Abstract: The present invention provides methods and vector systems for the generation of chimeric recombinant adenoviruses. These hybrid adenoviruses contain a genome that is derived from different adenovirus serotypes. In particular, novel hybrid adenoviruses are disclosed with improved properties for gene therapy purposes. These properties include: a decreased sensitivity towards neutralizing antibodies, a modified host range, a change in the titer to which adenovirus can be grown, the ability to escape trapping in the liver upon in vivo systemic delivery, and absence or decreased infection of antigen presenting cells (APC) of the immune system, such as macrophages or dendritic cells. These chimeric adenoviruses thus represent improved tools for gene therapy and vaccination since they overcome the limitations observed with the currently used serotype subgroup C adenoviruses.

Abstract: Presented are ways to address the problem of replication competent adenovirus in adenoviral production for use with, for example, gene therapy. Packaging cells having no overlapping sequences with a selected vector are suited for large scale production of recombinant adenoviruses. A system for use with the invention produces replication-defective adenovirus. The system includes a primary cell containing a nucleic acid based on or derived from adenovirus and an isolated recombinant nucleic acid molecule for transfer into the primary cell. The isolated recombinant nucleic acid molecule is based on or derived from an adenovirus, has at least one functional encapsidation signal and at least one functional Inverted Terminal Repeat, and lacks overlapping sequences with the nucleic acid of the cell. Otherwise, the overlapping sequences would enable homologous recombination leading to replication competent adenovirus in the primary cell into which the isolated recombinant nucleic acid molecule is to be transferred.

Abstract: Cells capable of at least, in part, complementing adenovirus an adenovirus defective in E2A function. Such cells include a nucleic acid-encoding adenovirus E2A or a functional part, derivative, temperature-sensitive mutation and/or analogue thereof, integrated into the cell's genome. Methods for producing an adenovirus particle/vector with a functional deletion of E2A are also disclosed. Such methods involve providing a cell with the functionally deleted adenovirus vector, culturing the cell, and harvesting viral particles. The functional deletion may comprise a deletion in E2A. The nucleic acid-encoding E2A in the cell's genome may lack sequence overlap with the vector, preventing formation of a replication-competent adenovirus or restoration of E2A function. The adenovirus vector may further include a functional deletion in the E1-region.

Abstract: Methods and associated materials for transducing mesenchymal stem cells with a desired nucleic acid. Mesenchymal stem cells are a recently discovered kind of stem cell for which suitable transfer vehicles are still desired. Typical gene delivery vehicles such as the adenoviruses or adeno associated viruses have no particular tropism for mesenchymal stem cells. Also disclosed is gene therapy using adenoviruses provided with tropism for mesenchymal stem cells.

Abstract: A gene delivery vehicle having been provided with at least a tissue tropism for cells selected from the group of smooth muscle cells, endothelial cells, and/or liver cells. The tissue tropism is generally provided by a virus capsid, such as one comprising protein fragments from at least two different viruses, such as two different adenoviruses, including adenovirus of subgroup C or subgroup B (for example, adenovirus 16). The protein fragments can comprises a tissue tropism determining fragment of a fiber protein derived from a subgroup B adenovirus. Also, cells for producing such gene delivery vehicles and pharmaceutical compositions containing said gene delivery vehicles.

Abstract: A gene delivery vehicle having been provided with at least a tissue tropism for cells selected from the group of smooth muscle cells, endothelial cells, and/or liver cells. The tissue tropism is generally provided by a virus capsid, such as one comprising protein fragments from at least two different viruses, such as two different adenoviruses, including adenovirus of subgroup C or subgroup B (for example, adenovirus 16). The protein fragments can comprise a tissue tropism-determining fragment of a fiber protein derived from a subgroup B adenovirus. Also, cells for producing such gene delivery vehicles and pharmaceutical compositions containing these gene delivery vehicles are provided.

Abstract: The invention provides methods for producing mixtures of antibodies from a single host cell clone, wherein, a nucleic acid sequence encoding a light chain and nucleic acid sequences encoding different heavy chains are expressed in a recombinant host cell. The recombinantly produced antibodies in the mixtures according to the invention suitably comprise identical light chains paired to different heavy chains capable of pairing to the light chain, thereby forming functional antigen-binding domains. Mixtures of the recombinantly produced antibodies are also provided by the invention. Such mixtures can be used in a variety of fields.

Abstract: The invention provides a method for producing at least one polypeptide of interest in a eukaryotic cell, the method comprising: providing a eukaryotic cell comprising nucleic acid encoding the polypeptide of interest; culturing the cell in a suitable medium; and harvesting the at least one polypeptide of interest from the eukaryotic cell, from the suitable medium, or from both the eukaryotic cell and the suitable medium, wherein the eukaryotic cell is a permanent amniocytic cell comprising a nucleic acid sequence encoding adenoviral E1A and E1B proteins. The invention also provides a eukaryotic cell comprising nucleic acid encoding a polypeptide of interest under control of a heterologous promoter, the eukaryotic cell not comprising a structural adenoviral protein, wherein the eukaryotic cell is a permanent amniotic cell comprising a nucleic acid sequence encoding adenoviral E1A and E1B proteins.

Abstract: Described are methods for identifying, selecting, and obtaining mammalian cells capable of producing proteinaceous molecules having predetermined post-translational modifications, wherein the post-translational modifications are brought about by the mammalian cell in which the proteinaceous molecule is expressed. Preferably, the predetermined post-translational modifications include glycosylation. Also described are methods for obtaining and producing proteinaceous molecules, using mammalian cells obtainable by a method of the present invention. Preferably, the proteinaceous molecules includes erythropoietin (EPO), since EPO's effect depends heavily on its glycosylation pattern. Mammalian cells that have been obtained on the basis of their ability to produce proteins and/or post-translational modifications that are indicative for a predetermined post-translational modification that is desired are also provided.

Abstract: The invention relates to methods and means for the production of adenoviral vectors on complementing cell lines, wherein the early region 4 open reading frame 6 (E4-orf6) encoding nucleic acid is present in the adenoviral vector and wherein the E4-orf6 gene product is compatible with one or more products of the E1 gene products provided by the complementing cell, such that the adenoviral vector can be efficiently produced by the complementing cell.

Abstract: Adenovirus serotypes differ in their natural tropism. The adenovirus serotypes 2, 4, 5, and 7 all have a natural affiliation towards lung epithelia and other respiratory tissues. In contrast, serotypes 40 and 41 have a natural affiliation towards the gastrointestinal tract. The serotypes described, differ in at least capsid proteins (penton-base, hexon), proteins responsible for cell binding (fiber protein), and proteins involved in adenovirus replication. This difference in tropism and capsid protein among serotypes has led to the many research efforts aimed at redirecting the adenovirus tropism by modification of the capsid proteins.

Abstract: Methods and associated materials for transducing mesenchymal stem cells with a desired nucleic acid. Mesenchymal stem cells are a recently discovered kind of stem cell for which suitable transfer vehicles are still desired. Typical gene delivery vehicles such as the adenoviruses or adeno associated viruses have no particular tropism for mesenchymal stem cells. Also disclosed is gene therapy using adenoviruses provided with tropism for mesenchymal stem cells.

Abstract: The invention provides an immortalized human retina cell expressing E1A and E1B proteins of an adenovirus, wherein the cell has recombinant nucleic acid encoding an IgA molecule in expressible format. Also provided is a method for recombinant production of an IgA molecule, the method involving culturing a cell of the invention and expressing the recombinant nucleic acid encoding an IgA.

Abstract: The invention provides a gene delivery vehicle and a gene of interest comprising at least one Ad35 element or a functional equivalent thereof, responsible for avoiding or diminishing neutralizing activity against adenoviral elements by the host to which the gene is to be delivered. A functional equivalent/homologue of an Ad35 (element) includes an adenovirus (element) which, like adenovirus 35, encounters pre-existing immunity in less than about 10% of the hosts to which it is administered for the first time, or which is capable in more than about 90% of the hosts to which it is administered of avoiding or diminishing the immune response.

Abstract: Methods and corresponding compounds for generating adenoviral vectors. One such method entails a method for generating an adenoviral vector comprising welding together two nucleic acid molecules wherein the molecules comprise partially overlapping sequences capable of combining with each other allowing the generation of a physically linked nucleic acid comprising at least two functional adenovirus inverted terminal repeats, a functional encapsulation signal and a nucleic acid of interest or functional parts, derivatives and/or analogues thereof. Further disclosed are nucleic acid molecules for generating adenoviral vectors.

Abstract: The invention provides improved methods and products based on adenoviral materials which can advantageously be used in gene therapy. In one aspect, an adenoviral vector is provided having no overlap with a suitable packaging cell line. The suitable packaging cell line is another aspect. The combination excludes the possibility of homologous recombination, thereby excluding the possibility of the formation of replication competent adenovirus. Another aspect embodies an adenovirus based helper construct which by its size is incapable of being encapsidated. This helper virus can be transferred into any suitable host cell making it a packaging cell. Furthermore, a number of useful mutations to adenoviral based materials and combinations of such mutations are disclosed, all of which have in common the safety of the methods and the products, in particular avoiding the production of replication competent adenovirus and/or interference with the immune system.

Abstract: The invention provides a nucleic acid delivery vehicle with or having been provided with at least a tissue tropism for fibroblast-like or macrophage-like cells, preferably synoviocytes. In one aspect the nucleic acid delivery vehicle is a virus capsid or a functional part, derivative and/or analogue thereof. Preferably, the virus capsid is an adenovirus capsid. Preferably, the adenovirus is a subgroup B adenovirus, preferably adenovirus 16. Preferably, the tissue tropism is provided by at least a tissue tropism determining part of an adenovirus fiber protein or a functional derivative and/or analogue thereof. The invention further presents methods for the treatment of diseases, preferably joint related diseases.

Abstract: The present invention provides immortalized eukaryotic cells and methods useful for the production of immunologically active bivalent antibody fragments, such as F(ab?)2 fragments. The methods and cells of the invention result in a desirable ratio of bivalent to monovalent antibody fragments.

Abstract: Methods and compositions for the production of recombinant proteins in a human cell line. The methods and positions are particularly useful for generating stable expression of human recombinant proteins of interest that are modified post-translationally, for example, by glycosylation. Such proteins may have advantageous properties in comparison with their counterparts produced in non-human systems such as Chinese Hamster Ovary cells.

Abstract: Presented are ways to address the problem of replication competent adenovirus in adenoviral production for use with, for example, gene therapy. Packaging cells having no overlapping sequences with a selected vector are suited for large-scale production of recombinant adenoviruses. A system for use with the invention produces replication-defective adenovirus. The system includes a primary cell containing a nucleic acid based on or derived from adenovirus and an isolated recombinant nucleic acid molecule for transfer into the primary cell. The isolated recombinant nucleic acid molecule is based on or derived from an adenovirus, has at least one functional encapsidation signal and at least one functional Inverted Terminal Repeat, and lacks overlapping sequences with the nucleic acid of the cell. Otherwise, the overlapping sequences would enable homologous recombination leading to replication competent adenovirus in the primary cell into which the isolated recombinant nucleic acid molecule is to be transferred.