The effect of deuterium oxide on protein turnover in Lemna minor

Lemna minor fronds transferred to a sterile culture medium containing 50% (v/v) deuterium oxide (²H₂O) rapidly undergo a loss of soluble protein with a corresponding increase in free amino acids. The loss of protein is due to two factors: (i) the inhibition of protein synthesis for 4 h followed by a slower rate of synthesis than normal, (ii) a rapid 9–10 fold increase in protein degradation. In plants grown for longer periods (3–6 days) in 50% ²H₂O medium, protein synthesis is inhibited by 20% and the rate constant of degradation is 2–3 times that measured in fronds growing in normal (H₂O containing) complete medium. The initial loss of protein is not due to the breakdown of any specific protein fraction. Investigation of several enzymes indicates that all proteins are catabolised in response to ²H₂O treatment. The implications of these results with regard to the interpretation of density-labelling experiments are discussed.     

A sensitive method for measuring protein turnover based on the measurement of 2-3H-labelled amino acids in protein.

A method for measuring the rate of protein degradation is described. The method measures the change in 2-3H content of protein with time by racemization of the protein hydrolysate with acetic anhydride. The 3H on C-2 of amino acids is stable in proteins but becomes labile, owing to the action of transaminases, once the amino acids are released by proteolysis. The specific measurement of 2-3H in amino acids largely overcomes problems due to compartmentation and isotope recycling and evidence to support this claim is presented. Values for the half-life of Lemna minor (duckweed) protein determined by the new method are compared with values obtained by other methods.     

The inhibition of bacterial growth by hypochlorous acid. Possible role in the bactericidal activity of phagocytes.

The 'respiratory burst' of phagocytes such as neutrophils generates superoxide which forms H2O2 by dismutation. H2O2 and Cl- ions serve as substrates for the enzyme myeloperoxidase to generate hypochlorous acid (HOCl). HOCl is thought to play an important role in bacterial killing, but its mechanism of action is not well characterized. Furthermore, although many studies in vitro have shown HOCl to be a damaging oxidant with little or no specificity (particularly at high concentrations), bacteria which have been ingested by phagocytes appear to experience a rapid and selective inhibition of cell division. Bacterial membrane disruption, protein degradation, and inhibition of protein synthesis, do not seem to occur in the early phases of phagocyte action. We have now found that low concentrations of HOCl exert a rapid and selective inhibition of bacterial growth and cell division, which can be blocked by taurine or amino acids. Only 20 microM-HOCl was required for 50% inhibition of bacterial growth (5 x 10(8) Escherichia coli/ml), and 50 microM-HOCl completely inhibited cell division (colony formation). These effects were apparent within 5 min of HOCl exposure, and were not reversed by extensive washings. DNA synthesis (incorporation of [3H]-thymidine) was significantly affected by even a 1 min exposure to 50 microM-HOCl, and decreased by as much as 96% after 5 min. In contrast, bacterial membrane disruption and extensive protein degradation/fragmentation (release of acid-soluble counts from [3H]leucine-labelled cells) were not observed at concentrations below 5 mM-HOCl. Protein synthesis (incorporation of [3H]leucine) was only inhibited by 10-30% following 5 min exposure to 50 microM-HOCl, although longer exposure produced more marked reductions (80% after 30 min). Neutrophils deficient in myeloperoxidase cannot convert H2O2 to HOCl, yet can kill bacteria. We have found that H2O2 is only 6% as effective as HOCl in inhibiting E. coli growth and cell division (0.34 mM-H2O2 required for 50% inhibition of colony formation), and taurine or amino acids do not block this effect. Our results are consistent with a rapid and selective inhibition of bacterial cell division by HOCl in phagocytes. H2O2 may substitute for HOCl in myeloperoxidase deficiency, but by a different mechanism and at a greater metabolic cost.     

The enzymic degradation of l-serine O-sulphate. Mechanism of the reaction

1. During the enzyme-catalysed degradation of l-serine O-sulphate no exchange occurs between the hydrogen atom attached to the alpha-carbon atom of the substrate and the tritiated water of the incubation medium. 2. The participation of an intermediate carbanion has been demonstrated in the degradation by performing the reaction in the presence of tetranitromethane. 3. Photo-oxidation of the enzyme in the presence of Rose Bengal led to a rapid inactivation of enzyme with the concomitant loss of four histidine residues/molecule. 4. Rose Bengal was also a non-competitive inhibitor of the enzyme.     

EPR characterization of free radical intermediates formed during ultrasound exposure of cell culture media

Free radicals and/or hydrogen peroxide produced by exposure of cells to ultrasound are potentially cytotoxic and mutagenic. The formation and type of free radical species can be substantially modulated by the chemical composition of the media in which the ultrasound exposures of cells are carried out. In the current study, we examined the free radical intermediates formed during ultrasound exposure of a typical cell culture medium (RPMI-1640); the dominant free radicals that were identified by spin trapping were derived from the hydrophobic amino acids Trp, Leu, and Phe, and were formed by hydrogen abstraction from these amino acids. Compared to exposures in phosphate-buffered saline, the yield of *OH radicals and H2O2 was significantly reduced in the cell culture medium, glucose (the main organic component in the medium), and the hydrophobic amino acids (Trp, Phe, Tyr, Leu, Val, Met) being chiefly responsible for this effect. In contrast, other nonhydrophobic amino acids did not contribute significantly to the *OH or H2O2 decrease. These findings are consistent with the accumulation of hydrophobic solutes at the liquid-gas interface of the collapsing cavitation bubbles resulting in increased efficiency of radical scavenging.     

Platelet-derived growth factor (PDGF) induces intranuclear protein accumulation in 3T3 fibroblasts

Quiescent 3T3 fibroblasts were grown for a short time in the presence of [3H]amino acids then treated with PDGF, and the nucleo-cytoplasmic distribution of the 3H-labelled proteins was analysed by autoradiography. There was no difference in the total amount of 3H-labelled proteins in PDGF-treated and untreated cells but PDGF induced a significant increase in intranuclear protein accumulation.     

The effects of a low protein diet on amino acids and enzymes in the serine synthesis pathway in mice

Branched-chain amino acids, especially leucine, exert regulatory influences on protein and carbohydrate metabolism, ribosome biogenesis and gene expression. This study investigated the effects of leucine in fibroblastic cells analysing viability, proliferation, morphology, proteolysis enzymes activities and protein turnover. After exposure to culture medium enriched with 25 or 50 μM leucine for 24, 48 and 72 h, Vero cells have no alterations on viability and morphology. Leucine-treated cells showed increase on alkaline phosphatase activity and proliferation. The protein synthesis was slightly increased, whereas the protein degradation showed a deep reduction after leucine incubation. The chymotrypsin-like, cathepsin B and H and calpain activities were decreased in leucine-treated cells. In conclusion, the proteolytic pathways and the total protein degradation were modulated by leucine in Vero cells. Our observations support the concept that Vero cells may represent a new model for protein turnover study.     

Regulation of enzyme turnover during tissue differentiation. Interactions of insulin, prolactin and cortisol in controlling the turnover of fatty acid synthetase in rabbit mammary gland in organ culture

1. Explants of mammary gland from mid-pregnant rabbits were cultured in Medium 199 containing combinations of insulin, prolactin and cortisol. With hormone combinations which included prolactin, a sustained increase in the apparent rate of synthesis and in the amount of fatty acid synthetase was measurable immunologically. Maximum increase was produced with insulin, prolactin and cortisol present together. 2. With prolactin present alone, synthetase activity in the explants decreased to undetectable values after 1 day in culture, whereas the incorporation of l-[U-(14)C]leucine into immunodetectable material increased. Prolactin may therefore direct the synthesis of immunologically cross-reactive precursors of fatty acid synthetase which are enzymically inactive. 3. Culture with dibutyryl cyclic AMP plus theophylline in the presence of insulin, prolactin and cortisol delayed the increase in the rate of synthesis and accumulation of the synthetase. These compounds may also prevent the apparent decrease in the rate of degradation of the synthetase which occurs on day 2 of culture. 4. A large decrease in the apparent rate of degradation of the synthetase on day 2 of culture occurs during culture with hormone combinations which include prolactin. The protein obtained by centrifugation of explant homogenates for 6min at 14000g(av.) is degraded continuously throughout the culture period. 5. This decrease in the apparent rate of degradation of the synthetase was measured by radio-immunological precipitation. It is probably part of a regulated programme of enzyme degradation and not a reflexion of the reutilization of radioactive amino acids for the following reasons. (a) The calculated increase in the amount of the synthetase in explants on day 2 of culture with insulin, prolactin and cortisol was approximately equal to the measured increase of the enzyme complex which accumulates in the explants. This suggests little or no enzyme degradation has occurred. (b) Explants were cultured for 24h with insulin, prolactin and cortisol. They were then incubated with l-[U-(14)C]leucine, washed and incubated again for up to 4(1/2)h. l-[U-(14)C]Leucine rapidly equilibrated with the intracellular amino acid pool. Within 10min of incubation after washing explants to remove endogenous l-[U-(14)C]leucine the previously linear incorporation of l-[U-(14)C]-leucine into total explant protein ceased. This suggests that protein is synthesized from an amino acid pool which rapidly equilibrates with amino acids in the culture medium. (c) Explants were cultured for 24h as described in (b) but after washing they were cultured with insulin, prolactin and cortisol for 24h. Approx. 90% of the radioactivity lost from the ;free' intracellular amino acid pool and from amino acids derived from the degradation of explant protein in this period was detected in the culture medium. This suggests that the ;free' intracellular amino acids and amino acids derived from protein degradation can equilibrate with amino acids in the medium. A residual ;free' radioactive amino acid pool was present in the tissue. (d) Casein represents approx. 20% of the protein synthesized after 1 day in culture with insulin, prolactin and cortisol. Histological evidence suggests that on day 2 of culture, casein is unlikely to be degraded in the tissue. No increase in the radioactivity incorporated into casein can be measured in the 23h after incubation of explants with l-[U-(14)C]leucine as described in (b). This suggests that the incorporation of radioactivity into proteins during culture after incubation with l-[U-(14)C]leucine is minimal. (e) Inhibition of protein synthesis in explants by cycloheximide after incubation with l-[U-(14)C]leucine does not reveal a latent continuous degradation of fatty acid synthetase on day 2 of culture which might have been masked by the high rates of protein synthesis and therefore the accumulation of the enzyme. 6. The conclusion is discussed that there is a real decrease (or even cessation) in the rate of degradation of fatty acid synthetase during the period when the enzyme accumulates in explants cultured with hormone combinations which contain prolactin.     

Sustainable and practical degradation of intact chicken feathers by cultivating a newly isolated thermophilic <Emphasis Type="Italic">Meiothermus ruber</Emphasis> H328

The sustainable and practical degradation of intact chicken feathers by a newly isolated thermophilic bacterium Meiothermus ruber H328 was presented with extensive data. Aerobic cultivation with moderately thermophilic strain H328 at 55°C for 6 days led to the apparently complete decay of the truly intact feathers and provided 1.89 mmol free amino acids and 7.32 mmol acid-hydrolyzed amino acids from 50 ml of culture containing 3% (w/v) intact chicken feathers. The amino acid components in the soluble fraction of the culture conspicuously agreed with those calculated from the intact feathers. This demonstrated that more than 55% of total keratin proteins were solubilized from the intact chicken feathers into the culture in the forms of free amino acid and/or soluble oligopeptide, and most of them are directly derived from the intact feathers by proteolytic digestion. Feather degradation by strain H328 surpasses that by any other microorganisms with regard to degradation efficiency, absence of requirement for pretreatment of the feathers, and product fidelity in the amino acid component. Furthermore, the culture containing the degradative products from the intact feathers was subjected to matrix-assisted laser desorption ionization mass spectrometry-time-of-flight analysis, and it was revealed that the molecular masses of the solubilized products, oligopeptides, were less than 1,000. This result allows us to investigate the bioactivities of oligopeptides derived from the degradation of chicken feathers by cultivation with strain H328 as well as the production of amino acids for feedstuffs.     

LC/ESI-MS analysis of two elastin cross-links, desmosine and isodesmosine, and their radiation-induced degradation products

In this work, the effect of Fenton reaction on two elastin cross-linked amino acids, desmosine (DES) and isodesmosine (IDE), in the absence or presence of different wavelength radiations generated from artificial sources has been evaluated using LC/ESI-MS. Irradiation as well as incubation of DES or IDE solutions in the presence of Fe(2+) and H(2)O(2) resulted in products with m/z 497.1 and 481.1 for [M+H](+). A strongly dose-dependent degradation of both amino acids was observed upon exposure to UVB at doses ranging from 0 to 3 J/cm(2) and a moderate dose-dependent degradation upon exposure to UVA at doses 10 times higher than that of UVB. A significant time-dependent degradation of DES and IDE was also observed upon exposure of these amino acids to a lamp emitting visible light similar to sunlight. Exposure of both amino acids to IR radiation (520 W) for 8 h did not cause significant degradation.     

Flower-Inducing Activity of Lysine in Lemna paucicostata 151 Cultured on Nitrogen-Deficient Medium

Lemna paucicostata 151, a weakly responsive short-day plant,flowers even under continuous illumination when cultured onnitrogen-free medium for more than 72 hours with subsequentculture on nitrogen-rich medium. During the nitrogen-free culture,the protease activity and protein content of the plant increasedand decreased, respectively. The plant contained a protein(s)that induced flowering of the plant when added to the medium.The level of this protein(s) also decreased during the nitrogen-freeculture. The total amount of free amino acids in plants culturedon nitrogen-free medium for 96 hours decreased to about 15%of that in plants at the start of nitrogen-free culture, butlevels of some amino acids increased. These amino acids wereexamined for their effects on flowering of plants cultured onnitrogen-deficient or nitrogen-free medium. Most of the aminoacids had no effect on flowering. However, profuse floweringwas induced when lysine was added to the medium. Lysine promotedthe flower-inductive process(es) rather than the developmentof flower buds. These results suggest that nitrogen deficiency-induced floweringof the plants is induced by lysine, which is generated froma specific protein(s) by proteolysis. (Received May 11, 1992; Accepted July 30, 1992)     

Formation of hybrid nucleosomes cantaining new and old histones.

5 mM hydroxyurea (HU) inhibits DNA synthesis in mouse P815 cells by 94-97% in less than 1 hr. Nevertheless, histone synthesis continues and newly-synthesised histones are incorporated into non-replicating chromatin at a rate of about 20% of that in control exponentially-growing cells. To study the organization of these histones in chromatin P815 cells were treated with 5 mM HU in medium containing dense (15N, 13C, 2H) - substituted amino acids. After inhibition of DNA synthesis, newly-synthesised histones were labelled with (3H)-arginine. The cells were harvested 90 min later, and mono- and oligonucleosomes were prepared and analysed on metrizamide-triethanolamine (MA-TEA density gradients. Analysis of the distribution of 3H-labelled histones in these gradients shows that they are incorporated into hybrid mononucleosomes containing both new and old histones. It is also shown that these hybrid nucleosomes are not randomly distributed, but show a certain tendency to be clustered in certain chromatin regions.     

Uptake of HDL unesterified and esterified cholesterol by human endothelial cells. Modulation by HDL phospholipolysis and cell cholesterol content

Human HDL (1.070-1.210), doubly labelled with ³H/¹⁴C-labelled unesterified cholesterol and ³H-labelled esterified cholesterol were incubated for 1–5 h with monolayer cultures of human endothelial cells. HDL were preincubated for 60–120 min the presence of albumin and with/without purified phospholipase A₂ (control HDL, phospholipase A₂ HDL) before dilution in the cell culture medium. Average phosphatidyl-choline (PC) degradation was 62.10% ± 2.57% (range 45–80%). A purified lipase /phospholipase A₁ from guinea pig pancreas was used in some experiments (range of PC hydrolysis: 16–70%). (1) ³H/¹⁴C-labelled unesterified cholesterol and ³H-labelled esterified cholesterol appeared in cells during 0–5 h incubations. Trypsin treatment allowed a simple adsorption of HDL onto the cell surface to be avoided, and most of the ³H-labelled esterified cholesterol transferred to cells was hydrolysed. Cell uptake of radioactive cholesterol increased as a function of HDL concentration but no saturation was achieved at the highest lipoprotein concentration used (200 μg cholesterol/ml). Flux of ³H/¹⁴C-labelled unesterified cholesterol was related to the cell cholesterol content, suggesting that it might partly represent an exchange process. The cell cholesterol content was slightly increased after 5 h incubation with HDL (+16%). (2) Pretreatment of HDL with purified phospholipase A₂ doubled on average the amount of cell recovered ³H-labelled esterified cholesterol, while the flux of ³H/¹⁴C-labelled unesterified cholesterol was enhanced by 15–25%. Both transfer and cell hydrolysis of ³H-labelled esterified cholesterol were increased. A stimulation was also observed using purified lipase/phospholipase A₁, provided that a threshold phospholipid degradation was achieved (between 27 and 45%). (3) Endothelial cells were conditioned in different media so as to modulate their charge in cholesterol. The uptake of ³H-labelled esterified cholesterol was found to be significantly higher in cholesterol-enriched cells compared to the sterol-depleted state. Finally, movements of ³H-labelled esterified cholesterol from HDL to endothelial cells were essentially unaffected by cell density or by the presence of partially purified cholesterol ester transfer protein. The possible roles of the transfer of HDL esterified cholesterol to endothelial cells and its modulation by phospholipases are discussed.     

LABELLING OF BRAIN PROTEINS AT EARLY PERIODS AFTER SUBCUTANEOUS INJECTION OF A MIXTURE OF [U-14C]GLUCOSE AND [3H]GLUTAMATE

To obtain evidence of the site of conversion of [U-¹⁴C]glucose into glutamate and related amino acids of the brain, a mixture of [U-¹⁴C]glucose and [³H]glutamate was injected subcutaneously into rats. [³H]Glutamate gave rise to several ³H-labelled amino acids in rat liver and blood; only ³H-labelled glutamate, glutamine or γ-aminobutyrate were found in the brain. The specific radioactivity of [³H]glutamine in the brain was higher than that of [³H]glutamate indicating the entry of [³H]glutamate mainly in the ‘small glutamate compartment’. The ¹⁴C-labelling pattern of amino acids in the brain and liver after injection of [U-¹⁴C]glucose was similar to that previously reported (Gaitonde et al., 1965). The specific radioactivity of [¹⁴C]glutamine in the blood and liver after injection of both precursors was greater than that of glutamate between 10 and 60 min after the injection of the precursors. The extent of labelling of alanine and aspartate was greater than that of other amino acids in the blood after injection of [U-¹⁴C]glucose. There was no labelling of brain protein with [³H]glutamate during the 10 min period, but significant label was found at 30 and 60 min. The highest relative incorporation of [¹⁴C]glutamate and [¹⁴C]aspartate in rat brain protein was observed at 5 min after the injection of [U-¹⁴C]glucose. The results have been discussed in the context of transport of glutamine synthesized in the brain and the site of metabolism of [U-¹⁴C]glucose in the brain.     

The biosynthesis of methylcitrate.

Citrate synthase catalyses the formation in vitro of two diastereoisomers of methylcitrate from propionyl-CoA and oxaloacetate. The proportion of diastereoisomers produced is temperature-sensitive. In the presence of oxaloacetate and a thiol trap, the enzyme catalyses the exchange of both alpha-protons of propionyl-CoA with 2H2O. The pro-S-proton at the alpha-carbon atom is exchanged 15 times faster with 2H2O than is the pro-R-proton. The exchanges are over 1000 and 100 times faster respectively than Vmax. These results are interpreted in the light of recent reports that 2R,3S- and 2S,3S-methylcitrates are produced by the enzyme-catalysed condensation and also excreted by patients with propionic acidaemia.     

Altered visceral yolk sac function produced by a low-molecular-weight somatomedin inhibitor

A fraction from diabetic rat serum containing a low-molecular-weight (800-1000) somatomedin inhibitor (SI) alters growth and development in both neurulation and early limb bud staged mouse embryos in vitro. Previous studies suggested that an accumulation of serum proteins and morphological changes of the visceral yolk sac (VYS) were produced following exposure to the SI in early limb bud staged conceptuses. The morphological changes, characterized by the presence of large endosomes in the endodermal cells, suggested that the SI altered histiotrophic nutrition, whereby proteins are pinocytosed by the endodermal VYS cells and degraded to constituent amino acids. Therefore, the effects of the SI on pinocytosis and protein degradation by the VYS were evaluated using the whole embryo culture system. Results showed that the SI reduced fluid phase pinocytosis as determined by the uptake of [U-14C]sucrose, but that accumulation of [3H]leucine-labeled hemoglobin ([3H]Hb) by the VYS was greater following exposure to the SI than in controls. In contrast, the accumulation of 3H-labeled amino acids in the embryo (produced from the degradation of [3H]Hb by the VYS) was reduced by the SI. The extent of amino acid reduction in embryonic accumulation is dependent upon the concentration of SI in the culture medium and correlates with the incidence of malformations produced by the SI, i.e., high rates of malformations occur with large reductions in embryonic 3H-labeled amino acid accumulation. The apparent paradox of high [3H]Hb accumulation in the presence of decreased pinocytosis appears to be the result of altered processing of the [3H]Hb in the endodermal cells. The altered processing decreases the "elimination" of the proteins from the VYS and results in the decrease in 3H-labeled amino acid present in the embryo proper. Therefore, the SI appears to alter two processes of VYS histiotrophic function. (1) decreased pinocytosis and (2) altered protein processing, ultimately resulting in a decreased availability of substrates for the embryo. During the early stages of embryogenesis in the human, the trophoblast cells of the placenta are responsible for the transport of nutrients from the maternal to embryonic systems. Since these cells show high phagocytic and pinocytotic activities, the SI may also disrupt these processes in the chorioallantoic placenta and contribute to diabetes-induced embryopathies.     

槲皮素对氧化应激大鼠肝细胞氨基酸代谢的影响

通过检测原代培养的大鼠肝细胞培养液中18种氨基酸含量的变化情况,探讨槲皮素对氧化应激大鼠肝细胞氨基酸代谢的影响。结果表明,与对照组相比,槲皮素组氨基酸质量浓度无明显变化;H2O2组、槲皮素+H2O2组培养液中丙氨酸、蛋氨酸和组氨酸的质量浓度显著减少(P<0.05),而牛磺酸的质量浓度显著增加(P<0.05),上述变化槲皮素+H2O2组较H2O2组更明显,槲皮素+H2O2组M et和H is的质量浓度显著低于H2O2组(P<0.05)。说明槲皮素可影响氧化应激肝细胞某些氨基酸,尤其是含硫氨基酸的代谢。这种影响可能是槲皮素抗氧化应激作用的机制之一。     

Regulation of branched-chain, and sulfur-containing amino acid metabolism by glutathione during ultradian metabolic oscillation of Saccharomyces cerevisiae

Autonomous ultradian metabolic oscillation (T approximately or =50 min) was detected in an aerobic chemostat culture of Saccharomyces cerevisiae. A pulse injection of GSH (a reduced form of glutathione) into the culture induced a perturbation in metabolic oscillation, with respiratory inhibition caused by H2S burst production. As the production of H2S in the culture was controlled by different amino acids, we attempted to characterize the effects of GSH on amino acid metabolism, particularly with regard to branched chain and sulfur-containing amino acids. During stable metabolic oscillation, concentrations of intracellular glutamate, aspartate, threonine, valine, leucine, isoleucine, and cysteine were observed to oscillate with the same periods of dissolved O2 oscillation, although the oscillation amplitudes and maximal phases were shown to differ. The methionine concentration was stably maintained at 0.05 mM. When GSH (100 microM) was injected into the culture, cellular levels of branched chain amino acids increased dramatically with continuous H2S production, whereas the cysteine and methionine concentrations were noticeably reduced. These results indicate that GSH-dependent perturbation occurs as the result of the promotion of branched chain amino acid synthesis and an attenuation of cysteine and methionine synthesis, both of which activate the generation of H2S. In a low sulfate medium containing 2.5 mM sulfate, the GSH injections did not result in perturbations of dissolved O2, NAD(P)H redox oscillations without burst H2 production. This suggests that GSH-dependent perturbation is intimately linked with the metabolism of branched-chain amino acids and H2 generation, rather than with direct GSH-GSSG redox control.     

Extraction of protein and amino acids from deoiled rice bran by subcritical water hydrolysis

This study investigated the production of value-added protein and amino acids from deoiled rice bran by hydrolysis in subcritical water (SW) in the temperature range between 100 and 220 degrees C for 0-30 min. The results suggested that SW could effectively be used to hydrolyze deoiled rice bran to produce useful protein and amino acids. The amount of protein and amino acids produced are higher than those obtained by conventional alkali hydrolysis. The yields generally increased with increased temperature and hydrolysis time. However, thermal degradation of the product was observed when hydrolysis was carried out at higher temperature for extended period of time. The highest yield of protein and amino acids were 219 +/- 26 and 8.0 +/- 1.6 mg/g of dry bran, and were obtained at 200 degrees C at hydrolysis time of 30 min. Moreover, the product obtained at 200 degrees C after 30 min of hydrolysis exhibited high antioxidant activity and was shown to be suitable for use as culture medium for yeast growth.     

Proteoglycan aggregate formation by articular chondrocytes. Decrease in link-protein synthesis during culture.

The synthesis of link-stabilized proteoglycan aggregates by rabbit articular chondrocytes was investigated by [35S]sulphate labelling of primary monolayer cultures maintained for up to 21 days. (1) At all culture times the cells secreted a high-molecular-weight cartilage-type proteoglycan monomer of which 75%-80% formed aggregates with hyaluronic acid. (2) At 2 days of culture all of the aggregates were in link-stabilized form, but by 21 days only 5% were link-stabilized, as shown by displacement of monomers from the aggregate by hyaluronic acid oligosaccharides. (3) The addition of purified link protein to 21-day culture medium increased the proportion of link-stable aggregate from 5% to 70%. (4) Analysis of [3H]serine-labelled proteoglycan aggregates in the medium showed a marked decrease with culture time in the ratio of 3H-labelled link protein to 3H-labelled core protein present. The results suggest that the secretion of proteoglycan monomers and link protein by articular chondrocytes changes independently during prolonged monolayer culture.