低分子肝素对MPTP帕金森小鼠的治疗作用及可能机制

目的：研究1．甲基4-苯基-1,2,3,6-四氢吡啶（1-methy-4-phenyl-1,2,3,6-tetrahy-dropyridine,MPTP）帕金森病（PD）模型中小胶质细胞的激活情况,探讨低分子肝素对MPTP导致的小胶质细胞活化的抑制作用。方法：C57BL随机分成正常对照组、MPTP组、低分子肝素＋MPTP组。MPTP组腹腔注射MPTP（30mg／kgx7d）同时腹部皮下注射生理盐水,低分子肝素＋MPTP组在注射MPTP同时腹部皮下注射低分子肝素（1501U／kg·12hx7d）。各组于末次给药后予行为学测试,7d后免疫组化检测酪氨酸羟化酶（TyrosineHydroxylase,TH）阳性细胞。镀银染色观察小胶质细胞激活情况。结果：MPTP组较低分子肝素＋MPTP组爬竿时间明显延长,并出现更多非随意动作。低分子肝素＋MPTP组黑质部位TH阳性细胞数量高于MPTP组。MPTP组活化的小胶质细胞数量高于低分子肝素＋MPTP组。结论：低分子肝素通过抑制小胶质细胞的激活减少MPTP帕金森小鼠多巴胺能神经元的损伤,提示低分子肝素可能有延缓PD进程的作用。     

功能性低分子量岩藻多糖的研究进展

低分子量岩藻多糖来源于褐藻,是一类含有硫酸基团的多糖,具有多种生物学功能,如抗凝血、抗病毒、抗血栓、抗肿瘤等功能,因此可被广泛地应用于医药、食品等领域。着重介绍了低分子量岩藻多糖的制备及其生物学功能的研究进展。     

Calcein as a fluorescent probe for ferric iron. Application to iron nutrition in plant cells

The recent use of calcein (CA) as a fluorescent probe for cellular iron has been shown to reflect the nutritional status of iron in mammalian cells (Breuer, W., Epsztejn, S., and Cabantchik, Z. I. (1995) J. Biol. Chem. 270, 24209-24215). CA was claimed to be a chemosensor for iron(II), to measure the labile iron pool and the concentration of cellular free iron(II). We first study here the thermodynamic and kinetic properties of iron binding by CA. Chelation of a first iron(III) involves one aminodiacetic arm and a phenol. The overall stability constant log beta111 of FeIIICAH is 33. 9. The free metal ion concentration is pFeIII = 20.3. A (FeIII)2 CA complex can be formed. A reversible iron(III) exchange from FeIIICAH to citrate and nitrilotriacetic acid is evidenced when these ligands are present in large excess. The kinetics of iron(III) exchange by CA is compatible with metabolic studies. The low reduction potential of FeIIICAH shows that the ferric form is highly stabilized. CA fluorescence is quenched by 85% after FeIII chelation but by only 20% using FeII. Real time iron nutrition by Arabidopsis thaliana cells has been measured by fluorimetry, and the iron buffer FeIIICAH + CA was used as source of iron. As a siderophore, FeIIICAH promotes cell growth and regreening of iron-deficient cells more rapidly than FeIIIEDTA. We conclude that CA is a good chemosensor for iron(III) in cells and biological fluids, but not for Fe(II). We discuss the interest of quantifying iron buffers in biochemical studies of iron, in vitro as well as in cells.     

低分子量有机酸对红壤无机态磷转化及酸度的影响

以鄂南、赣北两红壤样品为材料,加入不同有机酸并经室温培养后,测定不同P组分、pH及活性Al含量的变化。结果表明,供试有机酸均使土壤Ca2－P含量增高,增幅大小依次为柠檬酸＞苹果酸＞琥珀酸＞乙酸;2种土壤的Ca8－P和Ca10－P含量无明显变化规律,Fe-P、Al-P和O－P含量有所下降,除乙酸处理的土壤pH值无显著变化外,其它有机酸的加入使pH下降0．65－1．96;有机酸引起活性Al量增多,除乙酸处理的变化较小外,其它有机酸或混合物的加入使土壤中0．02mol.L^-1CaCl2提取Al增加4．7－50．3倍,1mol.L^-1提取Al增加4．0－67．3倍。可见,有机酸具有双重作用,既增加P的有效性,又增加土壤酸度和Al毒。     

Dispersion of protein solutions in short, open capillary tubes as a method for rapid molecular weight determination

A method has been developed by which the molecular weight of proteins and other freely diffusing species can be estimated on the basis of chromatographic peak shapes developed by injection of a sample into an open capillary tube in a liquid chromatography system. In chromatographic peaks obtained from such a system, there are contributions from both convection and diffusion. Thus, peak shape is dependent upon the diffusion coefficient of the molecular species, the flow rate, and the length of the capillary tube. In the work reported here it has been found that for samples of different proteins ranging from 2000 to 14,000 molecular weight, each injected at the same mobile phase flow rate, the ratio (R) of h1, the height of the peak primarily due to convection, to h2, the height of the "makeup" peak, primarily due to diffusion from the capillary wall, is a direct measure of protein molecular weight. Linear plots of R vs molecular weight are obtained under certain conditions.     

Infrageneric variation of the low molecular weight carbohydrate composition of the seeds of the genusVicia (Leguminosae)

The low molecular weight carbohydrate compositions of the seeds of 29 species ofVicia, namelyV. amoena, V. amurensis, V. bifolia, V. dumetorum, V. fauriei, V. japonica, V. nipponica, V. pisiformis, V. pseudo-orobus, V. sylvatica, V. unijuga, V. venosa, V. cassubica, V. orobus, V. cracca agg.,V. hirsuta, V. villosa agg.,V. tetrasperma,V. oroboides, V. sepium, V. cuspidata, V. grandiflora, V. lathyloides, V. sativa agg.,V. bithynica, V. faba, V. narbonensis, V. hybrida andV. lutea were determined by gas liquid chromatography. The carbohydrate compositions were found to be species-specific. Principal component analysis of the carbohydrate composition data showed that these species can be divided into three groups. Although, as far as the examined species were concerned, these groups were not correlated with the known subgenera, significant correlation between the groups and the known sections was detected in the subgenusVicia. The carbohydrate composition character would be important to clarify the relationships among closely related taxa of the genusVicia.     

Tissue-specific and developmental regulation of a gene encoding a low molecular weight sulfur-rich protein in soybean seeds

A gene corresponding to a cDNA clone, SE60, encoding a low molecular weight sulfur-rich protein in soybean seeds was isolated from a soybean genomic library and characterized at the nucleotide level. The SE60 gene is interrupted by an intervening sequence of 694 by in size. The 5 flanking region of the gene contained various regulatory sequences such as the RY repeat and CACA elements found in other seed protein genes of legumes. The SE60 gene encoded a pre-protein of 75 amino acids, having a signal sequence of 28 amino acids at the N-terminus. The mature protein of 47 amino acids was basic and cysteine-rich. Northern blot analysis suggested that the SE60 gene is expressed in a tissue-specific and developmentally regulated manner during soybean seed development. The SE60 genes form a small multigene family composed of about four members in the soybean genome.     

低分子肝素的抗炎作用及机制

低分子肝素(low molecular weight heparin, LMWH)除作为抗凝血和抗血栓药在临床上广为应用外,近年来其抗炎活性也颇受重视.LMWH抗炎机制涉及炎症细胞、炎症因子和黏附分子等环节.目前对LMWH的抗炎机制研究还处在初级阶段,但是LMWH独特的性质使其有望成为有效且安全的新型抗炎药物.     

Protective effect of low molecular weight heparin on oxidative injury and cellular abnormalities in adriamycin-induced cardiac and hepatic toxicity

The aim of the present work is to evaluate the effect of a heparin derivative, low molecular weight heparin (LMWH) on the biochemical changes, tissue peroxidative damage and abnormal antioxidant levels in adriamycin (ADR) induced cardiac and hepatic toxicity. Male Wistar rats (140 +/- 10 g) were divided into four groups: untreated control (group I), ADR group (a single dose intravenous injection of 7.5 mg/kg ADR--group II), LMWH control (300 microg/day per rat s.c. for 1 week--group III) and ADR plus LMWH group (7.5 mg/kg ADR on day 1 of study period followed by LMWH treatment, 300 microg/day per rat commencing on day 8 and continued for a week. At the end of the 2-week experimental period, all animals were terminated. Cellular damage was assessed in terms of serum and tissue lactate dehydrogenase (LDH), aminotransferases and alkaline phosphatase (ALP) activities. Creatine phosphokinase (CPK) was assessed in the serum and heart tissue. The role of LMWH in altering the oxidative stress in ADR-induced toxicity was evaluated on the basis of its influence on cardiac and hepatic lipid peroxidation and antioxidant status (enzymatic and non-enzymatic)--superoxide dismutase (SOD), catalase and glutathione peroxidase (GPx), reduced glutathione (GSH), alpha-tocopherol (Vitamin E) and ascorbate (Vitamin C). LMWH administration to ADR-induced rats prevented the rise in serum and tissue levels of LDH, aminotransferases and ALP, while these parameters were significantly elevated in the ADR group in comparison with the control group. Cardiotoxicity indicated by rise in serum CPK in the ADR group was attenuated by LMWH treatment in group IV. LMWH decreased the cardiac and hepatic lipid peroxidation induced by ADR. Histologic examination revealed that the ADR-induced deleterious changes in the heart and liver tissues were offset by LMWH treatment. Restoration of cellular normalcy accredits LMWH with cytoprotective role in adriamycin-induced cardiac and hepatic toxicity.     

Optimization of electrophoresis for the identification of low molecular mass allergens in hazelnuts

Conventional electrophoresis techniques used to identify food allergens are insufficient to separate low molecular mass proteins and peptides. In this paper we performed three different methods which provided an extended resolving power for small proteins. Applying the improved techniques, we were able to separate hazelnut proteins into distinct bands below 10 kDa.     

Distribution of low molecular weight carbohydrates in the subgenusCeratotropis of the genusVigna (Leguminosae)

The seeds of 9 members of the subgenusCeratotropis (Piper) Verdc., namelyVigna aconitifolia (Jacq.) Maréchal,V. angularis (Willd.) Ohwi et Ohashi,V. minima (Roxb.) Ohwi et Ohashi,V. nakashimae (Ohwi) Ohwi et Ohashi,V. reflexo-pilosa Hayata,V. umbellata (Thumb.) Ohwi et Ohashi,V. mungo (L.) Hepper,V. radiata (L.) Wilczek andV. sp., have been examined. On their low molecular weight carbohydrate compositions, this subgenus has been divided into 2 subgroups, mungo-radiata group and angularis group. Four other species referred to the subgeneraPlectotropis (Schumach.) Bak.,Lasiospron (Benth. emend Piper) Maréchal, Mascherpa et Stainier andVigna, V. vexillata (L.) A. Rich.,V. lasiocarpa (Benth.) Verdc.,V. marina (Burm.) Merr. andV. unguiculata (L.) Walp., were also analyzed and they had distinctive carbohydrate compositions. 1d-4-O-methyl-myo-inositol and 1d-5-O-(α-d-galactopyranosyl)-4-O-methyl-myo-inositol were detected in all species examined exceptV. vexillata, V. mungo andV. radiata.     

Concerning the use of empirical methods for determining the molecular weight of a small glycopeptide cleaved from bovine rhodopsin

The molecular weight of a glycopeptide cleaved enzymatically from bovine rhodopsin was investigated by a variety of techniques, such as gel filtration, sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence and absence of urea, and gel filtration in 6 guanidinium chloride after reduction and carboxymethylation. Great variation in the estimation of the molecular weight between the several techniques was observed. When compared to an estimate of 9000 based on amino acid analysis and considerations of its carbohydrate content, values ranging between 4500 and 18,000 were obtained by the other methods. Thus, while the molecular weight of the glycopeptide remains unresolved, the resultant ambiguity in evaluating this property may exemplify the limitations inherent in applying empirical methods to the determination of the molecular weight of small glycopeptides.     

Critical examination for the presence of a low molecular weight fraction in serum iron

Native human pool serum and individual sera were ultrafiltered by Pellicon ultrafilters (Millipore) and the ultrafiltrates were extracted by an ammonium pyrrolidinedithicarbamate/methylisobutylketone system after addition of different internal iron standards to three of four identical ultrafiltrates. The extracts were examined for iron content by atomic absorption spectrometry. During ultrafiltration pH 7.4 was miantained by a constant atmosphere of a CO₂/air mixture.Low molecular weigth iron in native human sera from normal, normal orally iron substituted and siderotic individuals was found to be less than 0.05 μg/100 ml. Elevating serum citrate to 3-fold normal had no effect on this result.More iron became ultrafiltrable if the serum pH were lowered by citric acid as compared with hydrochloric acid.     

A simple method for the determination of DNA molecular weight distribution

A method is described for the molecular weight distribution of DNA which is determined from sedimentation-velocity analysis. Knowing the distribution of sedimentation coefficients for a single DNA concentration it is possible to extrapolate such a distribution to infinite dilution of the solute in a simple way. Two versions (using two or three terms of a series) of extrapolating equations are considered and discussed in detail. The sedimentation coefficients distribution calculated from these equations differs only insignificantly with that obtained in a conventional way.     

Non-protein-bound iron detection in small samples of biological fluids and tissues

Interest in the pro-oxidative nature of non-protein-bound-iron (NPBI) led to the development of an assay for its detection. The aim was to set up a reliable method of detecting NPBI in small samples of biological fluids and tissue. The method was based on preferential chelation of NPBI by a large excess of the low-affinity ligand nitrilotriacetic acid. To separate NPBI, a two-step filtration procedure was used. All glassware and plasticware were treated to minimize iron contamination. Measurements were performed in plasma, amniotic fluid, bronchoalveolar lavage, and brain tissues. The analytic system detected iron as ferric nitrate standard down to a concentration of 0.01 μM. The 1,2-dimethyl-3-hydroxy-4(1H)-pyridone-Fe(DHP-Fe) complex eluted with a retention time of about 2.6 min. The standard curve for the DHP-Fe complex was linear between 0.01 and 400 μM in water as well as in plasma, bronchoalveolar lavage, brain tissue, and amniotic fluid. The detection limit was 0.01 μM for all biological fluids and brain tissue. The data show that reliable measurements of NPBI are possible in studies on oxidative stress under experimental and clinical conditions. The possibility of investigating NPBI involvement in free-radical injury might be useful in all human diseases in which oxidative stress occur.     

Effects of iron deficiency and iron overload on manganese uptake and deposition in the brain and other organs of the rat

Managanese (Mn) is an essential trace element at low concentrations, but at higher concentrations is neurotoxic. It has several chemical and biochemical properties similar to iron (Fe), and there is evidence of metabolic interaction between the two metals, particularly at the level of absorption from the intestine. The aim of this investigation was to determine whether Mn and Fe interact during the processes involved in uptake from the plasma by the brain and other organs of the rat. Dams were fed control (70 mg Fe/kg), Fe-deficient (5–10 mg Fe/kg), or Fe-loaded (20 g carbonyl Fe/kg) diets, with or without Mn-loaded drinking water (2 g Mn/L), from day 18–19 of pregnancy, and, after weaning the young rats, were continued on the same dietary regimens. Measurements of brain, liver, and kidney Mn and nonheme Fe levels, and the uptake of⁵⁴Mn and⁵⁹Fe from the plasma by these organs and the femurs, were made when the rats were aged 15 and 63 d. Organ nonheme Fe levels were much higher than Mn levels, and in the liver and kidney increased much more with Fe loading than did Mn levels with Mn loading. However, in the brain the increases were greater for Mn. Both Fe depletion and loading led to increased brain Mn concentrations in the 15-d/rats, while Fe loading also had this effect at 63 d. Mn loading did not have significant effects on the nonheme Fe concentrations.⁵⁴Mn, injected as MnCl₂ mixed with serum, was cleared more rapidly from the circulation than was⁵⁹Fe, injected in the form of diferric transferrin. In the 15-d-rats, the uptake of⁵⁴Mn by brain, liver, kidneys, and femurs was increased by Fe loading, but this was not seen in the 63-d rats. Mn supplementation led to increased⁵⁹Fe uptake by the brain, liver, and kidneys of the rats fed the control and Fe-deficient diets, but not in the Fe-loaded rats. It is concluded that Mn and Fe interact during transfer from the plasma to the brain and other organs and that this interaction is synergistic rather than competitive in nature. Hence, excessive intake of Fe plus Mn may accentuate the risk of tissue damage caused by one metal alone, particularly in the brain.     

A review of fluorescence methods for assessing labile iron in cells and biological fluids

A variety of biochemical, pharmacological, and toxicological properties have been attributed to labile forms of iron that are associated with cells or with biological fluids. Unlike the major fraction of bioiron which is protein bound, the labile bioiron is chelatable and therefore amenable for detection by metal-sensing devices that are coupled to chelation moieties. The present review deals with the detection of various labile forms of iron present in living cells and in fluids of biological interest, in health and disease. The main focus of the review is on the design and application of fluorescent probes as analytical tools for assessing labile iron and iron transport mechanisms and the efficiency of iron chelators in solution and in cellular systems.     

Optimization of conditions for the production of pullulan and high molecular weight pullulan by Aureobasidium pullulans

Aureobasidium pullulans had a maximum yield coefficient of pullulan (Y _p/s=0.24) with an initial pH of the culture broth of 6.5 in a shake-flask culture. In a batch culture, the maximum pullulan yield coefficient of 0.30 was obtained at the aeration rate of 0.5 vvm. A yeast-like form and mycelial form of cells were found at the culture broth with pH controlled at 4.5 with a maximum yield coefficient of pullulan of 0.27. However, a high portion (35%) of high molecular weight pullulan (M _w>2 000 000) was produced at pH 6.5 with a yeast-like morphology of the cells.     

Phage display identification of functional binding peptides against 4-acetamidophenol (Paracetamol): an exemplified approach to target low molecular weight organic molecules

Peptide-phage display has been widely used to explore protein-protein interactions, however, despite the potential range of applications the use of this technology to identify peptides that bind low molecular weight organic molecules has not been explored. In this current study, we identified a phage clone (PARA-061) displaying the cyclic 7-mer peptide sequence N' AC-NPNNLSH-CGGGS C' that binds the low molecular weight organic molecule 4-acetamidophenol (4-AAP; paracetamol). To avoid occupancy of key functional groups on the target 4-AAP molecule our panning strategy was directed against insoluble complexes of 4-AAP rather than against the target linked to a stationary support or bearing an affinity tag. To augment the panning procedure we deleted phage that also bound the 4-AAP isomers, 2-AAP and 3-AAP. The identified PARA-061 peptide-phage clone displayed functional binding properties against 4-AAP in solution, able in a peptide sequence-dependant manner to prevent the in vitro hepatotoxicity of 4-AAP and reduce ( approximately 20%) the permeability of 4-AAP across a semi-permeable membrane. Molecular dynamic simulations generated a stable binding conformation between the PARA-061 peptide sequence and 4-AAP. In conclusion, we show that a phage display library can be used to identify peptide sequence-specific clones able to modulate the functional binding of a low molecular weight organic molecule. Such peptides may be expected to find utility in the next generation of hybrid polymer-based biosensing devices.