Disuccinimidyl suberate cross-linked hemoglobin as a novel red blood cell substitute

Disuccinimidyl suberate (DSS) intramolecularly cross-linked hemoglobin (Hb) was developed as a novel red blood cell substitute. A multi-angle laser light scattering detector coupled with size exclusion HPLC was applied to determine the molecular weight of the modified Hb. SDS-PAGE was also used as a complement. It was proved that 83.8% of the product was intramolecularly cross-linked Hb with weight-average molecular weights (Mw) of 67.5 kD, 12% was dimeric Hb with Mw of 146.6 kD, and 4.2% was trimeric Hb with Mw of 306.4 kD. The tetramer structure of the cross-linked Hb was stable as shown in size-exclusion chromatography using a mobile phase containing 1 mol/L MgCl2. Analysis by LC-MS demonstrated that the reaction of DSS with Hb mainly took place between the twoα subunits within a Hb molecule, resulting in stabilization of the tetramer structure. However, the cross-linking was not site-specific. The P50 of the cross-linked Hb decreased from 21.8 mmHg to 14.3 mmHg, and the Hill coefficient decreased from 2.22 to 1.41. Result of isoelectric focusing showed that the pI of DSS cross-linked Hb was in the range of 4.6-5.2, similar to that of serum albumin. The safety of DSS cross-linked Hb was favored by animal tests on rats and guinea pigs. Exchange transfusion experiment with DSS cross-linked Hb using rats as a model indicated no pressor effect or other significant side effects. The characteristics and properties of DSS cross-linked Hb were also compared with that of diaspirin cross-linked Hb reported in the literature.     

Disuccinimidyl suberate cross-linked hemoglobin as a novel red blood cell substitute

Disuccinimidyl suberate (DSS) intramolecularly cross-linked hemoglobin (Hb) was developed as a novel red blood cell substitute. A multi-angle laser light scattering detector coupled with size exclusion HPLC was applied to determine the molecular weight of the modified Hb. SDS-PAGE was also used as a complement. It was proved that 83.8% of the product was intramolecularly cross-linked Hb with weight-average molecular weights (Mw) of 67.5 kD, 12% was dimeric Hb with Mw of 146.6 kD, and 4.2% was trimeric Hb with Mw of 306.4 kD. The tetramer structure of the cross-linked Hb was stable as shown in size-exclusion chromatography using a mobile phase containing 1 mol/L MgCI2. Analysis by LC-MS demonstrated that the reaction of DSS with Hb mainly took place between the two a subunits within a Hb molecule, resulting in stabilization of the tetramer structure. However, the cross-linking was not site-specific. The P50 of the cross-linked Hb decreased from 21.8 mmHg to 14.3 mmHg, and the Hill coefficient decreased from 2.22 to 1.41. Result of isoelectric focusing showed that the pi of DSS cross-linked Hb was in the range of 4.6-5.2, similar to that of serum albumin. The safety of DSS cross-linked Hb was favored by animal tests on rats and guinea pigs. Exchange transfusion experiment with DSS cross-linked Hb using rats as a model indicated no pressor effect or other significant side effects. The characteristics and properties of DSS cross-linked Hb were also compared with that of diaspirin cross-linked Hb reported in the literature.     

The stability of the heme-globin linkage in some normal, mutant, and chemically modified hemoglobins.

The rates and equilibria of heme exchange between methemoglobin and serum albumin were measured using a simple new spectrophotometric method. It is based on the large difference between the spectrum of methemoglobin and that of methemealbumin at pH 8-9. The rate of heme exchange was found to be independent of the albumin concentration and inversely proportional to the hemoglobin (Hb) concentration. Taken together with the finding that the rate was 10 times greater for Hb Rothschild, which is completely dissociated into alpha beta dimers and 10 times smaller for two cross-linked hemoglobins, the subunits of which cannot dissociate, this showed that the rate of dissociation of heme from alpha beta dimers is very much greater than from tetramers. Conditions were found for the attainment of an equilibrium distribution of hemes between beta globin and albumin. The equilibrium distribution ratio, R = methemealbumin/albumin/methemoglobin/apohemoglobin, for hemoglobin A was 3.4 with human and 0.005 with bovine serum albumin. Both the rates of exchange and the R values of HbS and HbF were the same as that for HbA. The equilibrium distribution ratio for Hb Rothschild was 7 times greater than that for HbA whereas that of one but not the other of the cross-linked hemoglobins was 10 times smaller. The structural bases for these differences are analyzed.     

Stabilized nanocarriers for plasmids based upon cross-linked poly(ethylene imine)

Stabilized PEI/DNA polyplexes were generated by cross-linking PEI with biodegradable disulfide bonds. The reaction conversion of different PEIs with the amine reactive cross-linker dithiobis(succinimidyl propionate) (DSP) was investigated, and the molecular weight of the reaction products was identified. Light scattering and microelectrophoresis were employed to assess size and zeta potential of the resulting polyplexes. Polyplex morphology and mechanic stability were investigated using atomic force microscopy. Finally, albumin and erythrocyte interactions and stability against polyanions and high ionic strength were checked. Polyplexes of PEI and DNA were prepared by two different formulation methods, either using pre-cross-linked polymers or by cross-linking polyplexes after complexation. Only the latter method yielded small (100-300 nm) polyplexes with a positive zeta potential when HMW PEI was used, whereas cross-linked LMW PEI resulted in polyplexes with increased size (>1000 nm) and zeta potentials down to -20 mV. In addition, only cross-linking after polyplex formation was able to enhance resistance against polyanion exchange and high ionic strength. AFM images revealed no changes in the morphology of cross-linked HWM PEI polyplexes, and indentation force measurements using AFM significantly increased mechanical stability of cross-linked HMW PEI polyplexes. These polyplexes also displayed significantly reduced interactions with major blood components like albumin and erythrocytes. The resulting biocompatible particles offer a means of combining enhanced polyplex stability with redox-triggered activation for in vivo application.     

Shell cross-linked hyaluronic acid/polylysine layer-by-layer polyelectrolyte microcapsules prepared by removal of reducible hyaluronic acid microgel cores

Shell cross-linked hollow polyelectrolyte microcapsules composed of hyaluronic acid (HA) and poly- l-lysine (PLL) were prepared by layer-by-layer (LBL) adsorption and subsequent core removal by a reductive agent. Disulfide cross-linked HA microgels were used as template core materials for the LBL deposition on the surface and removed by treatment of dithiothreitol at neutral pH condition. HA/PLL polyelectrolyte multilayers on the shell were chemically cross-linked via carbodiimide chemistry, and their physicochemical properties and drug release behaviors were investigated. Shell cross-linked HA/PLL polyelectrolyte microcapsules exhibited far enhanced physical stability against freeze-thaw cycles and acidic pH conditions compared to the un-cross-linked ones. The cross-linked HA/PLL multilayer shell also demonstrated pH responsive permeability, which became more permeable at low pH than at neutral pH. When bovine serum albumin (BSA), as a model protein drug, was loaded inside using the pH-dependent permeability, BSA release profiles from the microcapsules could be readily modulated by varying medium pH values or adding an HA digesting enzyme (hyaluronidase) in the incubation medium.     

Studies of the permeation properties of glomerular basement membrane: cross-linking renders glomerular basement membrane permeable to protein.

Cross-linking glomerular basement membrane (GBM) has been shown to render it more permeable to protein. Isolated pig GBM was cross-linked with dimethylmalonimidate which reacts selectively with lysine epsilon-NH2 groups or with glutaraldehyde, a less selective cross-linking agent. Studies of the ultrafiltration properties of these materials in vitro using cytochrome c, myoglobin, bovine serum albumin and immunoglobulin showed that cross-linking had markedly increased solvent and protein fluxes as compared with native membranes particularly at higher pressures. Filtration studies with serum demonstrated that the cross-linked membranes were more permeable to serum proteins. Thickness measurements under pressure indicated that cross-linked membrane was less compressed than native membrane as pressure was increased. Pore theory did not provide a suitable model for analysis of the results, but analysis of the results using the fibre-matrix hypothesis indicated that cross-linking had the effect of bundling together the fibres (type IV collagen) in the GBM matrix. The effect of cross-linking on filtration could be explained by a combination of contraction of the membrane, fibre bundling and increased rigidity compared with native membrane. Cross-linking of GBM might lead to long-term damage of the glomerular capillary wall in nephritis, so promoting proteinuria.     

Studies of the permeation properties of glomerular basement membrane: cross-linking renders glomerular basement membrane permeable to protein

Cross-linking glomerular basement membrane (GBM) has been shown to render it more permeable to protein. Isolated pig GBM was cross-linked with dimethylmalonimidate which reacts selectively with lysine ?-NH₂ groups or with glutaraldehyde, a less selective cross-linking agent. Studies of the ultrafiltration properties of these materials in vitro using cytochrome c, myoglobin, bovine serum albumin and immunoglobulin showed that cross-linking had markedly increased solvent and protein fluxes as compared with native membranes particularly at higher pressures. Filtration studies with serum demonstrated that the cross-linked membranes were more permeable to serum proteins. Thickness measurements under pressure indicated that cross-linked membrane was less compressed than native membrane as pressure was increased. Pore theory did not provide a suitable model for analysis of the results, but analysis of the results using the fibre-matrix hypothesis indicated that cross-linking had the effect of bundling together the fibres (type IV collagen) in the GBM matrix. The effect of cross-linking on filtration could be explained by a combination of contraction of the membrane, fibre bundling and increased rigidity compared with native membrane. Cross-linking of GBM might lead to long-term damage of the glomerular capillary wall in nephritis, so promoting proteinuria.     

Purification and Partial Characterization of Tomato Extensin Peroxidase

Early plant defense response is characterized by elevation of activity of peroxidases and enhanced insolubilization of hydroxyproline-rich glycoproteins, such as extensin, in the cell wall. The insolubilization process (cross-linking between soluble extensin precursor molecules) is catalyzed by extensin peroxidases. We have ionically eluted extensin peroxidases from intact water-washed suspension-cultured tomato (hybrid of Lycopersicon esculentum Mill. and Lycopersicon peruvianum L. [Mill.]) cells and purified them to homogeneity by molecular sieve and cation-exchange chromatography. Four ionic forms of peroxidase (PI,PII,EPIII, and EPIV) were resolved; only the latter two cross-linked tomato soluble extensin. The molecular weight (34,000-37,000), amino acid composition, and isoelectric point (9.0) of the extensin peroxidases were determined. Substrate specificities of the enzymes were investigated: soluble extensin and potato lectin (a hydroxyproline-rich glycoprotein with a domain that strongly resembles extensin) were cross-linked by only two forms of the enzyme, whereas bovine serum albumin, aldolase, insulin, a number of other marker proteins, and proteins eluted from tomato cells (except extensin) could not be cross-linked. We have also isolated a yeast elicitor that enhances total peroxidase activity and extensin insolubilization within 1 h of challenge in cultured cells of tomato. A highly sensitive enzyme-linked immunosorbent assay technique using polyclonal antiserum raised against soluble tomato extensin was used to demonstrate extensin insolubilization in vivo. A tomato cell-wall peroxidase that cross-links extensin has been purified and may have a role in plant defense.     

Improved strategies for rapid identification of chemically cross-linked peptides using protein interaction reporter technology

Protein interaction reporter (PIR) technology can enable identification of in vivo protein interactions with the use of specialized chemical cross-linkers, liquid chromatography, and high-resolution mass spectrometry. PIR-cross-linkers contain labile bonds that are specifically fragmented under low energy collision or photodissociation conditions in the mass spectrometer source, thus releasing cross-linked peptides. Successful analysis of PIR-cross-linked proteins requires the use of expected mathematical relationships between cross-linked complexes and released peptides after fragmentation of the labile PIR bonds. Presented here is a next-generation software tool, BLinks, for use in the analysis and identification of PIR-cross-linked proteins. BLinks is an advancement beyond our previous efforts by incorporation of chromatographic profiles that must match between cross-linked complexes and released peptides to enable estimation of p-values to help filter true relationships from complex data sets. Additionally, BLinks was used to incorporate Mascot database searching results from subsequent MS/MS analysis of the released peptides to facilitate identification of cross-linked proteins. BLinks was used in the analysis of human serum albumin, and 46 interpeptide relationships were found spanning 30 proximal residues with a 2.2% false discovery rate. BLinks was also used to track peptides involved in multiple, coeluting relationships that make accurate identification of protein interactions difficult. An additional 10 interpeptide relationships were identified despite poor correlation using the profiling tools provided with BLinks. Additionally, BLinks can be used to globally map all interpeptide relationships from the data analysis and customize subsequent analysis to target specific peptides of interest, thus making it a useful tool for both discovery of protein interactions and mapping protein topology.     

Interaction between various polymerized human albumins and hepatitis B surface antigen.

A variety of albumin polymers were prepared and tested for binding with hepatitis B surface antigen (HBsAg): synthetic polymers cross-linked by either glutaraldehyde or carbodiimide; heat-aggregated polymers made by heating albumin solutions at 60 degrees C for 10 h with or without albumin stabilizer; and polymers isolated from fresh or long-stored commercial therapeutic albumin solutions. A sensitive solid-phase, competitive-inhibition radioimmunoassay, which can detect as little as 10 ng of glutaraldehyde-cross-linked human albumin polymer (PHALB-G), was developed and used to measure binding. The binding of PHALB-G with HBsAg was 150- to 1,000-fold greater than that of any other albumin polymer. Glutaraldehyde-cross-linked bovine albumin polymer showed no binding. Albumin monomer and dimer fractions produced by glutaraldehyde treatment exhibited some binding, albeit much weaker than PHALB-G. As measured by a direct-binding assay with solid-phase PHALB-G, the attachment of HBsAg particles from sera positive for antibody to the e antigen was less efficient than that from sera positive for e antigen, even when all sera were tested at equal HBsAg concentrations. In protein blot experiments with radiolabeled albumin preparations, PHALB-G bound almost exclusively to HBsAg polypeptide P31 and showed no binding with the major polypeptides P23 and P26. None of the other radiolabeled albumin polymers was reactive. These results indicate that the interaction between PHALB-G and HBsAg is not due to polymerization of albumin per se, but rather is unique and site specific.     

Equilibrium gel permeation: measurement of solute partitioning by direct fluorescence scanning

The feasibility of using fluorescence detection in quantitative gel permeation measurements has been explored. It is shown that the effect of scattering by the gel matrix can be evaluated in terms of pathlength-dependent turbidity functions for excitation and emission wavelengths. Experimental studies were carried out to evaluate these functions in cross-linked dextran gels (Sephadexes) and in agarose gels (Sepharoses). Empirical turbidity functions derived for these gels have a simple form, leading to accurate simplifying approximations for the scattering correction required in a fluorescence gel permeation measurement. Using this approach, partition cross-sections were estimated for dansyl-conjuaated β-gamma globuline and for dansyl-conjugated bovine serum albumin. The results establish feasibility of the method and clearly indicate the instrumentation requirements for its accurate implementation.     

Degradation of glycated bovine serum albumin in microglial cells

Glycated protein products are formed upon binding of sugars to lysine and arginine residues and have been shown to accumulate during aging and in pathologies such as Alzheimer disease and diabetes. Often these glycated proteins are transformed into advanced glycation end products (AGEs) by a series of intramolecular rearrangements. In the study presented here we tested the ability of microglial cells to degrade BSA-AGE formed by glycation reactions of bovine serum albumin (BSA) with glucose and fructose. Microglial cells are able to degrade BSA-AGEs to a certain degree by proteasomal and lysosomal pathways. However, the proteasome and lysosomal proteases are severely inhibited by cross-linked BSA-AGEs. BSA-AGEs are furthermore able to activate microglial cells. This activation is accompanied by an enhanced degradation of BSA-AGE. Therefore, we conclude that microglial cells are able to degrade glycated proteins, although cross-linked protein-AGEs have an inhibitory effect on proteolytic systems in microglial cells.     

Studies on vaccines against cholera. Synthesis of neoglycoconjugates from the hexasaccharide determinant of Vibrio cholerae O:1, serotype Ogawa, by single-point attachment or by attachment of the hapten in the form of clusters

The terminal hexasaccharide of the O-antigen of Vibrio cholerae O:1, serotype Ogawa, has been synthesized in the form of a glycoside whose aglycon (linker) allows conjugation to carrier proteins by reductive amination. The conjugate obtained from direct, single-point attachment of the linker-equipped hapten to chicken serum albumin (CSA) contained seven hapten residues/CSA. A neoglycoconjugate containing the carbohydrate antigen in the form of clusters was obtained using, as a hapten subcarrier, an oligopeptide containing 16 amino groups. It was treated with a limited amount of hapten, to give a hapten-carrying subcarrier (HCS). Subsequent conjugation of HCS to CSA, using squaric acid diethyl ester as a conjugation reagent, gave a cross-linked, glycocluster conjugate containing 51% (w/w) of the carbohydrate.     

Synthesis and characterization of a biospecific adsorbent containing bovine serum albumin as a ligand and its use for bilirubin retention.

Epoxy-activated gels from cross-linked polybutadiene-hydroxyethylmethacrylate (PB-HEMA) copolymer and epichlorohydrin (ECH) were prepared and characterized. Albumin was covalently bonded to the matrix and used as support of affinity chromatography in bilirubin (BR) retention experiments. PB-HEMA-ECH with different amounts of immobilized albumin (between 5.20 and 6.80 mg/g dry gel) were obtained. Bilirubin retention of 3.10 mg/g of these beads was observed at 5 degrees C.     

Fabrication of biomaterials via controlled protein bubble generation and manipulation

In this work, we utilize a recently developed microbubbling process to generate controlled protein (bovine serum albumin, BSA) coated bubbles and then manipulate these to fabricate a variety of structures suitable for several generic biomedical applications, tissue engineering, and biosensor coatings. Using BSA solutions with varying concentrations (20, 25, and 30 wt %) and cross-linking (terephthaloyl chloride) mechanisms, structures were fabricated including porous thin films with variable pore sizes and thickness (partially cross-linked coupled to bubble breakdown), scaffolds with variable pore morphologies (fully cross-linked), and coated bubbles (no cross-linking), which can be used as stand-alone delivery devices and contrast agents. The movement of typical biosensor chemicals (catechol and hydrogen peroxide) across appropriate film structures was studied. The potential of formed scaffold structures for tissue engineering applications was demonstrated using mouse cell lines (L929). In addition to low cost, providing uniform structure generation and high output, the size of the bubbles can easily be controlled by adjusting simplistic processing parameters. The combination of robust processing and chemical modification to uniform macromolecule bubbles can be utilized as a competing, yet novel, tool with current technologies and processes in advancing the biomaterials and biomedical engineering remits.     

New stabilized FastPrep-CLEAs for sialic acid synthesis

N-acetyl-d-neuraminic acid aldolase, a key enzyme in the biotechnological production of N-acetyl-d-neuraminic acid (sialic acid) from N-acetyl-d-mannosamine and pyruvate, was immobilized as cross-linked enzyme aggregates (CLEAs) by precipitation with 90% ammonium sulfate and crosslinking with 1% glutaraldehyde. Because dispersion in a reciprocating disruptor (FastPrep) was only able to recover 40% of the activity, improved CLEAs were then prepared by co-aggregation of the enzyme with 10 mg/mL bovine serum albumin followed by a sodium borohydride treatment and final disruption by FastPrep (FastPrep-CLEAs). This produced a twofold increase in activity up to 86%, which is a 30% more than that reported for this aldolase in cross-linked inclusion bodies (CLIBs). In addition, these FastPrep-CLEAs presented remarkable biotechnological features for Neu5Ac synthesis, including, good activity and stability at alkaline pHs, a high K_M for ManNAc (lower for pyruvate) and good operational stability. These results reinforce the practicability of using FastPrep-CLEAs in biocatalysis, thus reducing production costs and favoring reusability.     

Effect of consumption of food cooked in aluminium or stainless-steel pots on Bangladeshi children with calcium-deficient rickets: an eight month trial

The putative role of aluminium intake in young Bangladeshi children (1.5 to 4 years of age) with calcium-deficient rickets was evaluated in a non randomised controlled eight month trial. The effects of aluminium or stain-less-steel cooking pots on bone metabolism were assessed by measuring blood calcium, phosphorus, alkaline phosphatase, parathyroid hormone, 1,25 dihydroxy vitamin D, aminoterminal propeptide of type 1 collagen (PINP), cross-linked carboxyterminal telopeptide of type 1 collagen (ICTP), aluminium and albumin, and by analysis of wrist radiographs. In both groups, blood alkaline phosphatase, 1,25 dihydroxy vitamin D and aluminium decreased significantly, while serum albumin increased (p < 0.01). These results suggest that the nutrition may well be of major importance, whereas the role of aluminium appears to be insignificant.     

Affinity isolation of albumin-binding proteins using nitrocellulose-bound albumin

Albumin immobilized on a nitrocellulose membrane was used as an affinity matrix to purify albumin-binding proteins (ABP) from extracts of lung, heart, thymus, and isolated microvascular endothelial cells. Albumin was immobilized onto nitrocellulose either (i) directly (physically adsorbed), (ii) cross-linked by treatment with 0.25% glutaraldehyde, or (iii) covalently coupled to the matrix using NaIO4 and Na-borohydride. The affinity support was incubated with a membrane-enriched fraction (obtained from tissue homogenates) in the presence of protease inhibitors; specific binding of ABP occurred within 30 min of incubation. The adsorbed proteins were eluted with 0.5% sodium dodecyl sulfate (SDS) and analyzed by SDS-polyacrylamide gel electrophoresis and ligand blotting. Analysis of electrophoretic mobility of eluted proteins showed that they consisted exclusively of the two sets of polypeptides of 31 000 Da and 18 000 Da previously identified as ABP (N. Ghinea et al., J. Cell Biol. 107, 231-239 (1988]. As demonstrated by ligand blotting, the ABP purified on nitrocellulose-bound albumin maintain the ability to interact specifically with albumin. Preliminary experiments showed that the method employed may be of a broader use for the isolation of receptor proteins from tissue extracts by incubating the latter with the cognate ligand immobilized on nitrocellulose membranes.