内钙拮抗剂TMB-8对白皮松花粉管细胞壁构建的影响

应用荧光显微技术、激光共聚焦扫描显微技术、单克隆抗体免疫荧光标记技术以及傅里叶变换显微红外光谱分析(FTIR)等手段,研究了内钙拮抗剂TMB-8对白皮松花粉管胞内Ca2+分布、花粉管生长以及细胞肇构建等的影响.结果表明,白皮松花粉管经TMB-8处理后,胞内的Ca2+浓度下降,花粉管内典型的Ca2+浓度梯度消失,花粉萌发...     

pH-Dependent Interactions between Pea Cell Wall Polymers Possibly Involved in Wall Deposition and Growth

In an effort to detect a pH-dependent release of polymers such as xyloglucans, thought to be involved in auxin-induced cell wall expansion during growth, radioactively labeled cell walls from pea stem tissue were incubated at different pH values, and changes in water-soluble, ethanol- or trichloroacetic acid-insoluble components were determined. This revealed the occurrence, at neutral pH, of a time- and pH-dependent binding of soluble pectin, in the walls, to a heat-labile, presumably protein, wall component, yielding a trichloroacetic acid-insoluble pectin-protein complex. This reaction, which can also be observed between polymers in water extracts of cell walls, is inhibited at low pH and by Ca²⁺, and appears to be of a physical, possibly lectin-like, nature. Progressive binding of pectin or of the pectin-protein complex to the insoluble wall structure is also observed. These reactions may be involved in wall assembly during its deposition, and may participate in, or be analogous to pH-dependent physical interactions that participate in, wall extension during cell growth.     

Properties and Possible Physiological Significance of Cell Wall Calcium Binding in Etiolated Pea Epicotyls

Baydoun, E. A-H. and Brett, C. T. 1988. Properties and possiblephysiological significance of cell wall calcium binding in etiolatedpea epicotyls.—J. exp. Bot. 39: 199–208. The binding of ⁴⁵Ca²⁺ ions to cell walls prepared from pea epicotylswas examined in young and old parts of the epicotyl, and wasfound to be considerably greater, on a carbohydrate basis, inthe older, non-growing cells. A similar comparison between light-and dark-grown stems showed greater binding in the dark-grownstems. The polygalacturonase-insensitive component of the bindingcontained at least three types of binding with different affinities,and had an apparent pK of 4.3. The specificity of the bindingfor calcium ions was examined and a considerable degree of specificitywas observed. The specificity of inhibition by calcium of epicotylelongation was similar to the specificity of calcium binding.A specific calcium chelator, EGTA, when present at a concentrationof above 10 mol m^–3, promoted the extension of matureregions of the epicotyl, while inhibiting extension of youngertissue. Key words: Cell wall, calcium, pea epicotyl     

Evidence Against the Involvement of Ionically Bound Cell Wall Proteins in Pea Epicotyl Growth

Ionically bound cell wall proteins were extracted from 7 day old etiolated pea (Pisum sativum L. cv Alaska) epicotyls with 3 molar LiCl. Polyclonal antiserum was raised in rabbits against the cell wall proteins. Growth assays showed that treatment of growing region segments (5-7 millimeters) of peas with either dialyzed serum, serum globulin fraction, affinity purified immunoglobulin, or papain-cleaved antibody fragments had no effect on growth. Immunofluorescence microscopy confirmed antibody binding to cell walls and penetration of the antibodies into the tissues. Western blot analysis, immunoassay results, and affinity chromatography utilizing Sepharose-bound antibodies confirmed recognition of the protein preparation by the antibodies. Experiments employing in vitro extension as a screening measure indicated no effect upon extension by antibodies, by 50 millimolar LiCl perfusion of the apoplast or by 3 molar LiCl extraction. Addition of cell wall protein to protease pretreated segments did not restore extension nor did addition of cell wall protein to untreated segments increase extension. It is concluded that, although evidence suggests that protein is responsible for the process of extension, the class(es) of proteins which are extracted from pea cell walls with 3 molar LiCl are probably not involved in this process.     

A Prototypic Intracellular Calcium Antagonist, TMB-8, Protects Cultured Cerebellar Granule Cells Against the Delayed, Calcium-Dependent Component of Glutamate Neurotoxicity

Abstract: The effect(s) of a prototypic intracellular Ca²⁺ antagonist, 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8), on glutamate-induced neurotoxicity was investigated in primary cultures of mouse cerebellar granule cells. Glutamate evoked an increase in cytosolic free-Ca²⁺ levels ([Ca²⁺]_i) that was dependent on the extracellular concentration of Ca²⁺ ([Ca²⁺]_o). In addition, this increase in [Ca²⁺]_i correlated with a decrease in cell viability that was also dependent on [Ca²⁺]_o. Glutamate-induced toxicity, quantified by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) staining, was shown to comprise two distinct components, an “early” Na⁺/Cl^?-dependent component observed within minutes of glutamate exposure, and a “delayed” Ca²⁺-dependent component (ED₅₀～50 µM) that coincided with progressive degeneration of granule cells 4–24 h after a brief (5–15 min) exposure to 100 µM glutamate. Quantitative analysis of cell viability and morphological observations identify a “window” in which TMB-8 (at >100 µM) protects granule cells from the Ca²⁺-dependent, but not the Na⁺/Cl^?-dependent, component of glutamate-induced neurotoxic damage, and furthermore, where TMB-8 inhibits glutamate-evoked increases in [Ca²⁺]_i. These findings suggest that Ca²⁺ release from a TMB-8-sensitive intracellular store may be a necessary step in the onset of glutamate-induced excitotoxicity in granule cells. However, these conclusions are compromised by additional observations that show that TMB-8 (1) exhibits intrinsic toxicity and (2) is able to reverse its initial inhibitory action on glutamate-evoked increases in [Ca²⁺]_i and subsequently effect a pronounced time-dependent potentiation of glutamate responses. Dantrolene, another putative intracellular Ca²⁺ antagonist, was completely without effect in this system with regard to both glutamate-evoked increases in [Ca²⁺]_i and glutamate-induced neurotoxicity.     

Effects of Extreme Acceleration on the Germination, Growth and Cell Wall Composition of Pea Epicotyls

Pea (Pisum sativum) seedlings were germinated and grown in darknessfor 5 d whilst being subjected to continuous accelerations ofbetween 1 ? g and 1054 ? g. Increased acceleration retardedthe elongation of both epicotyls and roots, and inhibited lateralroot growth. Changes in the cell wall carbohydrate and lignincomponents were also recognized. Nevertheless, increasing accelerationfrom 1 ? g to 1054 ? g had no effect on germination and peaswere able to germinate and grow successfully at up to approximately10 000 ? g. Key words: Acceleration, cell walls, Pisum     

A Novel Muscarinic Antagonist R2HBJJ Inhibits Non-Small Cell Lung Cancer Cell Growth and Arrests the Cell Cycle in G0/G1

Lung cancers express the cholinergic autocrine loop, which facilitates the progression of cancer cells. The antagonists of mAChRs have been demonstrated to depress the growth of small cell lung cancers (SCLCs). In this study we intended to investigate the growth inhibitory effect of R2HBJJ, a novel muscarinic antagonist, on non-small cell lung cancer (NSCLC) cells and the possible mechanisms. The competitive binding assay revealed that R2HBJJ had a high affinity to M3 and M1 AChRs. R2HBJJ presented a strong anticholinergic activity on carbachol-induced contraction of guinea-pig trachea. R2HBJJ markedly suppressed the growth of NSCLC cells, such as H1299, H460 and H157. In H1299 cells, both R2HBJJ and its leading compound R2-PHC displayed significant anti-proliferative activity as M3 receptor antagonist darifenacin. Exogenous replenish of ACh could attenuate R2HBJJ-induced growth inhibition. Silencing M3 receptor or ChAT by specific-siRNAs resulted in a growth inhibition of 55.5% and 37.9% on H1299 cells 96 h post transfection, respectively. Further studies revealed that treatment with R2HBJJ arrested the cell cycle in G0/G1 by down-regulation of cyclin D1-CDK4/6-Rb. Therefore, the current study reveals that NSCLC cells express an autocrine and paracrine cholinergic system which stimulates the growth of NSCLC cells. R2HBJJ, as a novel mAChRs antagonist, can block the local cholinergic loop by antagonizing predominantly M3 receptors and inhibit NSCLC cell growth, which suggest that M3 receptor antagonist might be a potential chemotherapeutic regimen for NSCLC.     

Role of Pectinesterase in pH-Dependent Interactions between Pea Cell Wall Polymers

Extracts of etiolated pea (Pisum sativum L.) shoots converted soluble pectin from the seedlings to a trichloroacetic acid-insoluble form. This activity coincided with pectinesterase peaks separated from the extracts by gel filtration and ion exchange. The conversion of pectin to the trichloroacetic acid-insoluble form and pectinesterase exhibited identical responses to pH, with activity only above pH 6. The formation of trichloroacetic acid-insoluble pectin in pea cell walls and their extracts is due to de-esterification of the pectin by pectinesterase and not to binding between pectin and a protein, as reported in the literature.     

Al Binding in the Epidermis Cell Wall Inhibits Cell Elongation of Okra Hypocotyl

Al inhibits root elongation at micromolar concentrations, butthe mechanisms leading to this process are unknown. In thesestudies, Al-induced inhibition of cell elongation was examinedusing hypocotyl of okra (Abelmoschus esculentus Moench cv. ClemsonSpineless) as an experimental model. One-h exposure to Al (0.5mM A1Cl₃) in the presence of 10 µM auxin in 0.5 mM CaCl₂,pH 4.0 significantly inhibited auxin-induced cell elongationof okra hypocotyl segments. Elongation was further suppressedwith increasing Al concentrations up to 1 mM. Treatment of thehypocotyl with 1 mM citrate for 10 minutes after 2-h exposureto Al resulted in significant recovery of elongation. The amountof Al in the cell wall relative to the total in the tissue was96.0, 96.2, and 85.4%, respectively, following 1-, 2-, and 3-hexposure to the Al solution. The total and cell wall Al contentwas decreased by half after the citrate desorption treatment.Further-more, 95% of Al was found in the epidermis, and 95%of the Al in the epidermis was associated with the cell wall.Experiments using split hypocotyl segments showed that Al exposureincreased the outward bending of hypocotyl segments, suggestingthat the epidermis elongation was specifically inhibited byAl. Al inhibited the autolysis of epidermis by about 20%, buthad little effect on the autolysis of core tissue. Taken together,these results suggest that Al binding in the epidermal cellwall inhibits critical components in cell wall loosening mechanism,resulting in inhibition of cell elongation.     

Wounding Inhibits Protein Synthesis yet Stimulates Polysome Formation in Aged, Excised Pea Epicotyls

Wounding of aged, previously-excised pea epicotyl segments byremoval of the basal 1–2 mm resulted in a rapid (beginningwithin 15 min) recruitment of monosomes on to polysomes andan even more rapid (maximal between 6–12 min) inhibitionof protein synthesis in the remaining tissue. This inhibitionof protein synthesis in vivo did not appear to be an artefactcaused by the removal of highly active tissue (e.g., callus,contaminating bacteria), since wounds inflicted at a site distantfrom the region analyzed still elicited the response, and proteinsynthesis in the 1–2 mm slices (normally discarded) wasinhibited even more strongly than it was in the remaining tissue.The proportion of radioactive methionine in nascent chains (boundto polysomes) increased, while the production of completed polypeptidesdecreased, after wounding. Cycloheximide, a known inhibitorof the ribosome translocation/release process mimicked someof the effects of wounding. We interpret the results to indicatethat the initial effect of wounding is to inhibit translationby inhibiting the ribosome translocation/release process, whereasthe subsequent recovery in protein synthesis is brought aboutpartly by a recovery in ribosome translocation/release and partlyby enhanced initiation. ¹ Present address: Harvard-MIT Division of Health Science andTechnology, MIT, Cambridge, Massachusetts 02139, U.S.A. ² Present address: Institute of Agricultural Environment Control,College of Agriculture, Ehime University, 3-5-7 Tarumi, Matsuyama790, Japan. (Received May 26, 1986; Accepted August 4, 1986)     

Nogo-B抑制Ox-LDL诱导的巨噬细胞泡沫化

Nogo-B在血管损伤、组织修复和炎症反应中发挥重要作用。然而,Nogo-B在动脉粥样硬化中的作用仍不明确。本研究拟在巨噬细胞中探讨Nogo-B对巨噬细胞泡沫化的影响。在RAW264.7细胞中沉默Nogo-B后,采用氧化低密度脂蛋白(Ox-LDL)或DiI修饰的Ox-LDL诱导巨噬细胞泡沫化;通过激光共聚焦显微镜观察巨噬细胞中荧光脂质,并在透射电镜下观察各组细胞中自噬泡;采用Western 印迹分析Plin2、p62和LC3-II的蛋白质水平;采用实时荧光定量PCR检测p62 mRNA水平;采用氯喹处理以及mRFP-GFP-LC3双荧光体系分析自噬流功能;进一步过表达Nogo-B后,比较巨噬细胞中脂质负荷程度以及Plin2、p62和LC3-II的蛋白质水平。结果显示,DiI-Ox-LDL处理后,Nogo-B沉默组细胞中脂质负荷程度高于对照组（2.34±0.67 vs. 0.69±0.14,P＜0.05）;Ox-LDL处理后,Nogo-B沉默组细胞中自噬泡数量（8.67±0.58 vs. 4.33±0.58,P＜0.01）、Plin2（4.65±0.50 vs. 3.24±0.71,P＜0.05）、p62（10.13±1.79 vs. 5.76±1.84,P＜0.05）和LC3-II（4.38±0.20 vs. 2-33±1.56,P＜0.01）的蛋白质水平均显著高于对照组,而p62 mRNA水平无差异（P＞0.05）;进一步研究发现,Nogo-B沉默组的自噬流被抑制了;过表达Nogo-B后,虽然p62蛋白质水平无明显变化,但是细胞中脂质负荷程度显著低于对照组（1.68±1.06 vs. 4.94±0.70,P＜0.05）,Plin2和LC3-II的蛋白质水平也明显降低。上述结果表明,Nogo-B通过促进自噬流抑制了Ox-LDL诱导的巨噬细胞泡沫化,Nogo-B可能具有抗动脉粥样硬化的作用。     

Nogo-B抑制Ox-LDL诱导的巨噬细胞泡沫化

Nogo-B在血管损伤、组织修复和炎症反应中发挥重要作用。然而,Nogo-B在动脉粥样硬化中的作用仍不明确。本研究拟在巨噬细胞中探讨Nogo-B对巨噬细胞泡沫化的影响。在RAW264.7细胞中沉默Nogo-B后,采用氧化低密度脂蛋白(Ox-LDL)或DiI修饰的Ox-LDL诱导巨噬细胞泡沫化;通过激光共聚焦显微镜观察巨噬细胞中荧光脂质,并在透射电镜下观察各组细胞中自噬泡;采用Western 印迹分析Plin2、p62和LC3-II的蛋白质水平;采用实时荧光定量PCR检测p62 mRNA水平;采用氯喹处理以及mRFP-GFP-LC3双荧光体系分析自噬流功能;进一步过表达Nogo-B后,比较巨噬细胞中脂质负荷程度以及Plin2、p62和LC3-II的蛋白质水平。结果显示,DiI-Ox-LDL处理后,Nogo-B沉默组细胞中脂质负荷程度高于对照组（2.34±0.67 vs. 0.69±0.14,P＜0.05）;Ox-LDL处理后,Nogo-B沉默组细胞中自噬泡数量（8.67±0.58 vs. 4.33±0.58,P＜0.01）、Plin2（4.65±0.50 vs. 3.24±0.71,P＜0.05）、p62（10.13±1.79 vs. 5.76±1.84,P＜0.05）和LC3-II（4.38±0.20 vs. 2-33±1.56,P＜0.01）的蛋白质水平均显著高于对照组,而p62 mRNA水平无差异（P＞0.05）;进一步研究发现,Nogo-B沉默组的自噬流被抑制了;过表达Nogo-B后,虽然p62蛋白质水平无明显变化,但是细胞中脂质负荷程度显著低于对照组（1.68±1.06 vs. 4.94±0.70,P＜0.05）,Plin2和LC3-II的蛋白质水平也明显降低。上述结果表明,Nogo-B通过促进自噬流抑制了Ox-LDL诱导的巨噬细胞泡沫化,Nogo-B可能具有抗动脉粥样硬化的作用。     

A PCNA-Derived Cell Permeable Peptide Selectively Inhibits Neuroblastoma Cell Growth

Proliferating cell nuclear antigen (PCNA), through its interaction with various proteins involved in DNA synthesis, cell cycle regulation, and DNA repair, plays a central role in maintaining genome stability. We previously reported a novel cancer associated PCNA isoform (dubbed caPCNA), which was significantly expressed in a broad range of cancer cells and tumor tissues, but not in non-malignant cells. We found that the caPCNA-specific antigenic site lies between L126 and Y133, a region within the interconnector domain of PCNA that is known to be a major binding site for many of PCNA''s interacting proteins. We hypothesized that therapeutic agents targeting protein-protein interactions mediated through this region may confer differential toxicity to normal and malignant cells. To test this hypothesis, we designed a cell permeable peptide containing the PCNA L126-Y133 sequence. Here, we report that this peptide selectively kills human neuroblastoma cells, especially those with MYCN gene amplification, with much less toxicity to non-malignant human cells. Mechanistically, the peptide is able to block PCNA interactions in cancer cells. It interferes with DNA synthesis and homologous recombination-mediated double-stranded DNA break repair, resulting in S-phase arrest, accumulation of DNA damage, and enhanced sensitivity to cisplatin. These results demonstrate conceptually the utility of this peptide for treating neuroblastomas, particularly, the unfavorable MYCN-amplified tumors.     

Thymoquinone Inhibits Escherichia coli ATP Synthase and Cell Growth

We examined the thymoquinone induced inhibition of purified F₁ or membrane bound F₁F_O E. coli ATP synthase. Both purified F₁ and membrane bound F₁F_O were completely inhibited by thymoquinone with no residual ATPase activity. The process of inhibition was fully reversible and identical in both membrane bound F₁F_o and purified F₁ preparations. Moreover, thymoquinone induced inhibition of ATP synthase expressing wild-type E. coli cell growth and non-inhibition of ATPase gene deleted null control cells demonstrates that ATP synthase is a molecular target for thymoquinone. This also links the beneficial dietary based antimicrobial and anticancer effects of thymoquinone to its inhibitory action on ATP synthase.     

Cell Wall Acidification and its Role in Auxin-Stimulated Growth

The role of cell wall acidification in auxin-stimulated growthwas examined in abraded hypocotyl segments of etiolated Cucumis.sativus seedlings. Acidification of the medium by these segmentswas strongly inhibited by a pretreatment and the continued presenceof 1?0 mol m^–3 vanadate, widely used as an inhibitor ofplasma membrane ATPase activity. Elongation of segments in pH6?5 buffer was almost completely inhibited by such a treatmentwith vanadate, and the promotion of growth by indole-3-aceticacid (IAA) seen in the absence of vanadate was completely abolished.However, both inhibited and uninhibited segments showed a pronouncedelongation in response to pH 4?0) buffer. In pH 4?0 buffer,in contrast to the results obtained at pH 6?5, IAA significantlypromoted growth in both the presence and absence of vanadate.The results indicate that IAA can promote growth in the absenceof endogenous acidification, but that an acid wall is necessaryfor wall loosening to occur. Key words: Acidification, auxin-stimulated growth, Cucumis sativus, vanadate     

敲减人HPIP基因表达抑制细胞生长增殖

为了探讨人造血相关的PBX相互作用蛋白质基因（HPIP）在肿瘤发生发展中的生物学作用,构建了HPIP小干扰RNA(siRNA)的真核表达载体,验证其敲减效果并观察其对细胞生长增殖的影响.根据人HPIP的cDNA序列,设计了含有小发卡结构的寡核苷酸序列,将其克隆到siRNA表达载体上;将重组质粒转染人胚肾293T细胞,通过实时定量RT-PCR及Western 印迹分析检测HPIP基因的表达水平;结晶紫实验及流式细胞技术检测敲减HPIP基因表达对细胞生长和增殖的影响,软琼脂实验检测对肿瘤细胞非锚定依赖性生长的影响.结果显示,构建的siRNA能够有效抑制HPIP基因的表达;结晶紫实验与细胞周期分析实验显示,siRNA介导的HPIP表达沉默导致细胞生长增殖的显著抑制,软琼脂实验结果表明,稳定转染HPIP siRNA能够抑制肿瘤细胞的锚定非依赖性生长.上述结果初步表明,HPIP siRNA能明显抑制肿瘤细胞的生长与增殖,可能是一个潜在的肿瘤治疗新靶点.