Abstract: Antigen-expressing, activated dendritic cells are disclosed. Such dendritic cells are used to present tumor, viral or bacterial antigens to T cells, and can be useful in vaccination protocols. Other cytokines can be used in separate, sequential or simultaneous combination with the activated, antigen-pulsed dendritic cells. Also disclosed are methods for stimulating an immune response using the antigen-expressing, activated dendritic cells.
Abstract: 2F1 polypeptides are provided, along with DNA sequences, expression vectors and transformed host cells useful in producing the polypeptides. Soluble 2F1 polypeptides find use in inhibiting prostaglandin synthesis and treating inflammation. In addition, antibodies specific to 2F1 polypeptide are provided.
Abstract: 2F1 polypeptides are provided, along with DNA sequences, expression vectors and transformed host cells useful in producing the polypeptides. Soluble 2F1 polypeptides find use in inhibiting prostaglandin synthesis and treating inflammation.
Abstract: Processes for conjugating proteins with polyethylene glycol are disclosed. The disclosed processes provide modified proteins having little or no decrease in their activity and include the steps of deleting at least one amino acid residue on the protein, replacing the at least one amino acid residue with an amino acid residue that does not react with polyethylene glycol, and contacting the protein with polyethylene glycol under conditions sufficient to conjugate the polyethylene glycol to the protein. This advantageous retention of a desired protein activity is attributed to the availability of one or more protein binding sites which is unaltered in the conjugation process and thus remains free to interact with a binding partner ligand or cognate subsequent to the conjugation process.
Abstract: A new family of immunoreceptor molecules of the immunoglobulin superfamily, (LIR) polypeptides is described. Disclosed are sequences encoding LIR family members and their deduced amino acid sequences, polypeptides encoded by DNA that hybridize to oligonucleotide probes having defined sequences, processes for producing polypeptides of the LIR family, and antagonistic antibodies to LIR family members. LIR family members can be used to treat autoimmune diseases and disease states associated with suppressed immune function.
Abstract: Processes for conjugating proteins with polyethylene glycol are disclosed. The disclosed processes provide modified proteins having little or no decrease in their activity and include the steps of deleting at least one amino acid residue on the protein, replacing the at least one amino acid residue with an amino acid residue that does not react with, polyethylene glycol, and contacting the protein with polyethylene glycol under conditions sufficient to conjugate the polyethylene glycol to the protein. This advantageous retention of a desired protein activity is attributed to the availability of one or more protein binding sites which is unaltered in the conjugation process and thus remains free to interact with a binding partner ligand or cognate subsequent to the conjugation process.
Abstract: Processes for conjugating proteins with polyethylene glycol are disclosed. The disclosed processes provide modified proteins having little or no decrease in their activity and include the steps of deleting at least one amino acid residue on the protein, replacing the at least one amino acid residue with an amino acid residue that does not react with, polyethylene glycol, and contacting the protein with polyethylene glycol under conditions sufficient to conjugate the polyethylene glycol to the protein. This advantageous retention of a desired protein activity is attributed to the availability of one or more protein binding sites which is unaltered in the conjugation process and thus remains free to interact with a binding partner ligand or cognate subsequent to the conjugation process.
Abstract: Isolated recombinant RANK-L polypeptide DNAs encoding RANK-L polypeptide, and pharmaceutical compositions made therefrom, are disclosed. The isolated RANK-L polypeptide can be used to regulate an immune response. The RANK-L polypeptide is also useful in screening for inhibitors thereof.
Abstract: There is disclosed a polypeptide (CD40-L) and DNA sequences, vectors and transformed host cells useful in providing CD40-L polypeptides. More particularly, this invention provides isolated human and murine CD40-L polypeptides that bind to the extracellular binding region of a CD40 receptor.
Type:
Grant
Filed:
September 20, 1999
Date of Patent:
June 25, 2002
Assignee:
Immunex Corporation
Inventors:
Richard J. Armitage, William C. Fanslow, Melanie K. Spriggs, Subhashini Srinivasan, Marylou G. Gibson, Arvia E. Morris, Jeffrey T. McGrew
Abstract: There is disclosed a polypeptide (CD40-L) and DNA sequences, vectors and transformed host cells useful in providing CD40-L polypeptides. More particularly, this invention provides isolated human and murine CD40-L polypeptides that bind to the extracellular binding region of a CD40 receptor. Also disclosed are methods of simulating hybridoma cells to increase monoclonal antibody production by administering a CD40 ligand polypeptide that stimulates B cell proliferation.
Type:
Grant
Filed:
December 19, 1996
Date of Patent:
May 21, 2002
Inventors:
Richard J. Armitage, William C. Fanslow, Melanie K. Spriggs, Subhashini Srinivasan, Marylou G. Gibson
Abstract: A new family of immunoreceptor molecules of the immunoglobulin superfamily, (LIR) polypeptides is described. Disclosed are sequences encoding LIR family members and their deduced amino acid sequences, polypeptides encoded by DNA that hybridizes to defined nucleotide sequences, processes for producing polypeptides of the LIR family, and specific antibodies directed against LIR polypeptides. LIR family members can be used to treat autoimmune diseases and disease states associated with suppressed immune function.
Abstract: Novel 4-1BB ligand (4-1BB-L) polypeptides and a human cell surface receptor designated 4-1BB that binds 4-1BB-L are provided. Isolated 4-1BB-L-encoding and human 4-1BB-encoding DNA sequences, recombinant expression vectors comprising the isolated DNA sequences, and host cells transformed with the recombinant expression vectors are disclosed, along with methods for producing the novel polypeptides by cultivating such transformed host cells. Soluble forms of the 4-1BB-L or 4-1BB polypeptides are derived from the extracellular domains thereof.
Type:
Grant
Filed:
September 10, 1998
Date of Patent:
March 12, 2002
Assignee:
Immunex Corporation
Inventors:
Raymond G. Goodwin, Craig A. Smith, Mark R. Alderson
Abstract: There are disclosed nucleotide sequences which can improve expression of recombinant proteins two to eight fold in stable cell pools when present in an expression vector.
Type:
Grant
Filed:
November 5, 1999
Date of Patent:
November 6, 2001
Assignee:
Immunex Corporation
Inventors:
Arvia E. Morris, Chi-Chang Lee, James N. Thomas
Abstract: There are disclosed nucleotide sequences which can improve expression of recombinant proteins two to eight fold in stable cell pools when present in an expression vector.
Abstract: There is disclosed a polypeptide (CD40-L) and DNA sequences, vectors and transformed host cells useful in providing CD40-L polypeptides. More particularly, this invention provides isolated human and murine CD40-L polypeptides that bind to the extracellular binding region of a CD40 receptor.
Type:
Grant
Filed:
December 19, 1996
Date of Patent:
September 18, 2001
Assignee:
Immunex Corporation
Inventors:
Richard J. Armitage, William C. Fanslow, Melanie K. Spriggs, Subhashini Srinivasan, Marylou G. Gibson
Abstract: Isolated receptors, DNAs encoding such receptors, and pharmaceutical compositions made therefrom, are disclosed. The isolated receptors can be used to regulate an immune response. The receptors are also useful in screening for inhibitors thereof.
Abstract: The invention is directed to LERK-6 as a purified and isolated protein, the DNA encoding the LERK-6, host cells transfected with cDNAs encoding LERK-6.
Abstract: There is disclosed a polypeptide (CD40-L) and DNA sequences, vectors and transformed host cells useful in providing CD40-L polypeptides. More particularly, this invention provides isolated human and murine CD40-L polypeptides that bind to the extracellular binding region of a CD40 receptor. Also disclosed are methods of inhibiting undesirable immune responses, preventing T cell interaction with B cells by blocking CD40L binding to CD40 sites on B cells and other target cells.
Type:
Grant
Filed:
December 19, 1996
Date of Patent:
July 24, 2001
Assignee:
Immunex Corporation
Inventors:
Richard J. Armitage, William C. Fanslow, Melanie K. Spriggs, Subhashini Srinivasan, Marylou G. Gibson
Abstract: The invention is directed to VESPR polypeptides as a purified and isolated protein, the DNA encoding the VESPR polypeptide, host cells transfected with cDNAs encoding VESPR, and methods for preparing VESPR polypeptides.
Type:
Grant
Filed:
December 10, 1999
Date of Patent:
February 13, 2001
Assignee:
Immunex Corporation
Inventors:
Melanie K. Spriggs, Michael R. Comeau, Robert F. DuBose, Richard S. Johnson
Abstract: The invention is directed to VESPR polypeptides as a purified and isolated protein, the DNA encoding the VESPR polypeptide, host cells transfected with cDNAs encoding VESPR, and methods for preparing VESPR polypeptides.
Type:
Grant
Filed:
October 28, 1998
Date of Patent:
October 10, 2000
Assignee:
Immunex Corporation
Inventors:
Melanie K. Spriggs, Michael R. Comeau, Robert F. DuBose, Richard S. Johnson