功能性壳寡糖的生物学活性

低分子量壳寡糖的生物学活性是最近的研究热点,诸多研究肯定了壳寡糖在抗肿瘤、神经退行性疾病、糖尿病和高血糖及抗氧化等领域的应用价值。壳寡糖的抗肿瘤作用依赖于免疫刺激;抗氧化作用与其分子结构中的羟基和氨基有关;神经保护作用与抗氧化损伤及抑制乙酰胆碱酯酶活性相关。另外,壳寡糖的生物相容性好等特点也暗示了其在药物研究和功能食品开发领域的应用价值。本文综述了壳寡糖在人类重大疾病防治领域的作用及作用机制的研究进展,探索了壳寡糖生物活性的研究方向。     

Evaluation of osteoclastic resorption activity using calcium phosphate coating combined with labeled polyanion

Osteoclasts are involved in bone resorption, and its activation is considered one of the causes of osteoporosis. The pit assay is the principal method for evaluating osteoclast function by measuring hydroxyapatite resorption in vitro. However, the pit assay requires time and trained techniques, including the pit image analysis, and there is no other easy method for evaluating bone resorption. In this study, we developed a novel approach to quantify the bone resorption activity using a calcium phosphate (CaP) coating labeled with fluorescent polyanion. Fluoresceinamine-labeled chondroitin polysulfate or Hoechst 33258-labeled deoxyribonucleic acid was used for CaP labeling. When macrophage cell line RAW264 was cultured on the labeled CaP under the stimulation with the receptor activator of the NF-κB ligand (RANKL), RAW264 cells differentiated into osteoclastic cells and the fluorescence intensity of the culture supernatant and pit area increased in a time- and dose-dependent manner. Furthermore, drugs for osteoporosis treatment, such as pamidronate and β-estradiol, inhibited fluorescein release by the cells stimulated with RANKL. A positive correlation between the fluorescence intensity and pit area was observed (r = 0.917). These results indicated that this new method using fluorescent polyanion-labeled CaP is a standardized useful assay system for the evaluation of bone resorption activity.     

Optimizing conditions for calcium phosphate mediated transient transfection

BackgroundCalcium phosphate mediated transfection has been used for delivering DNA into mammalian cells in excess of 30 years due to its most low cost for introducing recombinant DNA into culture cells. However, multiple factors affecting the transfect efficiency are commonly recognized meanwhile for years, the low transfection efficiency of this approach on higher differentiated and non-tumor cells such as CHO and C2C12 limits its application on research.ResultsIn this paper, we systematically evaluated the possible factors affecting the transfection rate of this approach. Two categories, calcium phosphate–DNA co-precipitation and on-cell treatments were set for optimization of plasmid DNA transfection into CHO and C2C12 cell-lines. Throughout experimentation of these categories such as buffer system, transfection media and time, glycerol shocking and so on, we optimized the best procedure to obtain the highest efficiency ultimately.During calcium phosphate DNA-precipitation, the transfection buffer is critical condition optimized with HBS at pH 7.10 (P = 0.013 compared to HEPES in CHO). In the transfection step, FBS is a necessary component in transfection DMEM for high efficiency (P = 0.0005 compared to DMEM alone), and high concentration of co-precipitated particles applied to cultured cells in combination with intermittent vortexing is also crucial to preserve the efficiency. For 6-well culture plates, 800 µl of co-precipitated particles (11.25 µg/mL of cDNA) in 1 well is the optimal (P = 0.007 compared to 200 µl). For the highest transfection efficiency, the most important condition is glycerol in shock treatment (P = 0.002 compared to no shock treatment in CHO, and P = 0.008 compared to no shock treatment in C2C12) after a 6 h incubation (P = 0.004 compared to 16 h in CHO, and P = 0.039 compared to 16 h in C2C12) on cultured cells.ConclusionsCalcium phosphate mediated transfection is the most low-cost approach to introduce recombinant DNA into culture cells. However, the utility of this procedure is limited in highly-differentiated cells. Here we describe the specific HBS-buffered saline, PH, glycerol shock, vortex strength, transfection medium, and particle concentrations conditions necessary to optimize this transfection method in highly differentiated cells.     

Precipitation of nucleotides by calcium phosphate

Earlier it has been shown that nucleic acids of high molecular weight can be introduced into cells by coprecipitation with calcium phosphate. We have studied the requirements for calcium phosphate coprecipitation of shorter nucleotides. The degree of coprecipitation of dodecanucleotides lacking terminal phosphate varied between 25 and 72%. Tetramers with a 5′-monophosphate were coprecipitated to 29–87% by calcium phosphate. A high content of guanosine residues and an increased number of terminal phosphate groups increased the degree of coprecipitation of nucleotides. The trinucleotide pppA2′p5′A2′p5′A was effectively precipitated by calcium phosphate but the monophosphate and the core structure were not.     

Effect of chitooligosaccharides on calcium bioavailability and bone strength in ovariectomized rats

Chitosan polymer with deacetylation degree of 93% was hydrolyzed with an endo-type chitosanase (35,000 U/g protein) with substrate to enzyme ratio of 1 to 1.5 for 18 h in a batch reactor, and then the resultant hydrolysates were fractionated into four different molecular weights using an ultrafiltration (UF) membrane reactor system. An in vitro study elucidated that four kinds of chitooligosaccharides (COSs) could efficiently inhibit the formation of insoluble calcium salts in the neutral pH. In vivo effects of COSs on Ca bioavailability were further studied in the osteoporosis modeling rats induced by ovariectomy and concurrent low calcium intake. During the experimental period corresponding to the menopause with the osteoporosis disease, calcium retention was increased and bone turnover was decreased by COS IV supplementation in the ovariectomized (OVX) rats. After the low Ca diet, COS IV diet including both normal level of calcium and vitamin D significantly decreased calcium loss in feces and increased calcium retention compared to the control diet. The levels of femoral total calcium, bone mineral density (BMD), and femoral strength were also significantly increased by the COS IV diet in a similar level to those of CPP diet group. In the present study, the results proved the beneficial effects of low molecular chitooligosaccharide (COS IV) in preventing negative mineral balance.     

An equilibrium thermodynamic model of the sequestration of calcium phosphate by casein phosphopeptides

Sequestration of calcium phosphate by caseins occurs in the Golgi region of mammary secretory cells during lactation, where it helps to prevent calcification of the gland and to deliver high concentrations of calcium and phosphate to the neonate in the form of milk. Calcium phosphate nanoclusters are formed when a core of amorphous calcium phosphate is sequestered within a shell of casein or casein phosphopeptides. The nanoclusters can form spontaneously from a supersaturated solution or by dispersion of a precipitate of calcium phosphate, demonstrating that they are thermodynamically stable complexes. The average size and chemical composition of the complexes are largely independent of the solution conditions (pH, temperature, peptide concentration, salt composition and rate of reaction) under which they form. Larger, metastable, colloidal particles can form if there is not enough of the phosphopeptide to sequester all the calcium phosphate, or, transiently, if the salt and peptide solutions are mixed together without sufficient care. A thermodynamic model of the sequestration process is presented which makes use of an invariant ion activity product observed in nanocluster-containing solutions. In any given solution that has thermodynamic stability, the extent of the sequestration reaction can be calculated from the empirical formula of the nanoclusters using the criterion that the solution should have the equilibrium value of the invariant ion activity product. Other members of the paralogous group of secretory calcium-binding phosphoproteins to which caseins belong may also be able to sequester calcium phosphate in biological fluids such as saliva and in the extracellular matrix of mineralizing tissues.Abbreviations -PP _s1-casein 5P (f59–79) - -PP -casein 4P (f1–25) - ACP amorphous calcium phosphate - Cit citrate - CPN calcium phosphate nanocluster - CPP commercial phosphopeptide - IAP ion activity product - MWCO molecular weight cut-off - PP phosphopeptide - SAXS small-angle X-ray scattering - SCPP secretory calcium-binding phosphoprotein - UF ultrafiltrate     

Enzymatic preparation of chitooligosaccharides and their anti-obesity application

ABSTRACT

Chitooligosaccharides (COS) are derived from chitosan, which can be used as nutraceuticals and functional foods. Because of their various biological activities, COS are widely used in the food, medicine, agriculture, and other fields. COS were prepared by chitosanase from Pseudoalteromonas sp. SY39 and their anti-obesity activity was researched in mice in this study. The effects of hydrolysis time, temperature, the ratio of enzyme to chitosan, and pH on the productivity of COS were discussed. Preparation process of COS was established in a 5-L fermenter. COS were characterized and their anti-obesity activity was studied in animal experiments. The results showed that COS could effectively reduce serum lipid levels and obesity in mice, and have a good anti-obesity activity. The preparation technology and remarkable anti-obesity activity of COS further expand their applications in the food and pharmaceutical industries.     

The effect of chitooligosaccharides on hydrogen peroxide production and anionic peroxidase activity in wheat coleoptiles

We studied the effects of chitooligosaccharides (ChOS) with a mol wt of 5 kD, the degree of acetylation of 65%, and the concentrations from 0.01 to 100 mg/l on the content of hydrogen peroxide in incubation medium and the activity of anionic peroxidase (pI 3.5) in the segments of wheat (Triticum aestivum) coleoptiles. H₂O₂ production and peroxidase activity were found to be dependent on the ChOS concentration. After 3 h of incubation, the highest H₂O₂ level in medium was observed at 0.01 mg/l ChOS, whereas after 6h, at 1 mg/l. After 3 h of incubation, ChOS suppressed peroxidase activity. After 6 h of incubation, high ChOS concentrations enhanced peroxidase activity. IAA favored H₂O₂ accumulation in medium and suppressed anionic peroxidase. The involvement of ChOS in the control of the level of reactive oxygen species and anionic peroxidase activity in plant cells is suggested.Translated from Fiziologiya Rastenii, Vol. 52, No. 2, 2005, pp. 238–242.Original Russian Text Copyright © 2005 by Yusupova, Akhmetova, Khairullin, Maksimov.This revised version was published online in April 2005 with a corrected cover date.     

Bioactivity studies and adhesion of human osteoblast (hFOB) on silicon-biphasic calcium phosphate material

Surface reactivity of bioactive ceramics contributes in accelerating bone healing by anchoring osteoblast cells and the connection of the surrounding bone tissues. The presence of silicon (Si) in many biocompatible and bioactive materials has been shown to improve osteoblast cell adhesion, proliferation and bone regeneration due to its role in the mineralisation process around implants. In this study, the effects of Si-biphasic calcium phosphate (Si-BCP) on bioactivity and adhesion of human osteoblast (hFOB) as an in vitro model have been investigated. Si-BCP was synthesised using calcium hydroxide (Ca(OH)₂) and phosphoric acid (H₃PO₄) via wet synthesis technique at Ca/P ratio 1.60 of material precursors. SiO₂ at 3 wt% based on total precursors was added into apatite slurry before proceeding with the spray drying process. Apatite powder derived from the spray drying process was pressed into discs with Ø 10 mm. Finally, the discs were sintered at atmospheric condition to obtain biphasic hydroxyapatite (HA) and tricalcium phosphate (TCP) peaks simultaneously and examined by XRD, AFM and SEM for its bioactivity evaluation. In vitro cell viability of L929 fibroblast and adhesion of hFOB cell were investigated via AlamarBlue® (AB) assay and SEM respectively. All results were compared with BCP without Si substitution. Results showed that the presence of Si affected the material’s surface and morphology, cell proliferation and cell adhesion. AFM and SEM of Si-BCP revealed a rougher surface compared to BCP. Bioactivity in simulated body fluid (SBF) was characterised by pH, weight gain and apatite mineralisation on the sample surface whereby the changes in surface morphology were evaluated using SEM. Immersion in SBF up to 21 days indicated significant changes in pH, weight gain and apatite formation. Cell viability has demonstrated no cytotoxic effect and denoted that Si-BCP promoted good initial cell adhesion and proliferation. These results suggest that Si-BCP’s surface roughness (164 nm) was significantly higher than BCP (88 nm), thus enhancing the adhesion and proliferation of the osteoblast.     

Chitosan derivatives alter release profiles of model compounds from calcium phosphate implants

The aim of the current study was to evaluate the impact of chitosan derivatives, namely N-octyl-chitosan and N-octyl-O-sulfate chitosan, incorporated in calcium phosphate implants to the release profiles of model drugs. The rate and extent of calcein (on M.W. 650 Da) ED, and FITC-dextran (M.W. 40 kDa) on in vitro release were monitored by fluorescence spectroscopy. Results show that calcein release is affected by the type of chitosan derivative used. A higher percentage of model drug was released when the hydrophilic polymer N-octyl-sulfated chitosan was present in the tablets compared with the tablets containing the hydrophobic polymer N-octyl-chitosan. The release profiles of calcein or FD from tablets containing N-octyl-O-sulfate revealed a complete release for FD after 120 h compared with calcein where 20% of the drug was released over the same time period. These results suggest that the difference in the release profiles observed from the implants is dependent on the molecular weight of the model drugs. These data indicate the potential of chitosan derivatives in controlling the release profile of active compounds from calcium phosphate implants.     

Multiple glycerol shocks increase the calcium phosphate transfection of non-synchronized CHO cells

The exposure of CHO DG44 cells to an osmotic shock, after DNA uptake, results in a cellular volume decrease of approx. 55%. Repetitive osmotic shocks targeted different sub-populations of cells as was demonstrated using two different fluorescent reporter genes. Also the exposure of a calcium phosphate–DNA coprecipitate to high osmolarity in vitro caused the release of the DNA from the precipitate. The results demonstrate the importance of the osmotic shock on the efficient delivery of plasmid DNA to the nucleus of CHO cells following calcium phosphate-mediated transfection.     

Efficient digestion of chitosan using chitosanase immobilized on silica-gel for the production of multisize chitooligosaccharides

Chitosanase-coated silica-gels were prepared via cross-linking of the chitosanase onto silica-gels for the efficient production of multisize chitooligosaccharides (MCOs) in a continuous process. The kinetic aspects of immobilized chitosanase (IMMCTase) were investigated based on the reaction time, production of MCOs, and MALDI-TOF mass analyses to achieve maximum bioconversion of high molecular weight chitosan (HMWC) to MCOs. IMMCTase revealed a negligible loss of chitosanase activity after multi uses in continuous digestion of HMWC. The optimal temperature of IMMCTase was 37 °C, and kinetic parameters toward HMWC were determined to be K_m = 1.45 mM and V_max = 360 μmole/μg/min, respectively. Under optimal conditions, the recovery of enzyme activity of IMMCTase was determined to be 82.3%, thus indicating that it can still be reused few more times. In conclusion, use of IMMCTase resulted in rapid and efficient digestions of HMWC with consistent results to produce MCOs.     

Nature of micellar calcium phosphate in cows' milk as studied by high-resolution electron microscopy

The nature of the inorganic calcium phosphate in the casein micelle of cows' milk has been studied by high-resolution electron microscopy. No periodic lattice spacings could be imaged, and diffraction patterns were of the diffuse amorphous type. Short-range order of less than 15 Å may be present, but the results indicate that there is no long-range order in micellar calcium phosphate.     

An equilibrium thermodynamic model of the sequestration of calcium phosphate by casein micelles and its application to the calculation of the partition of salts in milk

An equilibrium thermodynamic model of the interaction of calcium, phosphate and casein in milk is described in which the micellar calcium phosphate is assumed to be in the form of calcium phosphate nanoclusters. A generalized empirical formula for the nanocluster is used to define the molar ratios of small ions (Ca, Mg, P_i and citrate) to a casein phosphorylated sequence (phosphate centre, PC). From this model, a method of calculating the partition of milk salts into diffusible and non-diffusible fractions is obtained. No arbitrary assumptions are made, no fitting of adjustable parameters is done and the PCs in the caseins are defined by inspection of their primary structures. In addition to the salt partition, the mole fractions of the individual caseins not complexed to the calcium phosphate through one or more of their PCs are computed and a generic stability rule for milks is derived. The use of the model is illustrated by calculations of the partition of salts in a standard milk and by comparison with experimental data on the partition of salts in the milk of individual cows. The generic stability rule is applied to the individual milks to determine whether the micellar calcium phosphate is thermodynamically stable. According to the calculations, compositions that might lead to pathological calcification in the lumen of the mammary gland were seldom found in primiparous healthy cows in early or mid lactation but occurred more often in multiparous animals, in late lactation and during mastitic infection.Abbreviations ACP amorphous calcium phosphate - Cit citrate - CN casein - CPN calcium phosphate nanocluster - DCPD dicalcium phosphate dihydrate - HA hydroxyapatite - IAP ion activity product - MCP micellar calcium phosphate - MWCO molecular weight cut-off - OCP octacalcium phosphate - PC phosphate centre - TCC tricalcium citrate     

甲壳素酶Chisb的定向进化及生物转化合成几丁寡糖

甲壳素酶具有广泛的工业应用前景,如可将虾壳、蟹壳和其他甲壳废物降解成以几丁寡糖为主的高附加值产品,但野生型甲壳素酶催化效率低,大大限制了几丁寡糖的生产。笔者在前期研究中表达了一个具有较高效催化效率的甲壳素酶Chisb,并对其酶学性质进行了初步研究。为进一步提高甲壳素酶Chisb的催化效率,以R13NprB-C-SP-H为亲本,采用易错PCR(Error-pronePCR)技术构建随机突变体文库,对甲壳素酶Chisb进行定向进化。经过96孔板初筛和摇瓶复筛,获得了两个催化效率进一步提高的突变体C43D和E336R。对突变体的酶学性质进行分析, C43D和E336R的最适催化温度为55℃, C43D的最适pH为5.0,E336R的最适pH为9.0;其催化效率相比对照分别提高了1.35倍和1.57倍;而E336R和C43D催化产几丁寡糖的含量分别为2.53 g/L和2.06 g/L,相比对照(0.89 g/L)分别提高了2.84倍和2.31倍;底物转化率分别为84.3%和68.7%,相比对照(29.7%)分别提高了54.6%和39%。研究表明,通过易错PCR引入随机突变的方法能够有效提高甲壳素酶Chisb的催化效率。上述研究获得的催化效率提高的正向突变体及其酶学性质分析对生物转化合成几丁寡糖具有重要研究意义和应用价值。     

聚合磷酸钙骨水泥理化性能研究

将磷酸四钙与磷酸氢钙与丙烯酸－衣康酸共聚酸制成磷酸钙骨水泥体系。结果显示：在共聚酸浓度为３０％时，该体系的凝固时间为８分钟，抗压强度为３８．３１Ｍｐａ，溶解率为１．０２％，最终产物为羟磷灰石。本材料是一种有较大应用前景的粘接、垫底、根管充填和骨缺损修复替代物。     

Direct demonstration of carbamoyl phosphate formation on the C-terminal domain of carbamoyl phosphate synthetase

Carbamoyl phosphate synthetase synchronizes the utilization of two ATP molecules at duplicated ATP-grasp folds to catalyze carbamoyl phosphate formation. To define the dedicated functional role played by each of the two ATP sites, we have carried out pulse/labeling studies using the synthetases from Aquifex aeolicus and Methanococcus jannaschii, hyperthermophilic organisms that encode the two ATP-grasp folds on separate subunits. These studies allowed us to differentially label each active site with [gamma-(32)P]ATP and determine the fate of the labeled gamma-phosphate in the synthetase reaction. Our results provide the first direct demonstration that enzyme-catalyzed transfer of phosphate from ATP to carbamate occurs on the more C-terminal of the two ATP-grasp folds. These findings rule out one mechanism proposed for carbamoyl phosphate synthetase, where one ATP acts as a molecular switch, and provide additional support for a sequential reaction mechanism where the gamma-phosphate groups of both ATP molecules are transferred to reactants. CP synthesis by subunit C in our single turnover pulse/chase assays did not require subunit N, but subunit N was required for detectable CP synthesis in the traditional continuous assay. These findings suggest that cross-talk between domain N and C is required for product release from subunit C.     

Structure of bovine milk calcium phosphate determined by x-ray absorption spectroscopy

Calcium in cow's milk is mainly in the form of calcium phosphate-phosphoprotein complexes known as casein micelles. These micelles, in contrast to other phosphoprotein complexes in bone and other tissues, can be readily isolated and studied, but conventional techniques have given ambiguous and conflicting evidence on the structure of milk calcium phosphate. Extended X-ray absorption fine structure and near-edge structure measurements at the newly commissioned Synchrotron Radiation Source at Daresbury indicate that it closely resembles brushite, CaHPO₄·2H₂O. This result, and chemical analysis, requires that phosphate groups from the matrix phosphoproteins be incorporated in the brushite lattice, probably in the surface, suggesting that these organic phosphate groups act as heterogeneous nucleation sites for phase separation of the calcium phosphate from solution.     

Effects of strontium on the absorption of calcium, magnesium and phosphate ions from the ovine reticulo-rumen

The net absorption rates of strontium ions from the ovine reticulo-rumen, isolated in situ in trained conscious animals, were measured under controlled conditions. A linear positive response was obtained from the addition of Sr²⁺ ions to the artificial rumen fluid. This increase in the absorption of Sr was reflected in an increase in the plasma Sr concentration. In contrast to the discrimination observed elsewhere in favour of the absorption of Ca relative to Sr, the absorption rate of Sr from the reticulo-rumen was significantly greater than that of Ca, from solutions containing the same molar concentration. A graded increase in the Sr concentration in the ruminal fluid from 1 mmol/l to 4 mmol/l led to a corresponding reduction in the absorption rate of Ca but an increase in that of phosphate. The latter result is similar to that observed when the intra-ruminal concentration of Ca²⁺ ions is increased. It is suggested that Ca and Sr share a common pathway for absorption from the reticulo-rumen and that this may involve coupling with the absorption of phosphate ions. Accepted: 18 January 2000