Overexpression of hyaluronan synthases alters vascular smooth muscle cell phenotype and promotes monocyte adhesion

Hyaluronan (HA) accumulates in vascular disease but its functional role is not fully understood. To investigate the impact of HA enriched extracellular matrices (ECM) on cell phenotype, arterial smooth muscle cells (ASMCs) were transduced with retroviral constructs (LXSN) encoding murine has-1, has-2, and has-3. HA synthesis was significantly elevated in has transduced ASMCs. Metabolically labeled HA from has-1 and has-2 transduced cells was present mostly in high molecular weight (HWA) fractions (2-10x10(6) Da), whereas HA produced by has-3 and control cells was present in lower molecular weight fractions (approximately 2x10(6) Da). Both has-1 and has-3 transduced ASMCs accumulated more pericellular HA than has-2 transduced ASMCs. All has transduced ASMCs had attenuated growth and migration rates, and a decreased detachment response. Affinity histochemistry revealed that has-1 transduced ASMCs accumulated the greatest amount of HA containing ECM than the other transduced ASMCs. This ECM was hyaluronidase sensitive and bound a significantly greater number of monocytes than the ECM generated by has-2 or has-3 transduced ASMCs. Confocal microscopy showed CD44 positive monocytes bound to hyaluronidase sensitive ECM in has-1 transduced ASMCs. These data implicate specific has isoforms in the formation of HA enriched pro-inflammatory ECMs.     

Hyaluronan accumulation is elevated in cultures of low density lipoprotein receptor-deficient cells and is altered by manipulation of cell cholesterol content

The extracellular matrix molecule hyaluronan (HA) accumulates in human atherosclerotic lesions. Yet the reasons for this accumulation have not been adequately addressed. Because abnormalities in lipid metabolism promote atherosclerosis, we have asked whether disrupted cholesterol homeostasis alters HA accumulation in low density lipoprotein receptor-deficient cell cultures. Cultured aortic smooth muscle cells (ASMC) from Watanabe heritable hyperlipidemic (WHHL) rabbits and skin fibroblasts from homozygous patients with familial hypercholesterolemia accumulated 2-4-fold more HA than corresponding cells from age- and sex-matched normolipidemic rabbits and individuals. This occurred in both cell-associated and secreted HA fractions and was independent of cell density or medium serum concentration. WHHL ASMC cultures synthesized twice the proportion of high molecular mass HA (>2x10(6) Da) as normal rabbit ASMC but showed a lower capacity to degrade exogenous [3H]HA. Most importantly, cholesterol depletion or blocking cholesterol synthesis markedly reduced HA accumulation in WHHL ASMC cultures, whereas cholesterol replenishment or stimulation of cholesterol synthesis restored elevated HA levels. We conclude the following: 1) maintaining normal HA levels in cell cultures requires normal cell cholesterol homeostasis; 2) HA degradation may contribute to but is not the predominant mechanism to increase high molecular mass HA accumulation in low density lipoprotein receptor-deficient WHHL ASMC cultures; and 3) elevated accumulation of HA depends on cellular or membrane cholesterol content and, potentially, intact cholesterol-rich microdomains.     

Effects of short-period exercise training and orlistat therapy on body composition and maximal power production capacity in obese patients

We examined the effects of weight loss induced by diet-orlistat (DO) and diet-orlistat combined with exercise (DOE) on maximal work rate production (Wmax) capacity in obese patients. Total of 24 obese patients were involved in this study. Twelve of them were subjected to DO therapy only and the remaining 12 patients participated in a regular aerobic exercise-training program in addition to DO therapy (DOE). Each patient performed two incremental ramp exercise tests up to exhaustion using an electromagnetically-braked cycle ergometer: one at the onset and one at the end of the 4th week. DOE therapy caused a significant decrease in total body weight: 101.5+/-17.4 kg (basal) vs 96.3+/-17.3 kg (4 wk) associated with a significant decrease in body fat mass: 45.0+/-10.5 kg (basal) vs 40.9+/-9.8 kg (4 wk). DO therapy also resulted in a significant decrease of total body weight 94.9+/-14.9 kg (basal) vs 91.6+/-13.5 kg (4 wk) associated with small but significant decreases in body fat mass: 37.7+/-5.6 kg (basal) to 36.0+/-6.2 kg (4 wk). Weight reduction achieved during DO therapy was not associated with increased Wmax capacity: 106+/-32 W (basal) vs 106+/-33 W (4 wk), while DOE therapy resulted in a markedly increased Wmax capacity: 109+/-39 W (basal) vs 138+/-30 W (4 wk). DO therapy combined with aerobic exercise training resulted in a significant reduction of fat mass tissue and markedly improved the aerobic fitness and Wmax capacities of obese patients. Considering this improvement within such a short period, physicians should consider applying an aerobic exercise-training program to sedentary obese patients for improving their physical fitness and thereby reduce the negative outcomes of obesity.     

Physical studies of the hemocyanin of the marine gastropod, Kelletia kelleti (Forbes).

1. The hemocyanin of the Californian whelk, Kelletia kelleti, investigated at pH and ionic conditions close to physiological, has a molecular weight close to 9.0 x 10(6) and a sedimentation constant of 114S, characteristic of the di-decameric structure of molluscan hemocyanins. Light-scattering measurements at pH 8.0, 0.05 M Mg2+, 0.01 M Ca2+ gave a molecular weight of 9.0 +/- 0.6 x 10(6), and scanning transmission electron microscopy produced nearly the same particle mass of 9.22 +/- 0.50 x 10(6) daltons (Da). 2. Light-scattering measurements on the fully dissociated monomers in the presence of 8.0 M urea and at pHs 10.6 and 11.0 gave molecular weights of 4.50 x 10(5)-4.91 x 10(5), that are close to one-twentieth of the mass of the parent di-decameric hemocyanin assembly. 3. Changes in pH produced a bell-shaped molecular weight profile, with molecular weights close to 9.0 x 10(6) in the pH region of about 5.5-8.0, and progressive dissociation to 4.5 x 10(5) Da monomers in the region below pH 4.0 and above pH 9.0 or 10, depending on the absence or presence of stabilizing Mg2+ ions (0.01 M). 4. In the absence of divalent ions some aggregation of hemocyanin was found at pHs close to 5.0, with observed molecular weights above 10 x 10(6) (investigated at a hemocyanin concentration of 0.10 g/l). The early studies of Condie and Langer (Science 144, 1138-1140, 1964) had shown that Kelletia kelleti hemocynanin aggregates at acidic pHs close to the isoelectric point, forming linear polymers of the hemocyanin di-decamers.(ABSTRACT TRUNCATED AT 250 WORDS)     

The role of dissolved oxygen and function of agitation in hyaluronic acid fermentation

The role of dissolved oxygen (DO) and function of agitation in hyaluronic acid fermentation by Streptococcus zooepidemicus ATCC 39920 were explored. With controlled DO levels, it was found that the present strain grew as well under both aerobic and anaerobic conditions. Dissolved oxygen plays a role as a stimulant in the HA synthesis; the intrinsic factor affecting the efficiency of HA synthesis is DO level; and there existed a critical DO level of 5% air saturation for the HA synthesis. On the other hand, agitation functions to mix the broth, to enhance oxygen absorption, but not to release HA capsule. In addition, vigorous agitation would lengthen the operation time. It therefore suggests that the relevant criteria for scaling up the fermentor are to maintain DO level above the critical value, and to provide a mild agitation for homogeneity in the fermentor.     

Quadrupole time-of-flight mass spectrometry of the native hemocyanin of the deep-sea crab Bythograea thermydron

Since electrospray ionization mass spectrometry (ESI-MS) has demonstrated capabilities for observing intact, weak interactions, there has been increasing interest in studying by this method noncovalently bound complexes. In this communication, we report for the first time the structure obtained by a commercial ESI quadrupole time-of-flight spectrometer on a native hemocyanin of deep-sea crab Bythograea thermydron with a molecular mass of 1.3 MDa. ESI-MS analysis of the native hemocyanin revealed the formation of a 18-mer noncovalent assembly with a measured molecular mass of 1354940 +/- 480 Da. ESI-MS data also revealed that this huge structure is an equilibrium with several assemblages, dodecamer (measured molecular weight = 902570 +/- 110 Da), hexamer (measured molecular weight = 450310 +/- 260 Da), and monomeric structures (measured molecular weight = 74999 +/- 85 Da).     

Chronic pulsatile shear stress impacts synthesis of proteoglycans by endothelial cells: effect on platelet aggregation and coagulation

Endothelial-derived proteoglycans are important regulators of the coagulation-pathway in vivo and our primary objective of this study was to determine whether chronic shear stress affected the synthesis, release, and activity of proteoglycans from bovine aortic endothelial cells (BAEC). BAEC were cultured under shear and proteoglycans were purified from BAEC conditioned media and analyzed using both anionic exchange and size exclusion chromatography. The overall amount of proteoglycans produced per cell was significantly greater for the high shear-treated samples compared to the low shear-treated samples indicating that the shear magnitude did impact cell responsiveness. While overall size and composition of the proteoglycans and glycosaminoglycan (GAG) side chains were not altered by shear, the relative proportion of the high and low molecular weight species was inversely related to shear and differed significantly from that found under static tissue culture conditions. Moreover, a unique proteoglycan peak was identified from low shear stress (5 +/- 2 dynes/cm(2)) conditioned media when compared to high shear conditions (23 +/- 8 dynes/cm(2)) via anionic exchange chromatography, suggesting that subtle changes in the GAG structures may impact activity of these molecules. In order to characterize whether these changes impacted proteoglycan function, we studied the effects of shear specific proteoglycans on the inhibition of thrombin-induced human platelet aggregation as well as on platelet-fibrin clot dynamics. Proteoglycans from high shear-treated samples were less effective inhibitors of both platelet aggregation and blood coagulation inhibition than proteoglycans from low shear-treated samples and both were less effective than proteoglycans isolated from static tissue culture samples. However, due to changes in the overall proteoglycan synthesis and release rate, the high and low shear-treated sample had essentially identical effects on these activities, suggesting that the cells were able to compensate for stress-induced proteoglycan changes. Our data suggests that shear stress, by altering proteoglycan synthesis and fine structure, may play a role in maintaining vascular hemodynamics and hemostasis.     

营养条件对兽疫链球菌发酵生产透明质酸的影响

透明质酸 (Ｈｙａｌｕｒｏｎｉｃａｃｉｄ ,简称ＨＡ)是Ｎ 乙酰氨基葡萄糖胺和葡萄糖醛酸以 β 1 3糖苷键和 β 1 4糖苷键连接而成的二糖单体重复构建而成的杂多糖 ,广泛存在于高等动物的结缔组织内。由于结构上的特点 ,ＨＡ具有很高的粘弹性和极强的保水性等特征 ,已被大量用于医学医药、化妆品工业[1,2 ] 。1937年Ｋｅｎｄａｌｌ[3 ] 等发现用溶血性链球菌 (Ｓｔｒｅｐｔｏｃｏｃｃｕｓｈａｅｍｏｌｙｔｉｃｕｓ)可以产生ＨＡ。其后 ,陆续发现许多能产生ＨＡ的微生物菌种 ,逐渐开发出一条可替代传统的动物组织提取法[4 ] 生产ＨＡ的新途径…     

Biophysical studies of infectious pancreatic necrosis virus.

The molecular weight of infectious pancreatic necrosis virus (IPNV) has been determined by analytical ultracentrifugation and dynamic light scattering. The sedimentation coefficient of the virus was found to be 435S. The average value for molecular weight is (55 +/- 7) x 106. The virus genome consists of two segments of double-stranded RNA (molecular weights, 2.5 x 106 and 2.3 x 106), which represents 8.7% of the virion mass. The capsid protein moiety of IPNV consists of four species of polypeptides, as determined by polyacrylamide gel electrophoresis. The number of molecules of each polypeptide in the virion has been determined. There are 22 molecules of the internal polypeptide alpha (molecular weight, 90,000), 544 molecules of the outer capsid polypeptide beta (molecular weight, 57,000), and 550 and 122 molecules, respectively, of the internal polypeptides gamma1 (molecular weight, 29,000) and gamma2 (molecular weight, 27,000). IPNV top component contains only the beta polypeptide species, and its molecular weight is estimated to be 31 x 106. The hydrodynamic diameter and electron microscopic diameter (calculated by catalase crystal-calibrated electron microscopy) of IPNV was compared with those of reovirus and encephalomyocarditis virus. Due to the swelling of the outer capsid, reovirus particles were found to be much larger when hydrated (96-nm diameter) than when dehydrated (76-nm diameter), having a large water content content and low average density. In contrast, IPNV particles are more rigid, having nearly the same average diameter under hydrous (64 nm) as under anhydrous conditions (59.3 nm). Encephalomyocarditis virus has a very low water content and does not shrink at all when prepared for electron microscopy.     

Hyaluronic acid degradation during initial steps of downstream processing

Abstract

Hyaluronic acid (HA) is a linear glycosaminoglycan composed of disaccharide units of glucuronic acid and N-acetylglucosamine. It has interesting and distinctive viscoelastic properties that are functions of chain length, concentration and environmental conditions, like pH and ionic strength. These characteristics, coupled with its lack of immunogenicity or toxicity, have led to a wide range of applications in the pharmaceutical and cosmetic industries where molecular mass is of primary importance. Biotechnological production of HA was established many years ago, but HA obtained from bacterial fermentation results in shorter chains compared with HA extracted from animal sources. In the present research the issue of HA degradation during the initial phases of downstream processing is addressed. In particular, the effects of clarification and protein separation on molecular weight have been studied using a triple-detector chromatographic system. Environmental factors affecting degradation (pH, shear stresses, etc.) were uncoupled in order to identify the main causes of molecular weight reduction.     

Identification of Pt and Pd bound to humic acid species in spiked soils and street dusts by size exclusion chromatography and ICP-MS

Abstract

The formation of PGE-humic acid (HA) complexes in soil and street dust samples was investigated. In order to assess the distribution of Pt and Pd among molecular weight fractions of humic substances, the HA extracts (extracted by 0.1 mol L^?1 sodium pyrophosphate) were analysed by size exclusion chromato-graphy coupled on-line with UV-Vis detection. Similar chromatograms were obtained for soils and street dust samples (254 nm, 280 nm) and two size fractions were operationally defined as high (1600–5000 Da) and low molecular (< 1600 Da) HA fractions. The concentration of Pt and Pd in the separated extracts was determined by ICP-MS. The results indicate that up to 43% of Pt is in the high molecular and up to 52% in the low molecular HA fraction. In both type of soil samples, Pd is preferentially bound to the low molecular HA fraction. Dependence of Pd–HA and Pt–HA formation on the sample type both in the soils and in the street dust sample as well as on Pt oxidation state was established. Metallic Pt shows a tendency for complexation with the fractions of HA higher than 5000 Da. In the street dust samples, the distribution of Pt and Pd is similar and is strongly dependent on the sample type, being bound mainly to the fractions: higher than 5000 Da, 1600–5000 Da and the fraction lower than 1600 Da.     

E. coli K5 fermentation and the preparation of heparosan,a bioengineered heparin precursor

Heparosan is an acidic polysaccharide natural product, which serves as the critical precursor in heparin biosynthesis and in the chemoenzymatic synthesis of bioengineered heparin. Heparosan is also the capsular polysaccharide of Escherichia coli K5 strain. The current study was focused on the examination of the fermentation of E. coli K5 with the goal of producing heparosan in high yield and volumetric productivity. The structure and molecular weight properties of this bacterial heparosan were determined using polyacrylamide gel electrophoresis (PAGE) and Fourier transform mass spectrometry. Fermentation of E. coli K5 in a defined medium using exponential fed‐batch glucose addition with oxygen enrichment afforded heparosan at 15 g/L having a number average molecular weight of 58,000 Da and a weight average molecular weight of 84,000 Da. Biotechnol. Bioeng. 2010;107: 964–973. © 2010 Wiley Periodicals, Inc.     

Linear copolymeric poly(thia-alkanedioates) by lipase-catalyzed esterification and transesterification of 3,3'-thiodipropionic acid and its dimethyl ester with alpha,omega-alkanediols

Linear copolymeric polyesters (polyoxoesters) containing thioether functions [poly(3,3'-thiodipropionic acid-co-alpha,omega-alkanediols)] were formed in good yield by esterification of an equimolar mixture of 3,3'-thiodipropionic acid (4-thiaheptane-1,7-dioic acid) and 1,6-hexanediol (weight average molecular mass, M(W) >600 Da: approximately 81% after 6 h) or 1,12-dodecanediol (M(W) > 900 Da: approximately 90% after 6 h) catalyzed by immobilized lipase B from Candida antarctica (Novozym 435) for up to 336 h in moderate vacuo without a solvent or drying reagent in the reaction mixture. Poly (3,3'-thiodipropionic acid-co-1,6-hexanediol) and poly (3,3'-thiodipropionic acid-co-1,12-dodecanediol) were extracted from the reaction mixtures using tetrahydrofurane and precipitated from tetrahydrofurane-iso-hexane (1:1, v/v) at approximately 0 degrees C. The precipitate of poly(3,3'-thiodipropionic acid-co-1,6-hexanediol) showed a maximum molecular weight of 6 x 10(5) Da corresponding to a M(W) of approximately 24,200 Da and a degree of polymerization of up to 2,150 monomer units. The precipitated poly(3,3'-thiodipropionic acid-co-1,12-dodecanediol) showed a maximum molecular weight of 8 x 10(5) Da corresponding to a M(W) of approximately 27,200 Da and a maximum degree of polymerization of up to 2,200 monomer units. The chemical structures of both polyesters containing thioether functions were confirmed by chemical derivatization and NMR spectrometry. The chemical structures of various low-molecular weight reaction intermediates of the esterification of 3,3'-thiodipropionic acid with 1,6-hexanediol were elucidated by GC-MS.     

Three isoforms of mammalian hyaluronan synthases have distinct enzymatic properties.

Three mammalian hyaluronan synthase genes, HAS1, HAS2, and HAS3, have recently been cloned. In this study, we characterized and compared the enzymatic properties of these three HAS proteins. Expression of any of these genes in COS-1 cells or rat 3Y1 fibroblasts yielded de novo formation of a hyaluronan coat. The pericellular coats formed by HAS1 transfectants were significantly smaller than those formed by HAS2 or HAS3 transfectants. Kinetic studies of these enzymes in the membrane fractions isolated from HAS transfectants demonstrated that HAS proteins are distinct from each other in enzyme stability, elongation rate of HA, and apparent K(m) values for the two substrates UDP-GlcNAc and UDP-GlcUA. Analysis of the size distributions of hyaluronan generated in vitro by the recombinant proteins demonstrated that HAS3 synthesized hyaluronan with a molecular mass of 1 x 10(5) to 1 x 10(6) Da, shorter than those synthesized by HAS1 and HAS2 which have molecular masses of 2 x 10(5) to approximately 2 x 10(6) Da. Furthermore, comparisons of hyaluronan secreted into the culture media by stable HAS transfectants showed that HAS1 and HAS3 generated hyaluronan with broad size distributions (molecular masses of 2 x 10(5) to approximately 2 x 10(6) Da), whereas HAS2 generated hyaluronan with a broad but extremely large size (average molecular mass of >2 x 10(6) Da). The occurrence of three HAS isoforms with such distinct enzymatic characteristics may provide the cells with flexibility in the control of hyaluronan biosynthesis and functions.     

Mass and molecular weight of isolated nuclear rings

Nuclear rings are cell structures found at the nuclear cortex wedged between the nuclear envelope and the chromatin fiber network. In previous publications we have dealt with their morphology, relationships with the nuclear membranes, chromatin fibers and cytoskeletal filaments; and more recently, with their measurements at high electron microscope resolution. In this article we have calculated the mass and molecular weight of 336 isolated nuclear rings from human circulating lymphocytes using a photometric procedure and polystyrene latex spheres as the standard for weight calibration. Our results show a range of mass of 0.4-35.5 x 10(-16) g (equivalent to 0.2-21.2 x 10(8) Da with a positively skewed distribution (median: 3.3 x 10(-16) g or 2.0 x 10(8) Da). Mass and volume of nuclear rings were highly correlated. In addition, it was possible to calculate the area, the whole mass and the mass per unit area of the nuclear envelope present in the center of the nuclear rings. The mass of this area also shows a lognormal distribution (median of mass/unit area: 37.3 x 10(-8) pg/nm2 or 1.9 x 10(5) Da/nm2). We discuss the significance of this results as parameters for the characterization of the nuclear rings and their possible implications for a new interpretation of nuclear cortex architecture, nucleocytoplasmic traffic and macromolecule segregation between the two main cell compartments.     

Rheological,Mass Transfer,and Mixing Characterization of Cellulase-Producing Trichoderma reesei Suspensions

Steady and dynamic shear measurements are utilized to characterize the rheological behavior of Trichoderma reesei RUT-C30 fungal suspensions during batch growth on xylose (soluble substrate) or cellulose (particulate solid substrate) at three different fermentor impeller speeds (250, 400, and 550 rpm). Biomass concentrations versus time were unimodal on xylose and bimodal on cellulose. This behavior is consistent with relatively rapid, early growth on easily metabolized growth medium components (yeast extract), followed by a second, slower growth phase due to hydrolysis of recalcitrant cellulose by increasing cellulase concentrations. Critical dissolved oxygen (DO) concentration for T. reesei growth on cellulose was found to be 0.073 mmol/L. The DO was kept above this level by supplementing the air feed with pure oxygen, implying that mass transfer limitations were not the cause of bimodal cell growth. Steady shear rheological data showed shear thinning behavior and a yield stress for all broth samples regardless of substrate. Casson and Herschel−Bulkley constitutive equations fit steady shear data well. Dynamic shear measurements on broth suspensions indicated “gel-like” behavior at low strains, with microstructural breakdown at larger displacements. Time variations of the Casson model parameters (yield stress and Casson viscosity) and dynamic moduli (elastic and viscous modulus) followed both cell mass and morphology: a single maximum in all rheological variables resulted when cells were grown on xylose or on cellulose at impeller speeds of 400 or 550 rpm, and dual maxima were observed for cellulose-grown cells at 250 rpm.     

Overexpression of juvenile hormone binding protein in bacteria and Pichia pastoris

Galleria mellonella juvenile hormone binding protein (JHBP) is a single chain glycoprotein with two disulfide bonds and a molecular mass of 25,880 Da. This report describes the expression of JHBP in bacteria and yeast cells (Pichia pastoris). The expression in bacteria was low and the protein was rapidly degraded upon cell lysis. The expression of His8-tagged rJHBP (His8-rJHBP) in P. pastoris was high and the non-degraded protein was purified to homogeneity with high yield in a one-step immobilized Ni++ affinity chromatography. His8-rJHBP from P. pastoris contains one JH III binding site with KD of 3.7 +/- 1.3x10(-7) M. The results suggest that P. pastoris is the preferred system for expression of His8-rJHBP in non-degraded fully active form.     

Elevated level of ambient glucose stimulates the synthesis of high-molecular-weight hyaluronic acid by human mesangial cells. The involvement of transforming growth factor beta1 and its activation by thrombospondin-1

The dysregulation of the metabolism of glycosaminoglycan and protein components of extracellular matrix (ECM) is a typical feature of diabetic complications. High glucose-induced enrichment of ECM with hyaluronan (HA) not only affects tissue structural integrity, but influences cell metabolic response due to the variety of effects depending on the HA polymer molecular weight. TSP-1-dependent activation of TGFbeta1 axis is known to mediate numerous matrix disorders in diabetes, but its role concerning HA has not been studied so far. In this work we demonstrated that 30 mM D-glucose increased the incorporation of [(3)H]glucosamine in high-molecular-weight (> 2000 kDa) HA of medium and matrix compartments of human mesangial cultures. Simultaneously, the synthesis of HA with lower molecular weight and HA degradation were not altered. The cause of the increased high-molecular-weight HA synthesis consisted in the up-regulation of hyaluronan synthase (HAS) 2 mRNA without alterations of the expression of HAS3, which generates HA of lower molecular weight. D-Glucose at 30 mM also stimulated the production of transforming growth factor beta1 (TGFbeta1), the excessive activation of which was determined by the up-regulation of thrombospondin-1 (TSP-1). The blockage of TGFbeta1 action either by neutralizing anti-TGFbeta1 antibodies or by quenching the TGFbeta1 activation (with TSP-1-derived synthetic GGWSHW peptide) abolished the effect of high glucose on HAS2 mRNA expression and normalized the synthesis of HA. Exogenous human TGFbeta1 had the same effect on HAS2 expression and HA synthesis as high glucose treatment. Therefore, we supposed that TSP-1-dependent TGFbeta1 activation is involved in the observed high glucose effect on HA metabolism. Since high-molecular-weight HA polymers, unlike middle- and low-molecular weight HA oligosaccharides, are known to possess anti-inflammatory and anti-fibrotic functions, we suppose that the enrichment of mesangial matrix with high-molecular-weight HA may represent an endogenous mechanism to limit renal injury in diabetes.     

海豚链球菌诱变发酵法制备透明质酸及其在动物皮肤修复中的应用

透明质酸(HA)是一种非常重要的生物材料,是体内广泛存在的细胞外基质成分之一。为了获得产量、分子量及纯度较高的透明质酸,并研究透明质酸水凝胶在动物皮肤修复中的潜在作用。通过紫外诱变的方法对海豚链球菌进行诱变,并对此突变菌发酵后产物的蛋白含量及HA分子量进行了测定,通过CTAB法对发酵产物进行提纯,运用物理冻融法将透明质酸制成水凝胶后,用于兔背部全层皮肤修复的初探。结果表明通过诱变海豚链球菌产透明质酸的能力从(82.3±3.3)mg/L增加到(120±10.6)mg/L,增加了46.4%;产物经纯化后蛋白含量从(0.178±0.011)mg/L减少到(0.032±0.017)mg/L,减少了82.02%;所制得透明质酸的分子量约为3.0×105 Da;透明质酸水凝胶对兔全层皮肤缺损的修复有较明显的促进作用,能减轻炎症和伤口瘢痕的形成。     

Combination of N149S and D171G mutations in Aeromonas caviae polyhydroxyalkanoate synthase and impact on polyhydroxyalkanoate biosynthesis

Aeromonas caviae polyhydroxyalkanoate synthase (PhaC(Ac)) is an important biocatalyst for the synthesis of practically useful two-component polyhydroxyalkanoate copolymer, poly[(R)-3-hydroxybutyrate-co-(R)-3-hydroxyhexanoate] [P(3HB-co-3HHx)]. In a previous study, two PhaC(Ac) mutants that have a single amino acid substitution of either asparagine 149 by serine (N149S) or aspartate 171 by glycine (D171G) were isolated as higher active enzymes by means of evolutionary engineering. In this study, the synergistic effects of N149S and D171G double mutation (NSDG) in PhaC(Ac) on polyhydroxyalkanoate biosynthesis were investigated in recombinant Ralstonia eutropha. The PhaC(Ac) NSDG mutant showed enhanced incorporation of longer 3-hydroxyalkanoate (3HA) units into the polyhydroxyalkanoate copolymer from octanoate (3HA fraction: 18.5 mol%) and soybean oil (5.4 mol%) as a carbon source. Besides, the NSDG mutant synthesized P(3HB) homopolymer with a very high molecular weight (M(w)=368 x 10(4)) when fructose was used as a carbon source. Thus, a combination of the beneficial mutations synergistically altered enzymatic properties, leading to synthesis of a polyhydroxyalkanoate copolymer with enhanced 3HA fraction and increased molecular weight.