Heat-ethanol isolated serum albumin: discussion.

Albumin isolated by the Hagen/Münster heat-ethanol method is a remarkably stable solution of high purity and clinical compatibility. The simplicity of this method makes it a model fractionation procedure for the small transfusion service. Immunization studies carried out by us are compared with previous accounts of a "new" antigen occuring in plasma protein solution produced by partial heat denaturation. Clinical compatibility of cold-ethanol and heat-ethanol fractionated albumin solutions are also shortly discussed.     

Scaled down method for the reproducible recovery to high purity of human serum albumin from low volume blood samples

A basic need for a protein-based dosimeter is a purified protein. In this communication we present an isolation protocol and an HPLC-based assay which allows one to determine the purity of the isolated albumin. A total of 168 human blood samples were collected from workers of a benzene processing plant and from nearby countryside at Kohtla-Järve, Estonia. Albumin was isolated from plasma by sequential precipitation and the purity was determined by HPLC. The amount of albumin present in plasma varied between the individuals, being 147 ± 26 mg/5 ml (n=168), which is about 59% of plasma albumin. However, the isolated albumin was highly pure (100.9 ± 8.2%, n=5). All albumin samples analyzed demonstrate two peaks in HPLC analysis. The two peaks detected were collected and subjected to MS analysis, which demonstrates a difference of 120 mass units between the two albumin products isolated. We have developed an assay, which is easy to carry out and is not too labor intense. The HPLC analysis can be applied to confirm the purity of the isolated albumin as well as to confirm the quantity of the albumin in samples.     

Formation of albumin dimers induced by exposure to peroxides in human plasma: a possible biomarker for oxidative stress

Human serum albumin (HSA) has one free thiol residue at Cys-34 that is likely oxidized by various reactive oxygen species (ROS). We attempted to identify the oxidation product of Cys-34 of HSA following exposure of plasma to ROS. Oxidation induced by tert-butyl hydroperoxide (t-BuOOH) of this free cysteine residue in HSA was observed in detail. Analysis of oxidized albumin in a partially purified fraction obtained by affinity column chromatography clearly revealed the formation of albumin disulfide dimers following t-BuOOH exposure. Albumin disulfide dimer formation was observed in normal plasma following treatment with various peroxides, as well as in untreated plasma from patients on hemodialysis using SDS-PAGE and Western blot analysis. The present results indicate that albumin dimers are oxidative products derived from peroxides, and that their presence in plasma might be a marker of oxidative stress as secondary metabolites of peroxidation.     

Nature of non-transferrin-bound iron: studies on iron citrate complexes and thalassemic sera

Despite its importance in iron-overload diseases, little is known about the composition of plasma non-transferrin-bound iron (NTBI). Using 30-kDa ultrafiltration, plasma from thalassemic patients consisted of both filterable and non-filterable NTBI, the filterable fraction representing less than 10% NTBI. Low filterability could result from protein binding or NTBI species exceeding 30 kDa. The properties of iron citrate and its interaction with albumin were therefore investigated, as these represent likely NTBI species. Iron permeated 5- or 12-kDa ultrafiltration units completely when complexes were freshly prepared and citrate exceeded iron by tenfold, whereas with 30-kDa ultrafiltration units, permeation approached 100% at all molar ratios. A g = 4.3 electron paramagnetic resonance signal, characteristic of mononuclear iron, was detectable only with iron-to-citrate ratios above 1:100. The ability of both desferrioxamine and 1,2-dimethyl-3-hydroxypyridin-4-one to chelate iron in iron citrate complexes also increased with increasing ratios of citrate to iron. Incremental molar excesses of citrate thus favour the progressive appearance of chelatable lower molecular weight iron oligomers, dimers and ultimately monomers. Filtration of iron citrate in the presence of albumin showed substantial binding to albumin across a wide range of iron-to-citrate ratios and also increased accessibility of iron to chelators, reflecting a shift towards smaller oligomeric species. However, in vitro experiments using immunodepletion or absorption of albumin to Cibacron blue–Sepharose indicate that iron is only loosely bound in iron citrate–albumin complexes and that NTBI is unlikely to be albumin-bound to any significant extent in thalassemic sera.     

Isolation and characterization of proteoheparan sulfate from plasma membranes of an ascites hepatoma, AH 66

A proteoglycan was isolated from plasma membranes prepared from AH 66 cells by the following procedure. The plasma membranes were isolated from cells according to the method devised by Funakoshi and Yamashina (1976) J. Biochem. 80, 1185-1193), then the membranes were made lipid-free. The lipid-free membranes were solubilized with 5 mM sodium phosphate buffer, pH 7.0, containing 0.5% sodium dodecyl sulfate (SDS), then the solution was fractionated on a Sepharose CL 6B column. The proteoglycan eluted near the void volume fraction was further purified by repeated precipitation with cetylpyridinium chloride (CPC). The proteoglycan isolated was homogeneous on electrophoresis on a cellulose acetate strip and was identified as proteoheparan sulfate. The preparation contained 10.6% protein, its amino acid composition being characterized by high contents of glutamic acid, aspartic acid, proline, glycine, threonine, and serine.     

A hexameric form of the Neurospora crassa plasma membrane H+-ATPase

As isolated by our recently developed large-scale procedure, the Neurospora plasma membrane H⁺-ATPase exists as a homogeneous, oligomeric complex of 105,000-Da monomers with a molecular mass equivalent to a spherical protein of about 1 million Da, as judged by its behavior during chromatography on calibrated columns of Sepharose CL-6B and CL-4B. Treatment of this complex with the nonionic detergent, Tween 20, followed by Sepharose column chromatography in the presence of this detergent produces particles with an apparent molecular mass reduced by 100–300 kDa, and, importantly, when the isolated complex is treated with Tween 20 and then subjected to Sepharose chromatography in the absence of detergent, fully viable, largely detergent-free, homogeneous particles with a molecular mass equivalent to a spherical protein of 670,000 Da are formed. As assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, treatment of the particles isolated in the presence of Tween 20 with glutaraldehyde progressively yields dimers, trimers, tetramers, pentamers, and hexamers of the 105,000-Da monomer, with the expected precursor-product relationships, but no species larger than a hexamer is formed. These results thus strongly indicate that these particles are hexamers of 105,000-Da monomers. Glutaraldehyde crosslinking experiments with the ca. 1 million- and 670,000-Da particles indicate that they too are hexamers, suggesting that the differences in the apparent sizes of the three types of particles are most likely due to bound detergents. Possible implications of these findings are discussed.     

The small chromatin fragments released by micrococcal nuclease from hepatoma tissue cultured cell nuclei are strongly enriched in coding DNA sequences and are related to an actively transcribed single-stranded DNA fraction

It was shown with the use of specific probes that mild micrococcal nuclease digestion releases from chromatin actively-transcribed genes as small nucleosome oligomers. In the present work we demonstrate that most if not all of the active genes are accessible to the nuclease. It was found that the short released fragments are greatly enriched in transcribed DNA sequences, the most enriched being the dimers of nucleosomes since 35% of their DNA could be hybridized to cytoplasmic RNA. The results of cDNA-DNA hybridizations indicate that the monomers and dimers of nucleosomes contain most of the DNA sequences which encode poly(A⁺) RNAs, however larger released fragments include some transcribed sequences, while the nuclease-resistant chromatin is considerably impoverished in coding sites. These evidences and the finding that about 25% of the DNA from the dimers of nucleosomes are exclusively located in this class of fragments, tend to prove that the active chromatin regions are attacked in a non-random way by micrococcal nuclease. We have previously isolated, without using exogenous nuclease, an actively transcribed genomic fraction amounting to 1.5–2% of the total nuclear DNA, formed of single-stranded DNA. In the present study we show that all or nearly all the single-stranded DNA sequences could be reassociated with the DNA fragments present in the released monomers and dimers of nucleosomes. Our observations confirmed our previous finding that the greatest part of single-stranded DNA selectively originates from the coding strand of genomic DNA.     

Arrangement of nucleotide sequences in adeno-associated virus DNA

There are two types of adeno-associated virus virions which contain complementary single-stranded DNA genomes of about 1.4 × 10⁶ daltons. The purified complementary single polynucleotide chains anneal to form duplex linear monomers, circular monomers, and linear dimers, in addition to other less well-defined structures, as identified by sedimentation and electron microscopy. All duplex species are formed by linear single polynucleotide chains of unit length, thus duplex circles and linear dimers are assumed to be held together by relatively short overlapping hydrogen-bonded regions. The initial linear monomers present after annealing the complementary single strands do not form duplex circles or oligomers when re-exposed to annealing conditions, but DNA which sediments as linear monomers after heating linear dimers at a temperature from 7 to 25 deg. C below the T_m of duplex AAV² DNA does re-form oligomers and circles when exposed to annealing conditions. Denaturation and reannealing of any duplex species leads to the formation of all forms, indicating that the over-all single strand composition of all species is equivalent. Disruption of duplex circles by limited exonucleolytic digestion using either 3′ or 5′ exonucleases leads to the conclusion that the overlap region may have either 3′ or 5′ termini and that the overlap region represents less than 6% of the length of the genome. Exonucleolytic digestion of linear monomers to the extent of 50% leaves polynucleotide chains which cannot reanneal after denaturation, thus AAV DNA is not randomly circularly permuted. Duplex linear monomers which do not form circles when exposed to annealing conditions do form duplex circles after 1% exonuclease III digestion. A model consistent with these data is one in which the linear single polynucleotide chains present in AAV virions consist of two or more permutations. All of these chains contain terminal repetitions and their start points occur within a limited region, representing < 6% of the length of the genome. According to this interpretation AAV DNA would exist within the virion as a linear single polynucleotide chain or is cleaved at a few specific sites during extraction.     

Crystallization of dimers of the manganese-stabilizing protein of Photosystem II

The manganese-stabilizing protein (MSP) of Photosystem II was purified from spinach photosynthetic membranes. The MSP was crystallized in the presence of calcium. Despite the apparent purity of the isolated protein, the crystals grew to only about 0.05 mm in their largest dimension. The MSP was analyzed to identify possible sources of protein heterogeneity that could hinder crystal growth. Tandem reverse-phase HPLC/ electronspray ionization mass spectrometry analysis of the MSP showed a major peak and four smaller peaks. All five peaks had molecular masses of 26 535, as expected for mature MSP, indicating the absence of heterogeneities due to covalent modifications. MALDI mass spectroscopy was utilized to identify heterogeneities in the MSP oligomeric state. These measurements showed that purified MSP in solution is a mixture of monomers and dimers, while solubilized MSP crystals contained only dimers. Size-exclusion chromatography and dynamic light scattering were used to probe the effect of the crystallization conditions on the MSP. Size-exclusion chromatography of concentrated MSP showed the presence of aggregates and monomers, while dilute MSP contained monomers. Dynamic light scattering experiments in the absence, or in the presence of 10–50 mM or 100 mM calcium, yielded calculated molecular mass values of 34 kDa, 48 kDa and 68 kDa, respectively. These changes in the observed molecular mass of the MSP could have been caused by the formation of dimers and higher oligomers and/or significant conformational changes. Based on the results reported in this study, a model is presented which details the effect of oligomeric heterogeneity on the inhibition of MSP crystal growth. This revised version was published online in June 2006 with corrections to the Cover Date.     

Decomposition products of Dimers Arising from Secondary Oxidation of Methyl Linoleate Hydroperoxides

Dimers formed in aerated methyl linoleate hydroperoxides were decomposed in liquid paraffin by bubbling with dry air at 30°C for 24 hr to identify the decomposition products. The aerated dimers were fractionated according to their molecular weights by gel permeation chromatography. Identification of the monomeric (25.6%) and low molecular fission products (10.8%) by gas chromatography-mass spectrometry showed the major monomers as methyl hydroxy-octadecadienoate, methyl hydroxy (or hydroperoxy)-epoxy-octadecenoate, methyl dihydroxy (or hydroperoxy)-octadecenoate, methyl trihydroxy (or hydroperoxy)-octadecenoate; and the major fission products as methyl 8-hydroxy-octanoate, 4-hydroxy (or hydroperoxy)-nonanal or -2-nonenal, methyl 12-oxo-9-hydroxy (or hydroperoxy)-dodecanoate or -10-dodecenoate, and methyl 11-oxo-9-undecenoate.

The monomeric products were presumed to be derived from alkoxy radicals generated by the cleavage of peroxy linkages in the dimers, whereas the low molecular products were suggested to be raised by the direct carbon-carbon scission of oxygenated ester moieties on both sides of the peroxy bonds.     

Functional equivalence of monomeric and dimeric forms of purified acetylcholine receptors from Torpedo californica in reconstituted lipid vesicles

Acetylcholine receptors from Torpedo californica electric organ were solubilized and purified under conditions which prevent inactivation of the agonist-regulated cation channels. The dimer form of the receptors was preserved during purification. Treatment with reducing agents converted dimers into monomers. Receptor monomers and dimers were separately reconstituted into soybean lipid vesicles by the cholate dialysis technique. Reconstituted monomers and dimers were functionally equivalent with respect to their carbamylcholine-induced dose-dependent uptake of 22Na+, the total flux of 22Na+ per receptor during the permeability response, and the occurrence of desensitization. Evidence against non-covalent association of monomers to produce dimeric functional units was obtained using glutaraldehyde as a crosslinking agent. These results show that both the acetylcholine-binding sites and the agonist-regulated cation-specific channel are contained within the alpha 2 beta gamma delta subunit structure of the acetylcholine receptor monomer.     

Isolation of immunoreactive beta-endorphin-related and Met-enkephalin-related peptides from the posterior pituitary of the amphibian, Xenopus laevis

Acid extracts of the posterior pituitary of the amphibian, Xenopus laevis, were analyzed with two heterologous region specific β-endorphin RIAs. Following gel filtration chromatography and cation exchange chromatography four peaks of immunoreactivity were detected. All four peaks were detected with a N-acetyl specific β-endorphin RIA. Peak I represented 92% of the total immunoreactivity isolated following cation exchange chromatography. This peak had a net positive charge at pH 2.5 of +1 and an apparent molecular weight of 1.4 Kd. Following reverse phase HPLC, Peak I fractionated into two peaks: Peak Ia and Peak Ib. Both peaks were detected with the N-acetyl specific β-endorphin RIA and a Met-enkephalin RIA, however, neither peak co-migrated with either Met-enkephalin or N-acetyl-β-endorphin(1–16). At present it is not clear whether Peak I is derived from pro-opiomelanocortin or one of the other opioid polyproteins. Peaks II, III, and IV represented 8% of the total immunoreactivity recovered following cation exchange chromatography. These peaks had net positive charges of +3, +4, and +5, respectively, and apparent molecular weights of 2.8, 3.2, and 3.5 Kd, respectively. These apparently N-acetylated β-endorphin-sized forms are minor end products of the pro-opiomelanocortin biosynthetic pathway.     

Plasma volume expansion in humans after a single intense exercise protocol.

We used intense intermittent exercise to produce a 10% expansion of plasma volume (PV) within 24 h and tested the hypothesis that PV expansion is associated with an increase in plasma albumin content. The protocol consisted of eight 4-min bouts of exercise at 85% maximal O2 uptake with 5-min recovery periods between bouts. PV, plasma concentrations of albumin and total protein (TP), and plasma osmolality were measured before and during exercise and at 1, 2, and 24 h of recovery from exercise. During exercise, PV decreased by 15%, while plasma TP and albumin content remained at control levels. At 1 h of recovery, plasma albumin content was elevated by 0.17 +/- 0.04 g/kg body wt, accounting for the entire increase in plasma TP content. PV returned to control level at 1 h of recovery without fluid intake by the subjects, despite a 820 +/- 120-g reduction in body weight. At 2 h of recovery, plasma TP content remained significantly elevated, and plasma TP and albumin concentration were significantly elevated. At 24 h of recovery, PV was expanded by 4.5 +/- 0.7 ml/kg body wt (10 +/- 1%), estimated from hematocrit and hemoglobin changes, and by 3.8 +/- 1.3 ml/kg body wt (8 +/- 3%), measured by Evans blue dye dilution. Plasma albumin content was increased by 0.19 +/- 0.05 g/kg body wt at 24 h of recovery. If 1 g of albumin holds 18 ml of water, this increase in plasma albumin content can account for a 3.4-ml/kg body wt expansion of the PV. No significant changes in plasma osmolality occurred during recovery, but total plasma osmotic content increased in proportion to PV.(ABSTRACT TRUNCATED AT 250 WORDS)     

On the S-layer of Thermus thermophilus and the assembling of its main protein SlpA

We have isolated and analysed the cell envelope of the thermophilic bacterium Thermus thermophilus HB8. Isolated cell walls, characterized by the dominance of the S-layer protein SlpA, are found to be constituted by several protein complexes of high molecular weights. Further isolation steps, starting from the cell wall samples, led to the selective release of the S-layer protein SlpA in solution as confirmed by mass spectrometry. Blue Native gel electrophoresis on these samples showed that SlpA is organized into a specific hierarchical order of oligomeric states that are consistent with the complexes at high molecular weight identified on the total cell wall fraction. The analysis showed that SlpA bases this peculiar organization on monomers and exceptionally stable dimers, leading to the formation of tetramers, heptamers, and decamers. Furthermore, the two elementary units of SlpA, monomers and dimers, are regulated by the presence of calcium not only for the assembling of monomers into dimers, but also for the splitting of dimers into monomers. Finally, the SlpA protein was found to be subjected to specific proteolysis leading to characteristic degradation products. Findings are discussed in terms of S-layer assembling properties as bases for understanding its structure, turn-over and organization.     

Continuous fractionation of human plasma proteins by precipitation from the suspension of the recycling stream

The conventional cold-ethanol batch fractionation method of human plasma is converted to an automatically controlled continuous fractionation process. The selected protein fractions are precipitated by mixing in the recycled product stream of the suspension. Compared to the batch process, the continuous fractionation process generates less coprecipitation and less spontaneous nucleation, allowing efficient centrifugation of precipitates, and the yield and purity of albumin in the final fraction is significantly increased.     

Deuteroporphyrin-albumin binding equilibrium. The effects of porphyrin self-aggregation studied for the human and the bovine proteins.

The binding equilibrium of deuteroporphyrin IX to human serum albumin and to bovine serum albumin was studied, by monitoring protein-induced changes in the porphyrin fluorescence and taking into consideration the self-aggregation of the porphyrin. To have control over the latter, the range of porphyrin concentrations was chosen to maker dimers (non-covalent) the dominant aggregate. Each protein was found to have one high-affinity site for deuteroporphyrin IX monomers, the magnitudes of the equilibrium binding constants (25 degrees C, neutral pH, phosphate-buffered saline) being 4.5 (+/- 1.5) X 10(7) M-1 and 1.7 (+/- 0.2) X 10(6) M-1 for human serum albumin and for bovine serum albumin respectively. Deuteroporphyrin IX dimers were found to bind directly to the protein, each protein binding one dimer, with high affinity. Two models are proposed for the protein-binding of porphyrin monomers and dimers in a porphyrin system having both species: a competitive model, where each protein molecule has only one binding site, which can be occupied by either a monomer or a dimer; a non-competitive model, where each protein molecule has two binding sites, one for monomers and one for dimers. On testing the fit of the data to the models, an argument can be made to favour the non-competitive model, the equilibrium binding constants of the dimers, for the non-competitive model (25 degrees C, neutral pH, phosphate-buffered saline), being: 8.0 (+/- 1.8) X 10(8) M-1 and 1.2 (+/- 0.6) X 10(7) M-1 for human serum albumin and bovine serum albumin respectively.     

Albumin catabolism in diabetic rats

The kinetics of albumin catabolism were studied in normal rats and rats with streptozotocin induced diabetes (blood glucose greater than 500 mg%). Whether determined from the clearance of 125I-albumin from plasma or from the whole body, after 10 days of severe, uncontrolled diabetes there was a 30-35% decrease in the catabolic rate for albumin in the diabetic rats compared to normals. There was also about a 35% contraction of the relative extravascular distribution volume for albumin in the diabetic rats, and about a 25% decrease in the total body mass of albumin. However, the concentration of albumin in the circulation was the same in normal and diabetic animals. We conclude that when the rate of albumin synthesis is substantially depressed in diabetes, the rat maintains normal plasma albumin concentration both by decreasing albumin's fractional catabolic rate and by shifting albumin from the extravascular to the vascular compartment.     

Sequence determination of 5'-terminal and 3'-terminal T1 oligonucleotides of 18-S ribosomal RNA of a mouse cell line (L 5178 Y).

The 5' and 3'-terminal oligonucleotides of 18-S ribosomal RNA of L 5178 Y (a mouse cell line) obtained after total T1 ribonuclease hydrolysis were isolated by a diagonal procedure. They were localized on the fingerprint of T1-ribonuclease-hydrolysed 18-S RNA. These two oligonucleotides were partially hydrolysed by snake venom and spleen phsophodiesterases and resulting products were fractionated bidimensionally. Their base compositions were determined by total hydrolysis with piperidine or snake venom phosphodiesterase. From these results the following sequences were deduced: pU-A-C-C-U-G for the 5'-terminal oligonucleotide and G-A-U-C-A-U-U-Aoh for the 3'-terminal oligonucleotide. Quantitative studies indicated that these sequences represent at least 70% for the 5' oligonucleotide and 85% for the 3' oligonucleotide of the terminal sequences of the 18-S RNA.     

Single-Molecule characterization of oligomerization kinetics and equilibria of the tumor suppressor p53

The state of oligomerization of the tumor suppressor p53 is an important factor in its various biological functions. It has a well-defined tetramerization domain, and the protein exists as monomers, dimers and tetramers in equilibrium. The dissociation constants between oligomeric forms are so low that they are at the limits of measurement by conventional methods in vitro. Here, we have used the high sensitivity of single-molecule methods to measure the equilibria and kinetics of oligomerization of full-length p53 and its isolated tetramerization domain, p53tet, at physiological temperature, pH and ionic strength using fluorescence correlation spectroscopy (FCS) in vitro. The dissociation constant at 37 °C for tetramers dissociating into dimers for full-length p53 was 50 ± 7 nM, and the corresponding value for dimers into monomers was 0.55 ± 0.08 nM. The half-lives for the two processes were 20 and 50 min, respectively. The equivalent quantities for p53tet were 150 ± 10 nM, 1.0 ± 0.14 nM, 2.5 ± 0.4 min and 13 ± 2 min. The data suggest that unligated p53 in unstressed cells should be predominantly dimeric. Single-molecule FCS is a useful procedure for measuring dissociation equilibria, kinetics and aggregation at extreme sensitivity.     

Purification and properties of hydrophilic dimers of acetylcholinesterase from mouse erythrocytes

Differences in the glycosylation of acetylcholinesterase (AChE) subunits which form the dimers of mouse erythrocyte and a suitable procedure to purify the enzyme by affinity chromatography in edrophonium-Sepharose are described. AChE was extracted ( approximately 80%) from erythrocytes with Triton X-100 and sedimentation analyses showed the existence of amphiphilic AChE dimers in the extract. The AChE dimers were converted into monomers by reducing the disulfide bond which links the enzyme subunits. Lectin interaction studies revealed that most of the dimers were bound by concanavalin A (Con A) (90-95%), Lens culinaris agglutinin (LCA) (90-95%), and wheat germ (Triticum vulgaris) agglutinin (WGA) (70-75%), and a small fraction by Ricinus communis agglutinin (RCA(120)) (25-30%). The lower level of binding of the AChE monomers with WGA (55-60%), and especially with RCA (10-15%), with respect to the dimers, reflected heterogeneity in the sugar composition of the glycans linked to each AChE subunit in dimers. Forty per cent of the amphiphilic AChE dimers lost the glycosylphosphatidylinositol (GPI) and, therefore, were converted into hydrophilic forms, by incubation with phosphatidylinositol-specific phospholipase C (PIPLC), which permitted their separation from the amphiphilic variants in octyl-Sepharose. Only the hydrophilic dimers, either isolated or mixed with the amphiphilic forms, were bound by edrophonium-Sepharose, which allowed their purification (4800-fold) with a specific activity of 7700 U/mg protein. The identification of a single protein band of 66 kDa in gel electrophoresis demonstrates that the procedure can be used for the purification of GPI-anchored AChE, providing that the attached glycolipid domain is susceptible to PIPLC.