Mechanisms of Action of Rabbit CAP18 on Monolayers and Liposomes Made from Endotoxins or Phospholipids

We have investigated the mechanism of action of the cationic antimicrobial protein (18 kDa) CAP18 on liposomes and monolayers made from phospholipids and enterobacterial lipopolysaccharides (LPS). CAP18 intercalates into lipid matrices composed of LPS from sensitive strains, weaker into those made of LPS from a resistant strain (Proteus mirabilis strain R45) or negatively charged phospholipids, but not into those composed of neutral phosphatidylcholine. From the combination of data obtained with fluorescence resonance energy transfer and Fourier-transform infrared spectroscopy and film balance measurements, it can be concluded that structural differences in the LPS determine the depth of intercalation of CAP18 into the respective lipid matrices. Thus, we identified the L-Arap4N linked to the first Kdo of the LPS of P. mirabilis strain R45 to be responsible for the CAP18 resistance of this strain. These data provide insight into CAP18-mediated effects on the integrity of the outer membrane of Gram-negative bacteria and led to an improved model for rabbit CAP18 membrane interaction. Received: 14 January 2000/Revised: 20 April 2000     

植物修复的生物学机制

随着现代化工业的发展,全球向土壤和环境中排放的重金属逐年增加。重金属污染已日益成为威胁人类健康和影响人类生活质量的严重环境问题和社会问题。这一问题可部分通过植物修复技术得以解决。植物修复技术是依据植物从环境中积累重金属元素和化合物的能力及其将这些有毒物质在植物体内代谢成无毒生物小分子的能力而建立的新的生物技术。本篇综述主要论及利用植物修复技术解决重金属污染的生物学机制。     

植物修复的生物学机制

随着现代化工业的发展,全球向土壤和环境中排放的重金属逐年增加。重金属污染已日益成为威胁人类健康和影响人类生活质量的严重环境问题和社会问题。这一问题可部分通过植物修复技术得以解决。植物修复技术是依据植物从环境中积累重金属元素和化合物的能力及其将这些有毒物质在植物体内代谢成无毒生物小分子的能力而建立的新的生物技术。本篇综述主要论及利用植物修复技术解决重金属污染的生物学机制。     

Physiological Mechanisms of Inflammation and Atopic Allergy

The authors believe that the allergic reaction is a complex of pathologically enhanced mechanisms of a certain stage of inflammation. It was shown that the manifestations and severity of an allergic reaction depend not only on the presence and activity of specific factors (the allergen–antibody complex) but also on the nonspecific components causing the potent uncontrollable action of the inflammatory mediators. The authors discuss measures of laboratory diagnosis of different allergic processes and the problem of optimal antiallergic treatment based on controlled body detoxication.     

雄激素受体的作用机制

主要概述了雄激素受体的作用机制,特别对影响雄激素受体特异性的因素进行探讨.雄激素受体（AR）属于甾体激素受体超家族,能通过配体依赖方式与特异的DNA序列结合,调控基因转录.     

鲎素抗菌肽作用机理研究

鲎素抗菌肽是中国鲎天然免疫的重要组成部分,具有广谱抗菌活性,对细菌、真菌、肿瘤细胞及一些病毒具有强大的抑制作用,且这种作用具有较好的选择性。本文主要介绍了鲎素的种类和生物活性、鲎素的结构与功能关系、鲎素作用机理的最新研究进展,并对鲎素临床应用面临的问题及对策做了简要综述。     

Mechanisms of Aldosterone's Action on Epithelial Na + Transport

Aldosterone maintains total organism sodium balance in all higher vertebrates. The level of sodium reabsorption is primarily determined by the action of aldosterone on epithelial sodium channels (ENaC) in the distal nephron. Recent work shows that, in an aldosterone-sensitive renal cell line (A6), aldosterone regulates sodium reabsorption by short- and long-term processes. In the short term, aldosterone regulates sodium transport by inducing expression of the small G-protein, K-Ras2A, by stimulating the activity of methyl transferase and S-adenosyl-homocysteine hydrolase to activate Ras by methylation, and, possibly, by subsequent activation by K-Ras2A of phosphatidylinositol phosphate-5-kinase (PIP-5-K) and phosphatidylinositol-3-kinase (PI-3-K), which ultimately activates ENaC. In the long term, aldosterone regulates sodium transport by altering trafficking, assembly, and degradation of ENaC.     

植物光毒素作用机理

光激发植物光毒素产生单线态氧或自由基,破坏核酸、脂质和蛋白质等,对病毒、细菌、真菌、线虫、昆虫和其他植物产生毒性,在植物的防护反应中具有重要作用．     

TET酶的生物学功能及相关机制的研究进展

DNA甲基化（DNA methylation）及去甲基化属于常见的表观遗传修饰,可介导多种生理和病理过程。DNA甲基化及去甲基化修饰参与基因的表达调控,且二者的动态平衡可以维持遗传表达稳定性。DNA甲基转移酶（DNA methyltransferase,DNMT）主要包括DNMT1、DNMT3A、DNMT3B、DNMT3L,DNA去甲基化酶（DNA demethylase）主要指10-11易位蛋白（ten-eleven-translocation protein,TET）家族,包括TET1、TET2、TET3,是调节DNA甲基化和去甲基化的重要酶类。TET酶是目前发现的调节DNA去甲基化（DNA demethylation）过程中最重要的酶。综述了TET酶在DNA去甲基化修饰中的作用机制,探讨了DNA去甲基化酶在生长发育和疾病中的关键作用,以期为今后表观遗传学的相关研究提供新思路。     

Mechanisms of the Inhibitory Action of Neurotransmitters on Smooth Muscles

Nonadrenergic inhibitory and excitatory junction potentials (IJP and EJP) in the intestinal smooth muscle cells are of a complex transmitter and ion nature. The IJP consist of two components; the initial, fast, component is of a purinergic nature. Low-conductance Ca²⁺-dependent potassium channels (SK_(Ca)) are involved in generation of the initial component of IJP because this component can be specifically and reversibly blocked by apamin. Probably, local Ca²⁺ release from the InsP₃-sensitive store can be a link between the P2Y receptors and activation of the SK_(Ca) channels because inhibition of the activity of phospholipase C (PLC) decreases IJP. The second, slow, component of IJP is nitric oxide-dependent. Such a component of IJP develops due to activation of high-conductance Ca²⁺-dependent potassium channels (BK_(Ca)) because this component can be blocked by TEA and charybdotoxin. The release of Ca²⁺ from the ryanodine-sensitive store is responsible for activation of the BK_(Ca) channels and generation of the second component of IJP. Thus, it appears that Ca²⁺ released from one of the intracellular stores can activate only a certain type of the Ca²⁺-dependent K⁺ channels involved in the generation of IJP.     

On the Molecular Mechanism of Steric Stabilization of Liposomes in Biological Fluids

Abstract

Liposomes with specific surface modification overcome rapid in vivo uptake by cells of the mononuclear phagocytic system (MPS) resulting in prolonged circulation in the blood. The structure-function relationship of this effect has been examined by measurements both in vitro and in vivo. The results are reviewed and compared with those from liposomes without surface modification. For example, in the best cases with polyethylene glycol-derivatized phosphatidylethanolamine (PEG-PE) up to 35% of the injected dose remains in the blood and less than 10% is taken up by the two major organs of the MPS, liver and spleen, after 24 hr. This compares with less than 1% in the blood and up to 40% uptake for liposomes without PEG-PE. Steric stabilization has been proposed as a theoretical basis for these results, and some initial results testing this basis have been reported. Here, we discuss steric stabilization in terms of the physico-chemical properties of the liposomes.     

Synthetic Naphthoquinone Derivatives as Anticancer Agents in Ovarian Cancer: Cytotoxicity Assay and Investigation of Possible Biological Mechanisms Action

In this study, eight naphthoquinone derivatives were synthesized in yields ranging from 52 to 96% using easy, fast, and low-cost methodologies. All naphthoquinone derivatives were screened for their in vitro anti-proliferative activities against OVCA A2780 cancer cell lines. Amongst all analysed compounds, derivatives 3 – 5 presented the most prominent cytotoxic potential. Naphthoquinones 3 and 4 , bearing sulfur-containing groups, were identified as having high potential for ROS production, in particular the superoxide anion. Furthermore, 3 and 4 compounds caused a decrease in the cell population in G0/G1 and induced more than 90% of the cell population to apoptosis. Compound 5 did not act in any of these processes. Finally, compounds 3 – 5 were tested for their inhibitory ability against PI3K and MAPK. Compounds 3 and 4 do not inhibit the PI3K enzyme. On the other hand, the naphthoquinone-polyphenol 5 was only able to inhibit the percentage of cells expressing pERK.     

二甲基亚砜对生物膜的作用机理

二甲基亚砜被广泛应用于生物、化学和药学领域,这些应用大多与其增加生物膜的通透性、促进活性分子跨膜传输的作用密切相关。本文对二甲基亚砜增加生物膜通透性的理论及实验研究做简要综述,主要强调二甲基亚砜在生物膜中诱导水性孔道形成的分子动力学模拟及其相关的实验研究。     

Liposomes as a Model for the Biological Membrane: Studies on Daunorubicin Bilayer Interaction

In this study the interaction of the antitumoral drug daunorubicin with egg phosphatidylcholine (EPC) liposomes, used as a cell membrane model, was quantified by determination of the partition coefficient (K _p). The liposome/aqueous-phase K _p of daunorubicin was determined by derivative spectrophotometry and measurement of the zeta-potential. Mathematical models were used to fit the experimental data, enabling determination of K _p. In the partition of daunorubicin within the membrane both superficial electrostatic and inner hydrophobic interactions seem to be involved. The results are affected by the two types of interaction since spectrophotometry measures mainly hydrophobic interactions, while zeta-potential is affected by both interpenetration of amphiphilic charged molecules in the bilayer and superficial electrostatic interaction. Moreover, the degree of the partition of daunorubicin with the membrane changes with the drug concentration, due mainly to saturation factors. Derivative spectrophotometry and zeta-potential variation results, together with the broad range of concentrations studied, revealed the different types of interactions involved. The mathematical formalism applied also allowed quantification of the number of lipid molecules associated with one drug molecule.