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2009

Adeno-associated virus (AAV) vectors continue to hold immense promise as gene transfer vehicles for a variety of gene therapy applications. Numerous pre-clinical and human clinical studies have been undertaken with rAAV, employing several of the identified serotypes to leverage their differing tissue tropism to correct a broad spectrum of genetic diseases. Despite the advantageous characteristics of rAAV and the extensive research into pre-clinical applications, production and purification scale-up continues to limit recombinant AAV (rAAV) use in large clinical trials that require even moderate vector doses. Therefore, AGTC has developed a high-yielding, scalable rAAV production system in suspension BHK cells that employs co-infection with two hybrid rHSV-rAAV vectors to provide all cis and trans-acting rAAV elements and the requisite helper virus functions for rAAV manufacturing.

In contrast to traditional, resin-based chromatography methods for rAAV purification, we have developed a two-step chromatographic process that employs a novel anion exchange Convective Interaction Media® monolithic column (CIM® monolith, BIA Separations) capture step followed by affinity chromatography (AVB Sepharose™, GE Healthcare), which yields rAAV vector stocks in very high purity. This scalable process allows significant reduction in processing time due to the high capture step dynamic binding capacity, flow rates and resolution. The resulting overall chromatography recovery compares favorably to our first and second generation processes which used three-step, resin-based column chromatography and membrane-based two step chromatography, respectively.

The CIM QA-AVB process was scaled to accommodate 10 L suspension production runs and was successful at recovering as much as 1 × 1015 purified AAV1 DRP in a single day. The process is highly reproducible and it is applicable for the purification of multiple AAV serotypes with over 95% purity and overall yield of > 30%.

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Bacteriophages were in recent years identified as a useful potential tool for different biotechnological applications such as alternative to antibiotics, detection of pathogenic bacteria, delivery vehicles for protein and DNA vaccines and as gene therapy delivery vehicles (1). For all listed fields of use it is important that phages are highly purified with preserved biological activity. Phage and other virus purification have traditionally been carried out by CsCl density gradient ultracentrifugation, which is however difficult to be scaled-up. An alternative is chromatography already proved to be efficient for purification and concentration of certain virus types.

One of the key issues using chromatography is processing time and capacity of the resin. Novel type of chromatographic resin named monoliths was already proved to be very efficient for fast separation and purification of macromolecules as are large proteins, DNA and viruses (2,3,4).

Our aim was to investigate whether Convective Interaction Media (CIM) methacrylate monolithic columns can be implemented for purification and concentration of phage T4 (virus for E.coli). Chromatographic method using linear gradient was implemented to investigate conditions for phage elution and to establish the optimized chromatographic method applying step gradient. We analyzed phage recovery and purity together with method reproducibility.

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Avir Green Hills Biotechnology is developing innovative seasonal and pandemic influenza vaccines based on the deletion of the NS1 gene (delNS1 vaccine). The vaccine is replication-defective and applied intranasally. Currently, an H1N1 monovalent vaccine is being tested in a clinical phase I study, with an H5N1 avian influenza vaccine soon to be initiated. A production and purification process, which was successfully employed for the pilot-scale production of H1N1 and H5N1 influenza A vaccine virus, will be presented. Data on the selection of chromatographic media, relevant to eliminate downstream purification bottlenecks will also be discussed.

Details on obtained virus yields as well as impurity removal will be given. The vaccine virus is produced in static cell culture using Vero (African Green monkey kidney) cells. After clarification the vaccine virus bulk is purified using the same scheme for all different subtypes: Concentration by tangential ultra filtration, AEX chromatography using a CIM QA monolith, and an SEC polishing step allowing for buffer exchange. This purification scheme guarantees the thorough depletion of host cell DNA and total protein. In addition, an HPLC method for quantifying influenza virus in the vaccine with the use of CIM monolithic columns will be presented and the results will be compared with haemagglutination method.

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In an average influenza season, we face hundreds of thousands of influenza cases. Up to 50,000 deaths per year can be ascribed to influenza epidemics. Nevertheless, this is relatively harmless compared to the current, permanent threat of a worldwide pandemic caused by avian influenza.

AVIR Green Hills Biotechnology is developing innovative seasonal and pandemic influenza vaccines based on the deletion of the NS1 gene (ΔNS1 vaccine) [1]. The vaccine is replication-defective and applied intranasally. Currently, an H1N1 monovalent vaccine is being tested in a clinical phase I study and clinical trials with H5N1 avian influenza vaccine will follow in fall 2007.

A production process, which was successfully employed for the pilot-scale production of H1N1 and H5N1 influenza A virus is presented here. The upstream process is performed according to the specific requirements of the respective influenza subtypes. Currently, 15 L batches are produced in cell factories using Vero (African green monkey kidney) cells. The vaccine bulk is purified by using the very same scheme for all different subtypes. For purification, the cell culture supernatant is clarified by centrifugation and the virus is concentrated by tangential ultra filtration. The concentrated virus is subsequently purified in two chromatographic steps which were co-developed with BIA Separations d.o.o.: First, an anion exchange monolithic column is used. This is followed by size exclusion chromatography for polishing and buffer exchange.

This purification scheme guarantees the thorough depletion of host cell DNA and total protein, and recovers at least 25% of the infectious virus.

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2008

Anion-exchange chromatography is fundamental in downstream processing of plasmids both as a process and analytical technique. CIM anion-exchange monolithic columns have already been successfully used for the industrial scale purification of pharmaceutical grade small plasmid DNA [1].

In this work we report about the use of the newly developed monolithic analytical column intended for plasmid DNA determination in terms of its analytical performance. Higher degree of sensitivity, precision and accuracy is necessary in order to determine the quality of clinical grade DNA intended for therapeutic use. Plasmids purified from Escherichia coli fermentation exist predominantly in the supercoiled form (SC) the other two topoisomers present in the final product are mostly the open circular (OC) and linear forms [2]. Different chromatographic conditions were tested and the separation was optimized in terms of buffer and pH selection as well as in terms of gradient slope and column length. The results were compared to the results obtained with established analytical methods.

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During last decades different methods for purification of influenza viruses have been described. Most of these methods were developed for purification of egg derived influenza virus which is still the main production system for influenza vaccine viruses. Since cell culture based technology is gaining more and more importance, the need for alternative, efficient and scaleable purification methods has risen. Chromatography is becoming a method of choice for purification of viruses. Relevance of this technique was recently demonstrated also for influenza viruses. Methacrylate monoliths are characterized by large channel diameter, high surface accessibility and convective mass transport. As a consequence they have high binding capacity for large molecules, enable high flow rates at low pressure drop and therefore increase productivity. Recently it has been proven that methacrylate monolithic columns can also be used for purification and concentration of different viruses.

It was the purpose of this work to explore possibilities for purification of influenza viruses on ion exchange methacrylate monoliths. Different subtypes of influenza A and influenza B virus were tested employing various ion exhange monolithic columns.

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During the last decade important developments in molecular medicine and adenoviral vector design have been achieved, leading to an increased use of adenoviral vectors in clinical gene therapy protocols. One of the main advantages of the adenovirus is their ability to replicate at high titres in permisive cell lines. The availability of large quantities of adenoviral vector preparations is recognized as an important limitation to pre-clinical and clinical studies. Consequently there is a global focus on large scale production of adenoviral vectors, providing high titres combined with fast, effective and reliable purification methods.

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2007

Membrane based anion exchangers are being used increasingly for purification of monoclonal antibodies. The transition from particle-based anion exchangers is driven partly by the convenience of membranes and partly by the cost saving associated with their disposability, however the feature that makes them functionally superior is more effective mass transport.

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2006

Gene therapy has already shown some great results in treatment and cure of some monogene diseases, such as diabetes. While the use of genetically modified viruses raises safety concerns, synthetic formulations of genes inserted in plasmids are regarded as safer. At present, most clinical trials involve plasmids smaller than 10 kb. However, the concern that regulation of the functioning of the gene is ensured together with the expectation of the progression of gene therapy to multigene disfunctions, like cancer or complex nevrodegenerative disfunctions (Alzheimer disease), will require the production of larger plasmids [1].

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Commercially available CIM® disk monolithic columns are intended for very fast analyzes and laboratory purification. Their shape is a compromise to achieve acceptable resolution and binding capacity what make them suitable for wide range of laboratory applications. Separations of complex protein mixtures can be carried out within just a few seconds because of flow unaffected resolution and, on the other hand, purification can be effectuated with high productivity due to flow-unaffected dynamic binding capacity [1]. However, in many cases in the field of molecular biology, only a limited amount of sample is available. In such a case it is beneficial to work with small columns having high resolution or they can be used as affinity columns or bioreactors saving significant amount of valuable ligand. Having this goal in mind we developed CIM® disks with the volume of 1/10th and 1/100th of original volume. In comparison to conventional CIM® disks, they exhibit higher resolution and lower limit of detection, therefore smaller concentrations of target macromolecules can be detected. The separation ability and the protein capacity were tested on anion and cation exchange 3.4 mL and 34m L mini disk monolithic columns.

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Analysis of a large numbers of samples requires chromatographic supports that not only enable fast separation and purification of a target biomolecules from a complex matrix but are also involved in an automation process. The 96 – microtiter plate format enables both. Although they are routinely used for decade's only recently few reports about the microtiter plates bearing monoliths as a separation media, were reported [1]. Because of advantageous properties such as flow unaffected dynamic binding capacity and resolution 96 - microtiter plates with methacrylate based monolith were prepared. Characterisation of such plate demonstrated that uniform flow rate can be achieved through all wells and no leakage is present. Efficient separation of proteins was achieved within minute. Furthermore CLC (Conjoined Liquid Chromatography) concept [2] originally derived for analytical columns on CIM disk, can easily be extrapolated to microtiter plates. We demonstrated that multidimensional chromatography with 96 – well plate is feasible and can further accelerate screening processes.

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2005

The analysis of molecular interactions is a key part of the drug discovery process, and analytical techniques are available for studying in vitro the ligand/target complex since the early stage of the drug development process.

With regard to the assessment of the activity of chemical libraries, the affinity chromatography on HPLC immobilized-enzyme column (or immobilized enzyme reactors, IMER) is one of most promising methodologies for HTS applications.

Human recombinant acetylcholinesterase (hAChE) represents a well-known target for drug-discovery in Alzheimer’s Disease.

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The rapidly growing interest in the area of proteomics induces intensive efforts to find robust, automated and sensitive high-throughput analytical tools. In this context, the concept of solid-phase digestion (ex. trypsin immobilization on a solid support[1]) has received great attention in the last years. Trypsin (EC 3.4.21.4) has been covalently immobilized on different monolithic supports and resulting bioreactors used as immobilized enzyme reactors (IMERs) for on-line digestion, peptide separation and peptide mapping. Bioreactors efficiencies were evaluated with different recombinant proteins after on-line digestion. The technique used for the separation and identification of peptides was high-performance liquid chromatography coupled with electrospray ionisation tandem mass spectrometry (LC-ESI-MS/MS).

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Plasmids are excellent genetic vectors and have been widely used in gene manipulation and recombinant DNA technology for a long time. In recent years, plasmids are intensively investigated for gene therapy purposes and genetic vaccination. In this case, plasmid DNA (pDNA) of high purity is required. To follow such demands, several chromatographic steps are commonly needed. In the case of buffer compatibility, columns can be connected in-line to overcome time consuming and yield lowering multiple chromatographic steps. Since each of the unit operations contributes to the dispersion, the resolution is further decreased by each chromatographic step. This drawback might be surmounted by combining several chromatography steps into a single chromatography column. This approach is known as multidimensional or conjoint liquid chromatography (CLC).

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Viruses have proven to be useful vectors for gene therapy purposes. As therapeutics for human use they must be pure and contaminant free. Traditionally, viruses are purified by complicated and time consuming methods such as CsCl density gradient centrifugation or similar. In recent years liquid chromatography has became interesting method for virus purification. It provides high level of purity required for human use and increases productivity. Traditional chromatographic supports were mostly designed for purification of proteins and as such are commonly inappropriate for viruses. Alternative to traditional chromatographic support are methacrylate monoliths (CIM monoliths), characterized by large channel diameter, high surface accessibility and convective mass transport.

The aim of this work was to characterize CIM supports for separation and possible purification of a model virus Tomato mosaic virus (ToMV) from crude plant material.

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Affinity chromatography is a key method for protein purification. Its main advantage is in the high specificity which enables purification of a single protein from complex biological mixtures. For practical use the specific ligand should be immobilised on insoluble matrix. As a matrix, standard chromatographic supports are commonly used. They are normally in form of small (some m in diameter) particles containing pores to provide high specific surface resulting in high binding capacity. The pores are normally closed on one side, thus the liquid inside them is stagnant and the molecules are transported to the active site by diffusion. Since the diffusion coefficients for macromolecules, such as proteins, are very low, diffusion determines the overall process dynamics. As a consequence, separation or purification of the proteins takes normally 0.5 to 1h even on analytical scale.

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2004

By using a combination of two CIM® tube monolithic columns, OH and DEAE chemistry, we were able to successfully purify plasmid DNA from bacterial culture without using RNase. Purified plasmid DNA is very pure, since common contaminants, such as proteins, genomic DNA, endotoxins and RNA were under the detection limit. The scale up units produced according to cGMP standard are already used for the purification of plasmid DNA for gene therapy purposes on industrial scale.

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Traditionally, viruses are purified by time consuming methods such as CsCl density gradient centrifugation or similar. These methods are often inefficient and limited to small scale. In recent years different methods for virus purification, based on ion exchange, gel filtration and affinity chromatography have became popular. Recently, CIM® disk monolithic columns were used for successful concentration of two plant viruses (1) and for improved detection of two human viruses (2). Cucumber mosaic virus (CMV) and Tomato mosaic virus (ToMV) were concentrated and subsequently detected from extremely diluted samples in which they were initially undetectable. Successful concentrations of both viruses encourage us to explore the possibilities of CIM® supports for virus purification. As a model virus ToMV was selected. ToMV is a rod shaped plant virus with a typical size of 300 x 18 nm and isoelectric point at pH 4.6.

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Tissue plasminogen activator (t-PA) is serine protease which converts plasminogen into plas-min dissolving the major component of blood clots, fibrin. So, it can be extremely useful in clinical practice to help curing of heart attack victims. The most available way protein producing is genetic engineering where separation and purification of goal protein are one of the important steps in protein producing process.

Recently developed High performance monolithic disk chromatography, HPMDC, seems to be a very attractive way for study quantitative affinity parameters of recombinant proteins with different ligands as well as for protein separations and purifications. High process speed prevents the denatura-tion due to temperature and solvents influence. The better mass transfer mechanism (convection rather than diffusion) allows to consider only the biospecific reaction as time limiting.

It is known that plasminogen, which is the natural substratum for t-PA, can be successfully used as affinity ligand to separate t-PA from cellular media. However, the use of synthetic ligands for affinity chromatography is more preferable due to their higher stability and lower total cost.

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2003

The only four drugs approved for the clinical treatment of Alzheirner’s Disease (tacrine. rivastigmine, donepezil and galantamine) are acetylcholinesterase inhibitors which act by maintaining high levels of acetylcholine at the muscarinic and nicotinic receptors in the central nervous system. Human acetylcholinesterase (HuAChE) represents a widely studied target enzyme and it is still object of research for the development of new drugs as enzyme inhibitors.

In a previous paper we reported the immobilisation of AChE on a silica based chromatographic column (50 x 4.6 mm 1.0.) The yeld of immobilization and the stability of the AChE-IMER were considered satisfactory, but some problems arose. The length of the IMER and the large amount of enzyme covalently bound to the chromatographic support resulted in catalysis product long elution times and some inhibitors aspecific matrix absorption with delayed enzyme activity recovery. In order to avoid these complications and considering the high rate of AChE enzymatic reaction. we decided to reduce the dimension of the solid support for immobilization, hence the amount of immobilized enzyme, by selecting a monolithic matrix disk (12 x 3 mm I.D.).

CIM® (Convective Interaction Media) monolithic supports (Biaseparations. Lubiana) represent a novel generation of stationary phases used for liquid chromatography, bioconversions, and solid phase synthesis. As opposed to individual particles packed into chromatographic columns, CIM® supports are cast as continuous homogeneous phases and provide high rates of mass transfer at lower back pressure.

In the present work a CIMK disk with immobilised human recombinant acetylcholinesterase (HuAChE-ClM® Disk) was developed. The activity of immohilised enzyme, the long term stability and reproducibility were tested. HuAChE-CIM® disk was applied as an immobilised enzyme micro-reactor (micro-IMER) in on-line HPLC system for inhibitory potency determination of known AChE inhibitors.

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