux pumps expressed by the Staphylococcus aureus RN4220 and IS-58 strains. The efflux pump inhibition was assayed using a sub-inhibitory concentration of efflux pump standard inhibitors and tannic acid (MIC/8), observing their capacity to decrease the MIC of Ethidium bromide (EtBr) and antibiotics due the possible inhibitory effect of these substances. The MICs of EtBr and antibiotics were significantly different in the presence of tannic acid, indicating the inhibitory effect of this product against efflux pumps of both strains. These results indicate the possible usage of tannic acid as an inhibitor and an adjuvant in the antibiotic therapy against multidrug resistant bacteria (MDR).     

Molecular complexes that contain both c-Cbl and c-Src associate with Golgi membranes

Cbl is an adaptor protein that is phosphorylated and recruited to several receptor and non-receptor tyrosine kinases upon their activation. After binding to the activated receptor, Cbl plays a key role as a kinase inhibitor and as an E3 ubiquitin ligase, thereby contributing to receptor down-regulation and internalization. In addition, Cbl translocates to intracellular vesicular compartments following receptor activation. We report here that Cbl also associates with Golgi membranes. Confocal immunofluorescence staining of Cbl in a variety of unstimulated cells, including CHO cells, revealed a prominent perinuclear colocalization of Cbl and a Golgi marker. Both the prominent Cbl staining and the Golgi marker were dispersed by brefeldin A. Subcellular fractionation of CHO cells demonstrated that about 10% of Cbl is stably associated with membranes, and that Golgi-enriched membrane fractions produced by isopycnic density centrifugation and free-flow electrophoresis are also enriched in Cbl, relative to other membrane fractions. The membrane-bound Cbl was hyperphosphorylated and it co-immunoprecipitated with endogenous Src. By immunofluorescence, some Src colocalized with Cbl and Golgi markers, and Src, like Cbl, was present in the Golgi-enriched fraction prepared by sequential density centrifugation and free-flow electrophoresis. Transfection of an activated form of Src, but not wild-type Src, increased the amount of Src that co-immunoprecipitated with Cbl, and increased the intensity of Cbl staining on the Golgi. This result, together with the increased tyrosine phosphorylation of the membrane-associated Cbl, suggests that Golgi-associated Cbl could be part of a molecular complex that contains activated Src. The localization and interaction of Src and Cbl at the Golgi and the regulation of the interaction of Cbl with Golgi membrane suggest that this complex may contribute to the regulation of Golgi function.     

The hypolipidemic compound cetaben induces changes in Golgi morphology and vesicle movement

The human hepatoma cell line HepG2 was used to study the effect of cetaben, a non-fibrate hypolipidemic drug, on cell morphology and vesicle distribution. Cetaben treatment correlated with a fragmentation and/or condensation of Golgi cisternae and the appearance of large electron-lucent vesicles. The Golgi apparatus, demonstrated, for example, by fluorescence-lectin histochemistry, was fragmented after cetaben treatment. The lectin-positive remnants were dispersed throughout the cytoplasm, but with a preference for being transported to tips of cells. However, microtubules and the intermediate filaments as well as the actin microfilaments were unchanged after cetaben treatment indicating that changes in Golgi morphology are not caused by alterations in the cytoskeleton. Cetaben decreases the cholesterol content due to inhibition of cholesterol biosynthesis. Changes in the intracellular cholesterol content are known to influence the intracellular vesicle distribution and are most likely responsible for cetaben-induced Golgi alterations, as depletion of cellular cholesterol by starvation or lovastatin and/or cyclodextrin treatment resulted in a similar redistribution of Golgi-derived wheat germ agglutinin vesicles. These lectin-stained vesicles colocalized with lysosomal marker proteins such as Limp-1 and Lamp-2, but not with the early endosomal markers Rab5 and EEA1. Upon removal of cetaben the lectin- and Limp-1/Lamp-2-costained vesicles dissociated and were transported back to the perinuclear region. Thus, cetaben-induced changes such as fragmentation of the Golgi apparatus and the dispersion of lysosomes away from their juxtanuclear location were reversible.Electronic Supplementary Material Supplementary material is available in the online version of this article at http://dx.doi.org/10.1007/s00418-004-0689-6     

The Golgi apparatus in the endomembrane-rich gastric parietal cells exist as functional stable mini-stacks dispersed throughout the cytoplasm

Background information. Acid‐secreting gastric parietal cells are polarized epithelial cells that harbour highly abundant and specialized, H⁺, K⁺ ATPase‐containing, tubulovesicular membranes in the apical cytoplasm. The Golgi apparatus has been implicated in the biogenesis of the tubulovesicular membranes; however, an unanswered question is how a typical Golgi organization could regulate normal membrane transport within the membrane‐dense cytoplasm of parietal cells. Results. Here, we demonstrate that the Golgi apparatus of parietal cells is not the typical juxta‐nuclear ribbon of stacks, but rather individual Golgi units are scattered throughout the cytoplasm. The Golgi membrane structures labelled with markers of both cis‐ and trans‐Golgi membrane, indicating the presence of intact Golgi stacks. The parietal cell Golgi stacks were closely aligned with the microtubule network and were shown to participate in both anterograde and retrograde transport pathways. Dispersed Golgi stacks were also observed in parietal cells from H⁺, K⁺ ATPase‐deficient mice that lack tubulovesicular membranes. Conclusions. These results indicate that the unusual organization of individual Golgi stacks dispersed throughout the cytoplasm of these terminally differentiated cells is likely to be a developmentally regulated event.     

Ultrastructural changes in the Golgi apparatus and secretory granules of HL-60 cells treated with the imino sugar N-butyldeoxynojirimycin

The imino sugar N-butyldeoxynojirimycin inhibits the N-linked oligosaccharide processing enzymes α-glucosidases I and II, and the ceramide specific glucosyltransferase which catalyses the first step in glucosphingolipid biosynthesis. We have studied the effects of this compound on the ultrastructure of HL-60 cells to identify novel activities of this compound. Treatment of HL-60 cells with this imino sugar results in several morphological changes within the cell, none of which result in cytotoxicity. The plasma membrane stains heavily with potassium ferrocyanide within 30 min following addition of the compound to the medium, and there is then a time dependent involvement of all other intracellular membranes. Secretory granules become enlarged and lose their dense core morphology and appear either empty and vacuolated or have low density contents. However, the most striking effect of NB-DNJ treatment is on the Golgi apparatus. The Golgi exhibits a time-dependent change from typical Golgi morphology to a structure almost completely devoid of cisternae and consisting predominantly of vesicles. All the observed changes are fully reversible on withdrawal of the compound.     

单宁酸对根田鼠食物摄入量和蛋白质消化率的效应

在食物中含10 %和20%蛋白质的条件下, 采用食物平衡法测定了单宁酸对根田鼠食物摄入量和蛋白质消化率的作用。食物蛋白质含量为10 %时, 第1～5 天, 单宁酸对根田鼠食物摄入量具有显著的抑制作用, 自第6天, 其作用不明显, 以3 %和6 %单宁酸处理的根田鼠, 其食物蛋白质消化率较对照组分别降低22 %和47.67 %;在食物蛋白质含量为20 %的条件下, 单宁酸对根田鼠的食物摄入量和蛋白质消化率无显著作用。上述结果验证了植物次生化合物能抑制植食性小哺乳动物食物摄入量及蛋白质消化率的假设。     

The assembly of lipid-linked oligosaccharides in plant and animal membranes

Membrane preparations from growing regions of pea stems and activelydividing mouse L-cells form lipid-linked saccharides from GDP-mannose and UDP-N-acetylglucosamine. These lipids have properties which are consistent with those of mono-and di-phosphoryl polyisoprenyl derivatives. In experiments using plant membranes, the monophosphoryl derivative labeled with GDP-(¹⁴C) mannose contains mannose only, while the diphosphoryl derivative labeled with the same nucleotide sugar is heterogeneous, containing oligosaccharides corresponding to mannosaccharides of 5, 7, and 9-12 residues. Only the diphosphoryl polyisoprenyl derivatives are labeled with UDP-(¹⁴C)glucosamine and these contain predominantly chitobiose and N-acetylglucosamine itself. Unlabeled GDP-mannose added after UDP-N-acetyl (¹⁴C)glucosamine results in the formation of higher lipid-linked oligosaccharides which are apparently the same as those which are labeled with GDP-(¹⁴C)mannose alone. Incubation of the membranes with GDP-(¹⁴C)mannose in the presence of Mn²⁺, unlabeled UDP-glucose or unlabeled UDP-N-acetylglucosamine results in marked changes in the accumulation of both the polyisoprenyl monophosphoryl mannose and polyisoprenyl diphosphoryl oligosaccharides. Animal cell membranes synthesise lipid-linked oligosaccharides when incubated with UDP-N-acetylglucosamine and GDP-mannose. These oligosaccharides are similar in size to those synthesised by the plant membranes but their formation is more efficient. The potential roles of these compounds in glycoprotein biosynthesis in both plant and animal tissues is discussed.     

Golgi inheritance under a block of anterograde and retrograde traffic

In mitosis, the Golgi complex is inherited following its dispersion, equal partitioning and reformation in each daughter cell. The state of Golgi membranes during mitosis is controversial, and the role of Golgi-intersecting traffic in Golgi inheritance is unclear. We have used brefeldin A (BFA) to perturb Golgi-intersecting membrane traffic at different stages of the cell cycle and followed by live cell imaging the fate of Golgi membranes in those conditions. We observed that addition of the drug on cells in prometaphase prevents mitotic Golgi dispersion. Under continuous treatment, Golgi fragments persist throughout mitosis and accumulate in a Golgi-like structure at the end of mitosis. This structure localizes at microtubule minus ends and contains all classes of Golgi markers, but is not accessible to cargo from the endoplasmic reticulum or the plasma membrane because of the continuous BFA traffic block. However, it contains preaccumulated cargo, and intermixes with the reforming Golgi upon BFA washout. This structure also forms when BFA is added during metaphase, when the Golgi is not discernible by light microscopy. Together the data indicate that independent Golgi fragments that contain all classes of Golgi markers (and that can be isolated from other organelles by blocking anterograde and retrograde Golgi-intersecting traffic) persist throughout mitosis.     

Amino acid composition of human liver mitochondrial membranes in normal and pathological conditions

The amino acid composition of proteins from liver mitochondrial membranes has been studied in patients with normal liver, with biliary diseases and fatty liver, with obstructive jaundice or liver cirrhosis. A characteristic pattern of the amino acid composition in patients with normal liver has been found. In the mitochondrial membranes of patients with fatty liver tryptophan and lysine were decreased while [aspartic acid plus asparagine] and [glutamic acid plus glutamine] were increased compared to their counterpart in the normal liver. In patients with obstructive jaundice of short duration (less than two months) only a slight decrease in methionine content was found, while in the case of liver cirrhosis amino acid composition was markedly changed.deceased.     

Transitional endoplasmic reticulum membranes and vesicles isolated from animals and plants

Summary The process of formation from endoplasmic reticulum and transfer to Golgi apparatus of small 50–70 nm transition vesicles has been reconstituted in a cell-free system. Fractions enriched in transition elements derived from part-rough, part-smooth transitional regions of the endoplasmic reticulum were prepared from elongation zones of hypocotyls of etiolated seedlings of soybean and coleoptiles of maize and were compared with those from rat liver. When activated with nucleoside triphosphate, cytosol and an ATP regenerating system, time- and temperature-dependent transfer of membranes to Golgi apparatus acceptor was demonstrated. The fractions enriched in transition elements were radioiodinated with¹²⁵I by the Bolton-Hunter procedure. Acceptor Golgi apparatus stacks were immobilized to nitrocellulose strips to facilitate analysis. In heterologous transfer experiments, the plant and animal acceptors and donors could be interchanged. The transfer was limited primarily by the donor (rat liver > soybean hypocotyl > maize coleoptiles) and determined secondarily by the source of the acceptor. The acceptor fractions were most efficacious when prepared from the same source as the donor. Thus, 50–70 nm vesicles bud from transitional endoplasmic reticulum elements of plants function in a manner similar to those of animal cells to transfer membrane materials to the Golgi apparatus. The recognition signals that determine vesicle fusion appear to be conserved both among species and between the plant and animal kingdoms to the extent that donor and acceptor sources may be interchanged with only small reductions in overall efficiency of transfer.Abbrevations HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - EDTA ethylenediaminetetraacetic acid     

Separation of membranes from semiprotoplasts of suspension-cultured sycamore maple (Acer pseudoplatanus) cells

Semiprotoplasts were produced from suspension-cultured Acer pseudoplatanus (sycamore maple) cells prior to cell disruption by passing them through a 60 μm nylon screen. Cell membranes from homogenates were separated by ultracentrifugation on linear sucrose density gradients. Samples were collected by gradient fractionation and subcellular fractions were assayed for membrane markers and glycosyl transferase activities. Results of standard marker assays (cytochrome c reductase for endoplas-mic reticulum. uridine and inosine diphosphatases for Golgi. and eosin-5'-maleimide binding for plasma membrane) showed partial separation of these three membrane types. Golgi and plasma membrane markers overlapped in most gradients. Incorporation of ¹⁴C-labeled sugars from UDP-glucose and UDP-xylose into ethanol precipitated polysaccharides was used to detect glucan synthases I & II (glucosyl transferases) and xylosyl transferase activities in Golgi membrane fractions. All three glycosyl transferases overlapped in fractions corresponding to both Golgi and plasma membrane markers, although peak activities for all three occurred in different fractions. More than one peak of glucan synthase I activity was found. Glucan synthase II, associated with ß-l.3 glucan (cullose) synthesis in plasma membranes, was also detected and exhibited a 10-fold stimulation in the presence of Ca²⁺.     

蛋白的高尔基体定位

高尔基体既是蛋白质修饰、分选、水解加工的场所,又是分泌物质的转运站,每时每刻都有大量的蛋白进出高尔基体。在这种情况下,高尔基体仍能保持完整且高度有序的结构,表明高尔基体驻留蛋白有精确的定位信号,以保证它们定位于正确的区隔,而不会沿着分泌途径被运输出去。高尔基体内有几种不同类别的膜蛋白,包括糖基转移酶、周缘膜蛋白、病毒蛋白和受体等。研究显示,有多种定位信号和定位机制参与了蛋白的高尔基体定位。     

Purple acid phosphatase in the walls of tobacco cells

Purple acid phosphatase isolated from the walls of tobacco cells appears to be a 220 kDa homotetramer composed of 60 kDa subunits, which is purple in color and which contains iron as its only metal ion. Although the phosphatase did not require dithiothreitol for activity and was not inhibited by phenylarsine oxide, the enzyme showed a higher catalytic efficiency (k_cat/K_m) for phosphotyrosine-containing peptides than for other substrates including p-nitrophenyl-phosphate and ATP. The phosphatase formed as a 120 kDa dimer in the cytoplasm and as a 220 kDa tetramer in the walls, where Brefeldin A blocked its secretion during wall regeneration. According to our double-immunofluorescence labeling results, the enzyme might be translocated through the Golgi apparatus to the walls at the interphase and to the cell plate during cytokinesis.     

单宁酸对布氏田鼠能量代谢的影响

为了解单宁酸对成年布氏田鼠(Lasiopodomys bandtii**)能量代谢和产热的影响,本文采用含0、3.3%和6.6%单宁酸浓度的食物饲喂布氏田鼠21 d,对其体重、基础代谢率、非颤抖性产热和能量收支等进行了测定。代谢率采用封闭式流体压力呼吸计测定;非颤抖性产热用皮下注射去甲肾上腺素诱导;能量摄人采用食物平衡法测定。结果发现:(1) 单宁酸食物对布氏田鼠的体重没有明显影响;(2)取食含6.6%单宁酸食物的动物的基础代谢率于第10 d高于对照组。20 d时,3组动物的基础代谢率没有显著差异;(3) 单宁酸食物对非颤抖性产热没有显著影响;(4) 食用含单宁酸食物的动物的摄人能和消化能于第10 d显著低于对照组,但第20 d时则差异不显著。这些结果表明:布氏田鼠的基础代谢率和能量摄入对单宁酸的反应具有时段性,短期内能量消耗增加,随着动物对食物的适应,生理功能恢复到正常水平。     

单宁酸对根田鼠断乳幼体生长和存活的影响

在食物中含10％和20％蛋白质条件下,测定了单宁酸对根田鼠幼体在断乳后20d内的生长和存活的影响。结果表明,食物中含蛋白质为10％的条件下,摄食含3％和6％单宁酸食物的试验个体生长速率分别为-0．135g/d和-0．25g/d,食物利用效率均显低于对照组,断乳后20d内平均存活天数较对照组分别下降26．23％和49．36％。在食物蛋白质为20％的条件下,摄食含3％和6％单宁酸食物的试验个体生长速率分别为0．134g/d和-0．116g／d,摄食6％单宁酸食物的试验个体食物利用效率显低于摄食3％单宁酸食物的试验个体和对照组个体,断乳后20d内的平均存活天数较对照组下降39．41％,摄食3％单宁酸食物的试验个体较对照组略有下降,但不显。上述结果验证了单宁酸能显影响植食性小哺乳动物生长和存活的假设。     

5-Aminolevulinic acid inhibits [3H]muscimol binding to human and rat brain synaptic membranes

The interaction of 5-aminolevulinic acid (ALA) with GABA_A receptors has been proposed to underlie the neurological dysfunctions of ALA-accumulating disorders, such as acute intermittent porphyria. The effects of ALA on [³H]muscimol binding to human and rat cerebral cortical membranes were compared. ALA (0.1–10 mM) significantly inhibited the binding of [³H]muscimol (12 nM), with a similar potency in rat and human membranes (IC₅₀ = 199 vs. 228 M, respectively). Kinetical analysis revealed that ALA (1 mM) significantly increased the Kd and decreased the Bmax of [³H]muscimol to both rat (100 and 50%, respectively) and human (200 and 40%, respectively) membranes, indicating a mixed-type inhibition. The similarity in the potency and mechanism of the ALA-induced inhibition of muscimol binding in rat and human membranes indicate that rat studies are useful to evaluate the neurotoxic properties of ALA towards the human GABAergic system, and may help to understand the pathophysiology of porphyria.     

Asymmetric requirements for a Rab GTPase and SNARE proteins in fusion of COPII vesicles with acceptor membranes

Soluble NSF attachment protein receptor (SNARE) proteins are essential for membrane fusion in transport between the yeast ER and Golgi compartments. Subcellular fractionation experiments demonstrate that the ER/Golgi SNAREs Bos1p, Sec22p, Bet1p, Sed5p, and the Rab protein, Ypt1p, are distributed similarly but localize primarily with Golgi membranes. All of these SNARE proteins are efficiently packaged into COPII vesicles and suggest a dynamic cycling of SNARE machinery between ER and Golgi compartments. Ypt1p is not efficiently packaged into vesicles under these conditions. To determine in which membranes protein function is required, temperature-sensitive alleles of BOS1, BET1, SED5, SLY1, and YPT1 that prevent ER/Golgi transport in vitro at restrictive temperatures were used to selectively inactivate these gene products on vesicles or on Golgi membranes. Vesicles bearing mutations in Bet1p or Bos1p inhibit fusion with wild-type acceptor membranes, but acceptor membranes containing these mutations are fully functional. In contrast, vesicles bearing mutations in Sed5p, Sly1p, or Ypt1p are functional, whereas acceptor membranes containing these mutations block fusion. Thus, this set of SNARE proteins is symmetrically distributed between vesicle and acceptor compartments, but they function asymmetrically such that Bet1p and Bos1p are required on vesicles and Sed5p activity is required on acceptor membranes. We propose the asymmetry in SNARE protein function is maintained by an asymmetric distribution and requirement for the Ypt1p GTPase in this fusion event. When a transmembrane-anchored form of Ypt1p is used to restrict this GTPase to the acceptor compartment, vesicles depleted of Ypt1p remain competent for fusion.