Supported Ionic Liquids Used as Chromatographic Matrices in Bioseparation—An Overview

Liquid chromatography plays a central role in biomanufacturing, and, apart from its use as a preparative purification strategy, either in biopharmaceuticals or in fine chemicals industries, it is also very useful as an analytical tool for monitoring, assessing, and characterizing diverse samples. The present review gives an overview of the progress of the chromatographic supports that have been used in the purification of high-value products (e.g., small molecules, organic compounds, proteins, and nucleic acids). Despite the diversity of currently available chromatographic matrices, the interest in innovative biomolecules emphasizes the need for novel, robust, and more efficient supports and ligands with improved selectivity. Accordingly, ionic liquids (ILs) have been investigated as novel ligands in chromatographic matrices. Given herein is an extensive review regarding the different immobilization strategies of ILs in several types of supports, namely in silica, Sepharose, and polymers. In addition to depicting their synthesis, the main application examples of these supports are also presented. The multiple interactions promoted by ILs are critically discussed concerning the improved selectivity towards target molecules. Overall, the versatility of supported ILs is here considered a critical point to their exploitation as alternatives to the more conventional liquid chromatographic matrices used in bioseparation processes.     

Capillary electrophoresis methods for the determination of covalent polyphenol–protein complexes

The bioactivities and bioavailability of plant polyphenols including proanthocyanidins and other catechin derivatives may be affected by covalent reaction between polyphenol and proteins. Both processing conditions and gastrointestinal conditions may promote formation of covalent complexes for polyphenol-rich foods and beverages such as wine. Little is known about covalent reactions between proteins and tannin, because suitable methods for quantitating covalent complexes have not been developed. We established capillary electrophoresis methods that can be used to distinguish free protein from covalently bound protein-polyphenol complexes and to monitor polyphenol oxidation products. The methods are developed using the model protein bovine serum albumin and the representative polyphenol (-)epigallocatechin gallate. By pairing capillaries with different diameters with appropriate alkaline borate buffers, we are able to optimize resolution of either the protein-polyphenol complexes or the polyphenol oxidation products. This analytical method, coupled with purification of the covalent complexes by diethylaminoethyl cellulose chromatography, should facilitate characterization of covalent complexes in polyphenol-rich foods and beverages such as wine.     

Triazine dye binding of human alpha-fetoprotein and albumin

Column chromatography was used to investigate the interaction of human alpha-fetoprotein and albumin with different immobilized dyes. Binding of alpha-fetoprotein to the dye conjugates was studied at pH 7.0. Between 56 and 93% of the total alpha-fetoprotein applied to the column was recovered in the break-through fractions of the respective runs. Of all the dyes, Cibacron Blue F3G-A adsorbs alpha-fetoprotein most strongly. This interaction clearly depends on the degree of dye substitution of the gel. A relatively weak interaction exists between alpha-fetoprotein and immobilized Procion Red HE-3B. This is used in the purification of alpha-fetoprotein by negative chromatography resulting in a 16.6-fold enrichment of this protein. Human albumin binds tightly to immobilized Cibacron Blue F3G-A as well as to Cibacron Brilliant Blue FBR-P and shows a lower affinity to Procion Blue MX-R. Procion Red dyes, which are structurally different from Cibacron Blue F3G-A are also capable of interacting with serum albumin. The results obtained are discussed in terms of the present theoretical conceptions about dye-protein interactions.     

IMMOBILIZED CIBACRON BLUE F3G-A ON CROSSLINKED POLY (VINYL ALCOHOL) FOR AFFINITY CHROMATOGRAPHY

Immobilized triazine dye affinity chromatography has been widely used for protein purification. In this paper, cibacron Blue F3G-A was immobilized,through a spacer arm, onto a rigid hydrophilic porous polymer by reacting an epoxy-group-containing poly(vinyl alcohol) with 6-aminohexyl-N'-Cibacron Blue F3G-A,which was obtained by reacting Cibacron Blue F3G-A with excess of 1,6-diaminohexane, in a pH 8.6 buffer. The epoxy-group-containing poly(vinyl alcohol) was prepared by hydrolysis of macroporous crosslinded poly(vinyl acetate),which was synthesized by suspension copolymerization of vinyl acetate and triallyl isocyanurate in the presence of butyl acetate and n-heptane as diluents. The cibacron Blue F3G-A-immobilized poly(vinyl alcohol)was packed in a stainless steel column (250×5 mm I. D.) and the chromatographic behaviors of several proteins (cytochrome c, lysozyme, bovine serum albumin, insulin, and lactate dehydrogenase) were determined.     

Capillary electrophoresis methods for the determination of covalent polyphenol–protein complexes

The bioactivities and bioavailability of plant polyphenols including proanthocyanidins and other catechin derivatives may be affected by covalent reaction between polyphenol and proteins. Both processing conditions and gastrointestinal conditions may promote formation of covalent complexes for polyphenol-rich foods and beverages such as wine. Little is known about covalent reactions between proteins and tannin, because suitable methods for quantitating covalent complexes have not been developed. We established capillary electrophoresis methods that can be used to distinguish free protein from covalently bound protein–polyphenol complexes and to monitor polyphenol oxidation products. The methods are developed using the model protein bovine serum albumin and the representative polyphenol (−)epigallocatechin gallate. By pairing capillaries with different diameters with appropriate alkaline borate buffers, we are able to optimize resolution of either the protein–polyphenol complexes or the polyphenol oxidation products. This analytical method, coupled with purification of the covalent complexes by diethylaminoethyl cellulose chromatography, should facilitate characterization of covalent complexes in polyphenol-rich foods and beverages such as wine.     

Novel affinity separations based on perfluorocarbon emulsions. Use of a perfluorocarbon affinity emulsion for the purification of human serum albumin from blood plasma in a fluidised bed.

A perfluorocarbon affinity emulsion has been generated by homogenisation of a saturated perfluorocarbon oil with a polymeric fluorosurfactant based on poly(vinyl alcohol) (relative molecular mass 9000-10,000) previously derivatised with the triazine dye CI Reactive Blue 4. This affinity emulsion has subsequently been cross-linked in situ and used in a fluidised bed for the purification of human serum albumin (HSA) from blood plasma. HSA was quantitatively recovered in a semi-continuous fashion from plasma at an average purity of 90 +/- 3.3%. The albumin binding capacity of the emulsion has been shown to be 0.59 mg/ml by frontal analysis corresponding to a mol/mol ligand usage of 13.5%. In all regards, when used in a fluidised bed, the emulsions have been shown to behave as a normal chromatographic material. They are stable under operational conditions with no coalescence being observed for periods greater than 1 year. These novel liquid affinity supports present an exciting opportunity to develop a range of unit operations for the continuous purification of proteins.     

Characterization and functionalization of cellulose microbeads for extracorporeal blood purification

In the frame of this work, cellulose microbeads with an average particle size of 2.3 μm were characterized with respect to porosity using a batch solute exclusion method and two groups of model substances, namely proteins and polystyrene sulfonates. The pores of the microbeads were almost completely accessible to proteins with Stokes radii below 2.5 nm. More than 60% of the pores were accessible to albumin, which is relevant for the application in blood purification, since many target substances are albumin bound. Activation of the microbeads with increasing amounts of sodium metaperiodate yielded matrices with dialdehyde contents between 100 and 1,000 μmol/g. The activated beads were well suited for the covalent attachment of functional ligands, such as antibodies. Immobilization of antibodies against the pro-inflammatory cytokine TNF-α resulted in efficient TNF-α adsorbents which possess application potential in extracorporeal blood purification, e.g. for the modulation of cytokine levels as supportive therapy for sepsis and other inflammatory disorders.     

High resolution protein separations using affinity ultrafiltration with small charged ligands

Although the feasibility of affinity ultrafiltration was demonstrated more than 20 years ago, commercial applications have not developed due to the high cost and practical limitations of the large macroligands needed for highly selective separations. The objective of this study was to examine the use of small charged affinity ligands for protein purification by exploiting electrostatic interactions between the charged complex and an electrically-charged membrane. Experiments were performed using bovine serum albumin and ovalbumin with Cibacron Blue as the affinity ligand. Negatively charged versions of a composite regenerated cellulose membrane were generated by covalent attachment of a sulfonic acid functionality. Binding experiments were used to identify appropriate conditions for protein separations. The selectivity for the separation of BSA and ovalbumin was a function of the solution conditions, Cibacron Blue concentration, and membrane charge, with the addition of Cibacron Blue causing a 30-fold increase in selectivity. A diafiltration process was performed at the optimal conditions, giving a BSA product with a purification factor of more than 90-fold and a yield greater than 90%. These results clearly demonstrate the potential of using a small charged affinity ligand for high resolution protein separations.     

Separation of the Hageman factor fragment from human serum albumin by chromatography on blue sepharose CL-6B

The separation of the Hageman factor fragment (HFf) activity from human serum albumin by chromatography on Blue Sepharose CL-6B is described. The complete separation cannot be achieved in a single chromatography step due to complex formation between HFf and albumin.     

Isolation and purification of cat albumin from cat serum by copper ion affinity chromatography: further analysis of its primary structure

Proteins, regardless of their origin, have to be highly purified, particularly from the immunochemical point of view, if they are to be used to study their allergenicity. It is shown that cat albumin, a highly potent allergen for cat-sensitive humans, can be isolated and purified from cat serum using immobilized metal ion affinity chromatography (copper ions) instead of a salting-out process or precipitation with alcohol, techniques generally used for the preparation of serum proteins. During the process described, immunoglobulins are concomitantly isolated in a relatively pure form. Cat albumin amino acid composition and sequence were analysed after an ultimate purification by ion-exchange chromatography. The highest homology (greater than 80%) was found with the rat serum albumin.     

Immobilized Stationary Phases for Hydrophobic Interaction Chromatography of Proteins

Immobilized stationary phases for hydrophobic interaction chromatography (HIC) of proteins are prepared by coating macroporous silica Daisogel of different porosity with hydrophobized cellulose derivatives. The polymer adsorbed on the silica surface afterwards was cross-linked with bifunctional compounds. A uniform polymer nanocoating was indicated using the nitrogen gas adsorption method BET and scanning electron microscopy. The absence of non-specific protein sorption of the synthesized adsorbents shows that the developed polymeric coating isolates silica surface from contact with the sorbate. The retention data of bovine serum albumin (BSA) in the HIC mode on different synthesized adsorbents were evaluated. It was shown that sorption capacity of such phases may vary over a wide range and depends mainly on the substitution degree of the immobilized polymer. The dynamic sorption capacity of BSA was up to 63 mg mL⁻¹. The results proved that the new stationary phases have significant promise for the separation and purification of proteins in the HIC mode.

     

Selectivity of monolithic supports under overloading conditions and their use for separation of human plasma and isolation of low abundance proteins

Human serum albumin (HSA) and immunoglobulin G (IgG) represent over 75% of all proteins present in human plasma. These two proteins frequently interfere with detection, determination and purification of low abundance proteins that can be potential biomarkers and biomarker candidates for various diseases. Some low abundance plasma proteins such as clotting factors and inhibitors are also important therapeutic agents. In this paper, the characterization of ion-exchange monolithic supports under overloading conditions was performed by use of sample displacement chromatography (SDC). If these supports were used for separation of human plasma, the composition of bound and eluted proteins in both anion- and cation-exchange mode is dependent on column loading. Under overloading conditions, the weakly bound proteins such as HSA in anion-exchange and IgG in cation-exchange mode are displaced by stronger binding proteins, and this phenomenon was not dependent on column size. Consequently, small monolithic columns with a column volume of 100 and 200 μL are ideal supports for high-throughput screening in order to develop new methods for separation of complex mixtures, and for sample preparation in proteomic technology.     

Siliceous materials with the surface polymer layer composed of dextran-polyimine mixture as column packings for liquid chromatography

Summary Forming a polymer layer on the surface of siliceous materials is one of the methods for protecting the silica skeleton from dissolution in alkaline mobile phases as well as eliminating the negative influence of silanol groups on separated molecules e.g. proteins. Polysaccharides, especially their derivatives bearing amine groups, can play the role of the surface layer. This paper discusses the possibilities of preparing such a layer by cross-linking a dextran-polyimine mixture (rather than the traditionally used DEAE-dextran) deposited on the surface of the solid material. The results presented prove the utility of synthesized materials as supports for affinity ligands in high performance affinity chromatography or as supports for complexed metal ions in ligand-exchange chromatography. The properties of the sorbents with a polymer layer can be changed both by the composition of the cross-linked mixture and by chemical modification.     

Affinity chromatography of porcine pepsin on different types of immobilized 3,5-diiodo-L-tyrosine

The preparation of affinity sorbents containing immobilized iodinated derivatives of L-tyrosine for the affinity chromatography of porcine pepsin is described. The ligand was coupled either to Sepharose 4B or bead cellulose after the divinylsulfone activation or to Sepharose 4B after the activation with 2,4,6-trichloro-1,3,5-triazine. The highest capacity for porcine pepsin was found in the case of 3,5-diiodo-L-tyrosine coupled to divinylsulfone-activated Sepharose.     

Electrophoretic immunodesorption of proteins according to molecular weight by use of a double-membrane system

Summary A simple method is described for electrophoretic desorption of proteins from antigen-antibody complexes, with more than 90% recovery and without denaturation, after immunosorbent affinity chromatography. Radiolabeled or unlabeled human serum albumin (HSA) and α-1-antitrypsin (AAT), conjugated to rabbit anti-HSA or anti-AAT polyclonal antisera, respectively, were electrophoretically desorbed from Sepharose 4B. In addition, purification and concentration of the major HSA protein band (monomer) of 68 kD from the other oligomeric protein bands were achieved by use of a two-membrane system in a simple electroelution apparatus. The system consisted of an upper cellulose acetate membrane, with pore size 20 nm and separation limit 70 kD, and a lower dialysis cellophane membrane with molecular weight cut-off from 1–50 kD that cnables separation according to size. Furthermore, purification of the monomer HSA or AAT from normal human serum was performed with 92% recovery. Homogeneity was implied by the presence of one band after sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis, Western blot, and autoradiography.     

Thiacarbocyanine as ligand in dye-affinity chromatography for protein purification

A thiacarbocyanine has been post-grafted onto beaded cellulose by a curing method envisioning their use as a biomimetic ligand in dye-affinity chromatography. The immobilization of this dye was performed based on a previously brief derivatization study where the analogous microcrystalline cellulose was alternatively used and some of the curing reaction conditions were varied. The grafted beaded cellulose so obtained was qualitatively and quantitatively characterized by SEM, SEM-EDS and EA. The immobilized dye-affinity interaction with the standard proteins bovine serum albumin, alpha-chymotrypsin and lysosyme was analysed. The influence of the mobile phase composition on the chromatographic behaviour of these standard proteins was also studied. A selective interaction was observed allowing the separation of all the three proteins from an artificial mixture.     

重症肌无力免疫吸附剂的制备及性能研究

重症肌无力患者体内致病毒素是乙酰胆碱的受体抗体.通过对载体材料的优化及对配基的筛选发现,使用质量分数为6%的纤维素球形载体,以环氧氯丙烷法活化并固定上L-色氨酸作为配基制备的血液灌流材料在静态吸附实验(1g吸附剂加入3mL病人血清,室温,3h)中可使抗体水平下降25%以上,吸附量达3.669×10^-3nmol/g,选择性较高,具有应用前景.     

亲和色谱仿生配基的筛选和设计

利用选择性好、稳定性高、价格低廉的仿生配基作为亲和色谱的功能基团,实现对目的蛋白质的亲和分离,可以弥补常规的单克隆抗体和其他天然蛋白质配基在价格、稳定性方面的不足,从而拓展亲和色谱技术的应用范围。本文综述了亲和色谱仿生配基在筛选和设计方面的研究进展,重点介绍了组合方法和基于结构的仿生配基的设计及其应用。     

Dye attached poly(hydroxyethyl methacrylate) cryogel for albumin depletion from human serum

Cibacron Blue F3GA was immobilized on poly(hydroxyethyl methacrylate) cryogel and it was used for selective and efficient depletion of albumin from human serum. The poly(hydroxyethyl methacrylate) was selected as the basic component because of its inertness, mechanical strength, chemical and biological stability, and biocompatibility. Cibacron Blue F3GA was covalently attached to the poly(hydroxyethyl methacrylate) cryogel to produce poly(hydroxyethyl methacrylate)-Cibacron Blue F3GA cryogel affinity column. The poly(hydroxyethyl methacrylate)-Cibacron Blue F3GA cryogel was characterized with respect to gelation yield, swelling degree, total volume of macropores, Fourier Transform Infrared spectroscopy, and scanning electron microscopy. It was found that the maximum amount of adsorption (343 mg/g of dry cryogel) obtained from experimental results is very close to the calculated Langmuir adsorption capacity (345 mg/g of dry cryogel). The maximum adsorption capacity for poly(hydroxyethyl methacrylate)-Cibacron Blue F3GA cryogel column was obtained as 950 mg/g of dry cryogel for nondiluted serum. The adsorption capacity decreased with increasing dilution ratios while the depletion ratio of albumin remained as 77% in serum sample. Finally, the poly(hydroxyethyl methacrylate)-Cibacron Blue F3GA cryogel was optimized for using in the fast protein liquid chromatography system for rapid removal of the high abundant proteins from the human serum.     

Polymeric supports for affinity chromatography and high-performance affinity chromatography

Affinity chromatography is the most selective chromatographic method for the purification of biologically active materials. It is based on the biospecific interaction of the substrates with a ligand, which is chemically immobilized onto a suitable matrix (support). Different matrices provided by natural and synthetic polymers are used for the preparation of affinity supports. In this communication we describe and compare the properties of various supports based on polysaccharides, polyacrylamides and inorganic materials. In particular, we discuss the utility of different silica derivatives (especially primary hydroxyl silica) for the immobilization of ligands and high-performance affinity chromatography.