The effect of an addition of sodium hydrogenphosphate to poly(D,L)lactide--results of in vitro examinations.

Aim of the study was to examine the influence of sodium hydrogenphosphate (NaP) on the pH value and the mechanical characteristics of degrading poly(D,L)lactide (PDLLA). Test rods of PDLLA with or without NaP amounting to 1, 10, 25 or 50 mol per 100 mol lactate, the degradation product of PDLLA, were produced by injection molding. Molecular weight and bending strength of the rods were measured before and after an accelerated in vitro-test (55 degrees C, Ringer's solution (RS)). For a long-time degradation test PDLLA-rods with or without 1 mol% NaP were placed in RS or Soerensen buffer solution (SB, pH 7.4) at 37 +/- 1 degrees C. Measurements of pH and determination of length, volume and weight of the samples were done in 2-4 week intervals up to the 52nd week after incubation. A pH-drop was measured in RS or SB containing pure PDLLA after 28 or 36 weeks respectively. Stabilization of the pH value due to admixed NaP delayed the degradation related pH drop for 8 weeks in RS or SB. A strong increase of length, volume and weight was measured in PDLLA + NaP-rods. In conclusion minimal stabilization of pH but also an increase of outer dimensions of the samples was found due to the admixture of NaP to PDLLA. Thus, an addition of substantially higher amounts than 1 mol% NaP in PDLLA can not be recommended, regardless of the positive effects on pH stabilization.     

Tailoring of the titanium surface by immobilization of heparin/fibronectin complexes for improving blood compatibility and endothelialization: an in vitro study

To improve the blood compatibility and endothelialization simultaneously and to ensure the long-term effectiveness of the cardiovascular implants, we developed a surface modification method, enabling the coimmobilization of biomolecules to metal surfaces. In the present study, a heparin and fibronectin mixture (Hep/Fn) covalently immobilized on a titanium (Ti) substrate for biocompatibility was investigated. Different systems [N-(3-dimethylaminopropyl)-N'-ethylcarbodiimide and N-hydroxysuccinimide, electrostatic] were used for the formation of Hep/Fn layers. Atomic force microscopy (AFM) showed that the roughness of the silanized Ti surface decreased after the immobilization of Hep/Fn. Fourier transform infrared spectroscopy (FTIR), Toluidine Blue O (TBO) test, and immunochemistry assay showed that Hep/Fn mixture was successfully immobilized on Ti surface. Blood compatibility tests (hemolysis rate, APTT, platelet adhesion, fibrinogen conformational change) showed that the coimmobilized films of Hep/Fn mixture reduced blood hemolysis rate, prolonged blood coagulation time, reduced platelets activation and aggregation, and induced less fibrinogen conformational change compared with a bare Ti surface. Endothelial cell (EC) seeding showed more EC with better morphology on pH 4 samples than on pH 7 and EDC/NHS samples, which showed rounded and aggregated cells. Systematic evaluation showed that the pH 4 samples also had much better blood compatibility. All results suggest that the coimmobilized films of Hep/Fn can confer excellent antithrombotic properties and with good endothelialization. We envisage that this method will provide a potential and effective solution for the surface modification of cardiovascular implant materials.     

Spectrofluorimetric determination of heparin using a tetracycline-europium probe

A new spectrofluorimetric method was developed for the determination of trace amounts of heparin (Hep). Using tetracycline (TC)-europium ion (Eu3+) as a fluorescent probe, in the buffer solution at pH 8.8, Hep can remarkably enhance the fluorescence intensity of the TC-Eu3+ complex at lambda=612 nm and the enhanced fluorescence intensity of Eu3+ is in proportion to the concentration of Hep. Optimal conditions for the determination of Hep were also investigated. The linear range and detection limit for the determination of Hep were 0.02 to 1.6 microg/ml and 4.45 ng/ml, respectively. This method is simple, practical, and relatively free of interference from coexisting substances, and it can be applied successfully to assess Hep in biological samples. By the Rosenthal graphic method, the association constant and binding numbers of Hep with the probe were 4.46 x 10(4) L/mol and 16.2, respectively. Moreover, the enhancement mechanism of the fluorescence intensity in the TC-Eu3+ system, the TC-Eu(3+)-Hep system, and the TC-Eu(3+)-Hep-CTMAB system is also discussed.     

Carboxypeptidase H. A regulatory peptide-processing enzyme produced by human hepatoma Hep G2 cells

Human hepatoma (Hep G2) cells have been shown to secrete nanogram quantities of carboxypeptidase N (Grimwood, B. G., Plummer, T. H., Jr., and Tarentino, A. (1988) J. Biol. Chem. 263, 14397-14401). A second carboxypeptidase with an acidic pH optimum (pH 5.5) is also secreted at levels 2-3-fold greater than carboxypeptidase N. This enzyme was partially purified from the conditioned medium and compared with pure bovine pituitary carboxypeptidase H. The two enzymes behaved in a similar fashion in DE52 ion-exchange chromatography and on gel filtration, with the Hep G2 enzyme being slightly larger than the bovine pituitary enzyme (52-54 versus 50-52 kDa). Both enzymes hydrolyzed COOH-terminal basic amino acids from typical synthetic substrates as well as from natural leuenkephalin peptides and were identical based on pH activity profiles, inhibition by EDTA or guanidinoethyl mercaptosuccinic acid, and stimulation by Co2+ ions. Inhibition of enzyme secretion from Hep G2 cells by tunicamycin indicated that the Hep G2 enzyme was glycosylated. This finding was confirmed by a parallel deglycosylation of the Hep G2 and bovine pituitary carboxypeptidase H enzymes with peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase F. Immunoblots using mouse antiserum to bovine pituitary carboxypeptidase H revealed that the Hep G2 enzyme was immunocross-reactive with the bovine enzyme but was slightly larger in size (54 versus 52 kDa). Continuous [35S]methionine labeling and purification to near homogeneity using an affinity matrix corroborated the observations that the secreted Hep G2 carboxypeptidase H was slightly larger than bovine pituitary carboxypeptidase H. The Hep G2-secreted enzyme in pulse-chase experiments was initially detected intracellularly after a 15-min pulse as a single protein of about 54 kDa and was present in the 30-min chase medium with no evidence for pre- or postsecretion proteolytic processing. The human adrenergic cell line IMR-32 continuously labeled with [35S]methionine also secreted carboxypeptidase H of the same size as the Hep G2 enzyme.     

An in vitro evaluation of inflammation response of titanium functionalized with heparin/fibronectin complex

Immobilization of biomolecules with a variety of biological functions has been a promising method to improve the biocompatibility of biomaterials. However, little is known about their inflammatory property and cytotoxicity, which are both key aspects to most biomaterials designed for tissue engineering applications and in vivo implantation. In this in vitro study, heparin/fibronectin complex (Hep/Fn) was coimmobilized onto titanium surface (HF-Ti), which had been proven to have the properties of both anticoagulation and endothelialization in our previous study. Fourier transform infrared (FTIR) spectroscopy and water contact angle measurement were utilized to determine the surface chemical compositions and physical properties. Toluidine Blue O (TBO) and immunochemistry methods were performed to quantify the surface-immobilized heparin and fibronectin. The early inflammatory responses elicited by pristine Ti and HF-Ti were investigated by proinflammatory cytokine secretion of tumor necrosis factor-alpha (TNF-α) released by attached peritoneal macrophages, monocyte chemoattractant protein-1 (MCP-1) and interleukin-1β (IL-1β) released by attached human umbilical vein endothelial cells (ECs), respectively. Scanning electronic microscopy (SEM) and immunofluorescence were employed to investigate the changes in macrophages and ECs morphologies. The incubation period for both cells was 24 h and the results showed that HF-Ti revealed a weaker inflammatory response than pristine Ti, which provoked a stronger inflammatory response and higher activation of macrophages. Our data suggest that Hep/Fn coimmobilized biomaterials surface may develop to be a new generation of biomaterials with both biocompatibility and anti-inflammatory properties, especially for used as cardiovascular implants and in tissue engineering applications.     

The K+-H+ exchanger, nigericin, modulates taste cell pH and chorda tympani taste nerve responses to acidic stimuli

The relationship between acidic pH, taste cell pH(i), and chorda tympani (CT) nerve responses was investigated before and after incorporating the K(+)-H(+) exchanger, nigericin, in the apical membrane of taste cells. CT responses were recorded in anesthetized rats in vivo, and changes in pH(i) were monitored in polarized fungiform taste cells in vitro. Under control conditions, stimulating the tongue with 0.15 M potassium phosphate (KP) or 0.15 M sodium phosphate (NaP) buffers of pHs between 8.0 and 4.6, KP or NaP buffers did not elicit a CT response. Post-nigericin (500 × 10(-6) M), KP buffers, but not NaP buffers, induced CT responses at pHs ≤ 6.6. The effect of nigericin was reversed by the topical lingual application of carbonyl cyanide 3-chloro-phenylhydrazone, a protonophore. Post-nigericin (150 × 10(-6) M), KP buffers induced a greater decrease in taste cell pH(i) relative to NaP buffers and to NaP and KP buffers under control conditions. A decrease in pH(i) to about 6.9 induced by KP buffers was sufficient to elicit a CT response. The results suggest that facilitating apical H(+) entry via nigericin decreases taste cell pH(i) and demonstrates directly a strong correlation between pH(i) and the magnitude of the CT response.     

Effects of grape seed proanthocyanidins extract on rat mandibular condyle

We investigated the effects of grape seed proanthocyanidins extract (GSPE) on bone formation by examining total and cortical bone mass, density, architecture, and strength non-invasively using mandibular condyles of Ca-restricted rats. Forty Wistar male rats, each 5 weeks old, were divided into control (C), low-Ca diet (LCaD), low-Ca diet-standard diet (LcaD x SD), and low-Ca diet x Estandard diet with supplementary GSPE (LcaD x SD+GSPE) groups. In LCaD x SD group, after the bone debility was induced by low-Ca diet, a standard diet therapy was given. In LCaD x SD+GSPE group, after the bone debility was induced by low-Ca diet, a standard diet therapy with supplementary GSPE was given. Each mandibular condyle was examined using peripheral quantitative computed tomography (pQCT). There were no significant inter-group differences in body weight seen throughout the experimental period. In LcaD x SD+GSPE, cortical bone cross-sectional area and mineral content were not significantly different from C, while bone mineral content was significantly higher in LcaD x SD+GSPE than in LcaD x SD. Cortical bone density of LcaD x SD+GSPE was not significantly different from that of C, however, that value in LCaD and LcaD x SD was significantly lower than that. The cross-sectional (bending) moment of inertia values in LcaD x SD+GSPE were the highest among all groups, though they did not differ significantly from those in C. Further, the cross-sectional (bending) Stress/Strain Index (SSI) values in LcaD x SD+GSPE were statistically similar to those in C, however, not significant higher than in LcaD x SD. These results suggest that GSPE treatment would increase both bone mass and bone strength on the rat mandibular condyles.     

Apatite Formation and Biocompatibility of a Low Young’s Modulus Ti-Nb-Sn Alloy Treated with Anodic Oxidation and Hot Water

Ti-6Al-4V alloy is widely prevalent as a material for orthopaedic implants because of its good corrosion resistance and biocompatibility. However, the discrepancy in Young’s modulus between metal prosthesis and human cortical bone sometimes induces clinical problems, thigh pain and bone atrophy due to stress shielding. We designed a Ti-Nb-Sn alloy with a low Young’s modulus to address problems of stress disproportion. In this study, we assessed effects of anodic oxidation with or without hot water treatment on the bone-bonding characteristics of a Ti-Nb-Sn alloy. We examined surface analyses and apatite formation by SEM micrographs, XPS and XRD analyses. We also evaluated biocompatibility in experimental animal models by measuring failure loads with a pull-out test and by quantitative histomorphometric analyses. By SEM, abundant apatite formation was observed on the surface of Ti-Nb-Sn alloy discs treated with anodic oxidation and hot water after incubation in Hank’s solution. A strong peak of apatite formation was detected on the surface using XRD analyses. XPS analysis revealed an increase of the H₂O fraction in O 1s XPS. Results of the pull-out test showed that the failure loads of Ti-Nb-Sn alloy rods treated with anodic oxidation and hot water was greater than those of untreated rods. Quantitative histomorphometric analyses indicated that anodic oxidation and hot water treatment induced higher new bone formation around the rods. Our findings indicate that Ti-Nb-Sn alloy treated with anodic oxidation and hot water showed greater capacity for apatite formation, stronger bone bonding and higher biocompatibility for osteosynthesis. Ti-Nb-Sn alloy treated with anodic oxidation and hot water treatment is a promising material for orthopaedic implants enabling higher osteosynthesis and lower stress disproportion.     

Protein denaturation during freezing and thawing in phosphate buffer systems: monomeric and tetrameric beta-galactosidase

During freezing in sodium and potassium phosphate (NaP and KP) buffer solutions, changes in pH may impact the stability of proteins. Since the degradation pathways for the model proteins, monomeric and tetrameric beta-galactosidase (beta-gal), chosen for this study are governed by conformational changes (i.e., physical instability) as opposed to chemical transformations, we explored how the stresses of freezing and thawing alter the protein's native structure and if preservation of the native conformation during freeze-thawing is a requisite for optimal recovery of activity. During freezing in NaP buffer, a significant pH decrease from 7.0 to as low as 3.8 was observed due to the selective precipitation of the disodium phosphate; however, the pH during freezing in KP buffer only increased by at most 0.3 pH units. pH-induced inactivation was evident as seen by the lower recovery of activity when freeze-thawing in NaP buffer as compared to KP buffer for both sources of beta-gal. In addition, we investigated the effects of cooling rate and warming rate on the recovery of activity for monomeric and tetrameric beta-gal. Optimal recovery of activity for the NaP samples was obtained when the processing protocol involved a fast cool/fast warm combination, which minimizes exposure to acidic conditions and concentrated solutes. Alterations in the native secondary structure of monomeric beta-gal as measured by infrared spectroscopy were more significant when freezing and thawing in NaP buffer as opposed to KP buffer. Conformational and activity analyses indicate that pH changes during freezing in NaP buffer contribute to denaturation of beta-gal. These results suggest that proteins formulated in NaP buffer should be frozen and thawed rapidly to minimize exposure to low pH and high buffer salts.     

Evidence that binding to the carboxyl-terminal heparin-binding domain (Hep II) dominates the interaction between plasma fibronectin and heparin

We assessed the participation of the three known heparin-binding domains of PFn (Hep I, Hep II, Hep III) in their interaction with heparin by making a quantitative comparison of the fluid-phase heparin affinities of PFn and PFn fragments under physiologic pH and ionic strength conditions. Using a fluorescence polarization binding assay that employed a PFn affinity-purified fluorescein-labeled heparin preparation, we found that greater than 98% of the total PFn heparin-binding sites exhibit a Kd in the 118-217 nM range. We also identified a minor (less than 2%) class of binding sites exhibiting very high affinity (Kd approximately 1 nM) in PFn and the carboxyl-terminal 190/170 and 150/136 kDa PFn fragments. This latter activity probably reflects multivalent inter- or intramolecular heparin-binding activity. Amino-terminal PFn fragments containing Hep I (72 and 29 kDa) exhibited low affinity for heparin under physiologic buffer conditions (Kd approximately 30,000 mM). PFn fragments (190/170 and 150/136 kDa) containing both the carboxyl-terminal Hep II and central Hep III domains retained most of the heparin-binding activity of native PFn (Kd = 278-492 nM). The isolated Hep II domain (33-kDa fragment) exhibited appreciable, but somewhat lower (2-5-fold), heparin affinity compared to the 190/170-kDa PFn fragment. Heparin binding to the 100-kDa PFn fragment containing Hep III was barely detectable (Kd greater than 30,000 nM). From these observations, we conclude that PFn contains only one major functional heparin-binding site per subunit, Hep II, that dominates the interaction between heparin and PFn.     

Improved Anchorage of Ti6Al4V Orthopaedic Bone Implants through Oligonucleotide Mediated Immobilization of BMP-2 in Osteoporotic Rats

The aim of the present study was to test the biocompatibility and functionality of orthopaedic bone implants with immobilized oligonucleotides serving as anchor stands for rhBMP-2 and rhVEGF-A conjugated with complementary oligonucleotides in an osteoporotic rat model. Al₂O₃-blasted acid etched Ti6Al4V implants, carrying oligonucleotide anchor strands and hybridized with rhBMP-2 or rhVEGF-A through complementary 31-mer oligonucleotide stands were inserted into the proximal tibia of ovariectomized rats. At the time of surgery (15 weeks after ovariectomy) microCT analysis showed significantly lower bone mineral density compared to non-ovariectomized animals. Bone-implant contact (BIC) and pullout-force were not negatively affected by non-hybridized anchor strands. Twelve weeks after surgery, a significantly higher pullout force was found for BMP-2 hybridized to the anchor strands compared to non-hybridized anchor strands or native samples, and on histomorphometric analysis BIC was highest in the BMP group. Thus, we could show the biocompatibility and in vivo functionality of this modular, self-organizing system for immobilization and subsequent release of BMP-2 in vivo.     

Activation of a calcium entry pathway by sodium pyrithione in the bag cell neurons of Aplysia

The ability of sodium pyrithione (NaP), an agent that produces delayed neuropathy in some species, to alter neuronal physiology was accessed using ratiometric imaging of cytosolic free Ca(2+) concentration ([Ca(2+)](i)) in fura PE-filled cultured Aplysia bag cell neurons. Bath-application of NaP evoked a [Ca(2+)](i) elevation in both somata and neurites with an EC(50) of approximately 300 nM and a Hill coefficient of approximately 1. The response required the presence of external Ca(2+), had an onset of 3-5 min, and generally reached a maximum within 30 min. 2-Methyl-sulfonylpyridine, a metabolite and close structural analog of NaP, did not elevate [Ca(2+)](i). Under whole-cell current-clamp recording, NaP produced a approximately 14 mV depolarization of resting membrane potential that was dependent on external Ca(2+). These data suggested that NaP stimulates Ca(2+) entry across the plasma membrane. To minimize the possibility that a change in cytosolic pH was the basis for NaP-induced Ca(2+) entry, bag cell neuron intracellular pH was estimated with the dye 2',7'-bis(carboxyethyl-5(6)-carboxy-fluorescein acetoxy methylester. Exposure of the neurons to NaP did not alter intracellular pH. The slow onset and sustained nature of the NaP response suggested that a cation exchange mechanism coupled either directly or indirectly to Ca(2+) entry could underlie the phenomenon. However, neither ouabain, a Na(+)/K(+) ATPase inhibitor, nor removal of extracellular Na(+), which eliminates Na(+)/Ca(2+) exchanger activity, altered the NaP-induced [Ca(2+)](i) elevation. Finally, the possibility that NaP gates a Ca(2+)-permeable ion channel in the plasma membrane was examined. NaP did not appear to activate two major forms of bag cell neuron Ca(2+)-permeable ion channels, as Ca(2+) entry was unaffected by inhibition of voltage-gated Ca(2+) channels using nifedipine or by inhibition of a voltage-dependent, nonselective cation channel using a high concentration of tetrodotoxin. In contrast, two potential store-operated Ca(2+) entry current inhibitors, SKF-96365 and Ni(2+), attenuated NaP-induced Ca(2+) entry. We conclude that NaP activates a slow, persistent Ca(2+) influx in Aplysia bag cell neurons.     

Influences of castration and testosterone on spring to summer changes in release of luteinizing-hormone-releasing hormone in rabbits.

Push-pull cannulae were implanted toward the tuberal region of the hypothalamus in ten intact New Zealand male rabbits. In the first experiment, rabbits were perfused at different times after castration: 5-10 days (n = 10), 22-31 days (n = 9) and 50-64 days (n = 8). The release, mean amplitude and mean frequency of luteinizing-hormone-releasing hormone (LHRH) signals from 37 perfusions in ten animals were analysed in intact rabbits and at different times after castration. No significant changes in release of LHRH and in amplitude were observed, but the frequency was significantly higher 22-31 days after castration than in intact rabbits (intact: 0.86 +/- 0.12; castrated: 1.20 +/- 0.13 pulses h-1, P < 0.035; n = 9). In Expt 2, testosterone and placebo Silastic capsules were implanted in the castrated rabbits. Perfusions were performed in the following four periods, defined by season and time after testosterone and placebo implants: (i) spring; before implants, (ii) late spring; 0-2 weeks after implants, (iii) summer solstice; 2-4 weeks after implants and (iv) summer; 4-6 weeks after implants. Castrated rabbits were perfused during spring; castrated rabbits with testosterone capsule implants were perfused during late spring, around summer solstice and in summer and castrated rabbits with placebo implants were perfused during periods (iii) and (iv). Castrated animals with placebo implants showed no significant changes in mean LHRH release and amplitude, although the frequency was significantly higher around the summer solstice period than in castrated rabbits perfused in the spring. In castrated rabbits with testosterone implants LHRH release was significantly higher in late spring than around the summer solstice and in the summer. In addition, the concentrations of LHRH in late spring were significantly higher than those of intact and castrated animals. In contrast, mean LHRH amplitude and frequency did not change. Mean amount of LHRH released and amplitude in castrated rabbits with testosterone implants were significantly lower around the summer solstice than in late spring or summer and compared with intact animals around summer solstice and in castrated rabbits in early spring. These data demonstrate that there were no significant changes in the mean amplitude and release of LHRH after castration from 5 and up to 64 days in rabbits with hypothalamic push-pull cannulae, in contrast to the well established dramatic effect of castration on gonadotrophin concentrations. However, there was a small, but significant, increase in the mean frequency of LHRH pulses 22-31 days after castration compared with values from intact rabbits.(ABSTRACT TRUNCATED AT 400 WORDS)     

3D打印PCL/β-TCP可降解椎间融合器的体外降解及生物力学研究

目的:研究以质量配比为5∶5的聚己内酯(PCL)与磷酸三钙(β-TCP)为原材料,应用3D打印技术制备的的可降解的颈椎椎间融合器在体外的降解特性,为临床应用提供理论依据.方法:将制备好的融合器浸泡于模拟体液中,置于37℃温箱,每2周更换浸泡液,按浸泡时间的不同分为六组:分别为空白对照组、2周、4周、12周、26周、52...     

Histologic and histomorphometric follow-up observations of osseointegration of corundum-blasted BMP-3 coated titanium test implants (Ti6Al4V) at orthotopic site in the giant rabbit]

AIM: To establish whether the additional coating of titanium implants with Bone Morphogenetic Protein-3 (BMP-3) might enhance osseous integration. METHOD: Each of 15 cylindrical titanium test implants (Ti-6AI-4V) was coated using 230 micrograms porcine BMP-3. A further 15 implants with identical (corundium-blasted) surface served as negative controls. An uncoated and a BMP-3-coated test object were implanted into the femurs of 15 adult giant rabbits. New formation of bone around the implants was examined microscopically and histomorphometrically on postoperative days 14, 35 and 56. RESULTS: Coated implants revealed superior osseointegration with statistical evaluation using the t-test for matched samples showing a significantly higher volume of new bone 5 weeks after surgery. Microscopic examination revealed osseointegration with no connective tissue membrane around the surface of the implants. CONCLUSIONS: Our results indicate that composite metal implants are suitable carriers for BMP-3 and that improved fixation of the implants can be achieved.     

准好氧填埋渗滤液水质变化特性研究

在大型模拟填埋试验装置(21 m×3.8 m×6.0 m)上,研究了准好氧填埋渗滤液水质的主要指标COD_Cr、BOD、NH₃⁺-N和pH的变化特性.结果表明,准好氧填埋结构下渗滤液COD_Cr、BOD浓度下降很快,没有出现在传统填埋场累积的现象,并且封场后39周分别降为173和30 mg·L^-1;NH₃⁺-N浓度下降更为显著,第39周降为1 mg·L^-1,下降率达到99.6%,为渗滤液后续处理解决了NH₃⁺-N浓度过高的难题;pH值在前2周略低于7,第3周后一直呈弱碱性.根据实验数据,拟合了准好氧填埋结构渗滤液污染物的衰减方程.     

Substrate specificity of phosphorylase kinase: effects of heparin and calcium

Phosphorylase b and two peptides with sequences homologous to phosphorylation site 2 (syntide 2) and site 3 (syntide 3) of glycogen synthase were compared as substrates for purified muscle phosphorylase kinase. The substrate specificity of phosphorylase kinase varied according to whether heparin (at pH 6.5) or Ca2+ (at pH 8.2) was used as a stimulator of its activity. Phosphorylase b was preferentially phosphorylated in the presence of Ca2+; the rate of syntide 2 phosphorylation was the same for both stimulators; and the phosphorylation of syntide 3 was completely dependent on the presence of heparin. A kinetic analysis confirmed this stimulator-dependent substrate specificity since both the Vmax and Km for these substrates were affected diversely by heparin and Ca2+. Heparin stimulated phosphorylase kinase maximally at pH 6.5, whereas the effect of Ca2+ was optimal at a pH above 8. However, the stimulator-related substrate specificity could not be explained by the different pH values at which the effects of the stimulators were assessed. Nor did substrate-directed effects by heparin or Ca2+ apparently play a role. No indications were found for a stimulator-dependent specificity in the phosphorylation of sites in protein substrates of phosphorylase kinase (phosphorylase b, the alpha- and beta-subunits of phosphorylase kinase, or glycogen synthase). The diverse substrate specificity of the calcium- and heparin-dependent activities of phosphorylase kinase could be explained in two ways: either by the existence of separate calcium- and heparin-stimulated catalytic sites, or by just one catalytic site with two active conformations. The second possibility is favored by the observation that both calcium and heparin stimulated the isolated gamma-subunit (gamma X calmodulin complex) of phosphorylase kinase.     

Highly sensitive and surface-renewable electrochemical quartz crystal microbalance assays of heparin and chondroitin sulfate based on their effects on the electrodeposition of neutral red

The electrochemical quartz crystal microbalance (EQCM) technique was used to investigate the electrochemistry of neutral red (NR) in phosphate buffer solution (PBS) and the effects of coexisting heparin (Hep) or chondroitin sulfate (CS) for the first time. The pH dependence of the electrochemistry of NR was examined, and a V-shaped frequency response (versus time) was observed during the cyclic voltammetric experiment of NR in a nearly neutral medium (pH ca. 6.10-7.00), being due to the electrodeposition and stripping of the poorly soluble reduced product of NR (NR(Red)) at these pH values. The effects of potential scan rate, the concentration of NR, and several supporting electrolytes were examined at pH 6.80. The V-shaped response to the redox switching of NR was weakened by the introduction of Hep or CS, being due to the increased inhibition of the NR(Red) electrodeposition probably via the electrostatic interaction of the NR and especially the NR(Red) with Hep or CS. The height of the V-shaped response decreases with the increase of Hep or CS concentration, with limits of detection down to 3 nmol L(-1) for Hep and 2 nmol L(-1) for CS, respectively. The novel and surface-regenerable EQCM assay protocol based on the electrochemically switchable deposition of a dye is highly recommended for wide biosensing applications.     

人发角蛋白人工腱材料体内降解及生物相容性研究

目的研究人发角蛋白人工腱(humanhairkeratinartificaltendon,HHKAT)材料在体内的可降解性及其生物相容性.方法对12只日本大耳白兔随机分组,在脊旁肌埋藏不同处理时间的人发角蛋白人工腱试件F及Z,用正常人发O做对照,分别在2、6、12、24周取材,观察人发角蛋白的降解吸收过程及其周围的组织反应.结果动物植入实验中发现不同时间处理的材料其降解速度不同,其中降解最快的F组在24周已完全吸收,而Z组在24周只有部分降解,O组未见降解.HHKAT及人发在肌肉组织内无明显的炎症排斥反应,随着HHKAT材料的降解吸收,其周围的组织反应逐渐降低.结论本研究表明人发角蛋白人工腱材料具有良好的生物相容性,在体内能够被降解吸收,可根据不同的需要调节其降解速度,是良好的肌腱替代材料.     

Purification and characterization of thermostable beta-N-acetylhexosaminidase of Bacillus stearothermophilus CH-4 isolated from chitin-containing compost.

Thermostable exochitinase was purified to homogeneity from the culture fluid of Bacillus stearothermophilus CH-4, which was isolated from agricultural compost containing shrimp and crabs. The enzyme was a single polypeptide with a molecular mass of 74 kDa, and the N-terminal amino acid sequence was WDKVGVTDLI ISLNIPEADAVVVGMTLQLQALHLY. The enzyme specifically hydrolyzed C-4 beta-anomeric bonding of N-acetylchitooligosaccharides, as well as their p-nitrophenyl (pNP) derivatives. The enzyme also hydrolyzed pNP-beta-N-acetyl-D-galactosaminide (26% of the activity of pNP-beta-N-acetyl-D-glucosaminide). These results indicated that the enzyme is a beta-N-acetylhexosaminidase (EC 3.2.1.52). Kms for acetylchitooligosaccharides were 1 x 10(-4) to 6 x 10(-4) M, while those for the pNP derivatives were 4 x 10(-3) to 8 x 10(-3) M. The optimum temperature of the enzyme was 75 degrees C, and it retained 100 and 28% reactivity after heating at 60 and 80 degrees C, respectively. The enzyme exhibited 15 to 20% activity in a reaction mixture containing 80% organic solvents and maintained 91% of its original activity after exposure to 8 M urea. The optimum and stable pH was around 6.5. Fe2+, Zn2+, and Ca2+ activated the enzyme, but Hg2+ was inhibitory. N-Acetyl-D-glucosamine inhibited the enzyme competitively (Ki = 4.3 x 10(-4) M), whereas N-acetyl-D-galactosamine did not; in contrast, D-glucosamine and D-galactosamine activated it.