Abstract: The present disclosure is directed to compositions and methods for raising immune responses against influenza and respiratory syncytial virus by administering combination immunogenic composition against both viruses at the same time. The combination compositions contain an RSV component and one, two, three, four, or more influenza components. The combination compositions provide a greater immune response than that obtained by separately administering the RSV and influenza components.

Abstract: The present disclosure is directed to compositions and methods for raising immune responses against influenza and respiratory synctial virus by administering combination immunogenic composition against both viruses at the same time. The combination compositions contain an RSV component and one, two, three, four, or more influenza components. The combination compositions provide a greater immune response than that obtained by separately administering the RSV and influenza components.

Abstract: Disclosed and claimed is a human erythropoietin (EPO) expressed and produced in Spodoptera frugiperda Sf900+ cell line (ATCC: CRL 12579) transfected with a baculovirus construct containing the EPO gene. The EPO has an in vivo activity of 200,000 U/mg to 500,000 U/mg.

Abstract: Disclosed and claimed is apparatus and methods for the growth of cells to high density, products therefrom and uses thereof. Also disclosed and claimed is the use of this method for the growth to high-density insect cells, such as the Spodoptera frugiperda Sf900+ cell line (ATCC: CRL 12579). Further disclosed is the infection of Sf900+ cells at high cell density with wild type and recombinant baculoviruses to produce baculovirus and DNA or gene or expression products.

Abstract: Disclosed and claimed is apparatus and methods for the growth of cells to high density, products therefrom and uses thereof. Also disclosed and claimed is the use of this method for the growth to high-density insect cells, such as the Spodoptera frugiperda Sf900+ cell line (ATCC: CRL 12579). Further disclosed is the infection of Sf900+ cells at high cell density with wild type and recombinant baculoviruses to produce baculovirus and DNA or gene or expression products.

Abstract: Disclosed and claimed is apparatus and methods for the growth of cells to high density, products therefrom and uses thereof. Also disclosed and claimed is the use of this method for the growth to high-density insect cells, such as the Spodoptera frugiperda Sf900+ cell line (ATCC: CRL 12579). Further disclosed is the infection of Sf900+ cells at high cell density with wild type and recombinant baculoviruses to produce baculovirus and DNA or gene or expression products.

Abstract: A method of preparing a recombinant influenza vaccine using DNA technology is provided. The resulting vaccine is a multivalent, preferably trivalent, influenza vaccine based on a mixture of recombinant hemagglutinin antigens cloned from influenza viruses having epidemic potential. The recombinant hemagglutinin antigens are full length, uncleaved (HA0), glycoproteins produced from baculovirus expression vectors in cultured insect cells and purified under non-denaturing conditions. The recombinant vaccine can be developed from primary sources of influenza, for example, nasal secretions from infected individuals, rather than from virus adapted to and cultured in chicken eggs. The process for cloning influenza hemagglutinin genes from influenza A and B viruses uses specially designed oligonucleotide probes and PCR. In the preferred embodiment, the cloned HA genes are then modified by deletion of the natural hydrophobic signal peptide sequences and replacing them with a new baculovirus signal peptide.

Abstract: Disclosed and claimed is a new insect cell line, Sf900+, ATCC CRL-12579. The insect cell line was established from Lepidoptera, Noctuidae, Spodoptera frugiperda Sf-9 (ATCC CRL-1771) through multiple rounds of limiting dilution and selection in a serum-free insect medium supplemented with added human insulin. The insect cell line is useful in BEVS or as an adjuvant and has many characteristics and advantages. Also disclosed and claimed are recombinant proteins from recombinant baculovirus expression in insect cells such as Sf900+ cells, for instance, HA, NA, EPO, CD4, CEA, and thrombospondin.

Abstract: A method of preparing a recombinant influenza vaccine using DNA technology is provided. The resulting vaccine is a multivalent, preferably trivalent, influenza vaccine based on a mixture of recombinant hemagglutinin antigens cloned from influenza viruses having epidemic potential. The recombinant hemagglutinin antigens are full length, uncleaved (HAO), glycoproteins produced from baculovirus expression vectors in cultured insect cells and purified under non-denaturing conditions. The recombinant vaccine can be developed from primary sources of influenza, for example, nasal secretions from infected individuals, rather than from virus adapted to and cultured in chicken eggs. The process for cloning influenza hemagglutinin genes from influenza A and B viruses uses specially designed oligonucleotide probes and PCR. In the preferred embodiment, the cloned HA genes are then modified by deletion of the natural hydrophobic signal peptide sequences and replacing them with a new baculovirus signal peptide.

Abstract: A method for producng a recombinant baculovirus expression vector, capable of expressing a selected gene in a host insect cell, is disclosed. The method involves cleaving baculovirus DNA to produce a DNA fragment comprising a polyhedrin gene or portion thereof, including a polyhedrin promoter. A recombinant transfer vector is prepared by inserting said DNA fragment into a cloning vehicle and thereafter inserting a selected gene into the thus modified cloning vehicle such that it is under the transcriptional control of the polyhedrin promoter. The recombinant transfer vector is contacted with a baculovirus DNA so as to effect recombination and incorporation of the selected gene into the baculovirus genome. The resultant recombinant baculovirus is then used to infect susceptible insects or cultured insect cells and the protein product from the incorporated selected gene is produced from the infection.

Abstract: A method for producing a recombinant baculovirus expression vector, capable of expression of a selected gene in a host insect cell, is disclosed. The preferred method involves cleaving baculovirus DNA to produce a DNA fragment comprising a polyhedrin gene or portion thereof, including a polyhedrin promoter. A recombinant shuttle vector is prepared by inserting said DNA fragment into a cloning vehicle and thereafter inserting a selected gene into the thus modified cloning vehicle such that it is under the transcriptional control of the polyhedrin promoter. The recombinant shuttle vector is contacted with a baculovirus DNA so as to effect recombination and incorporation of the selected gene into the baculovirus genome.