WO2006061723A2 - Human monoclonal antibodies to influenza m2 protein and methods of making and using same - Google Patents
Human monoclonal antibodies to influenza m2 protein and methods of making and using same Download PDFInfo
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- WO2006061723A2 WO2006061723A2 PCT/IB2005/004146 IB2005004146W WO2006061723A2 WO 2006061723 A2 WO2006061723 A2 WO 2006061723A2 IB 2005004146 W IB2005004146 W IB 2005004146W WO 2006061723 A2 WO2006061723 A2 WO 2006061723A2
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- 229940099259 vaseline Drugs 0.000 description 1
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/08—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from viruses
- C07K16/10—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from viruses from RNA viruses
- C07K16/1018—Orthomyxoviridae, e.g. influenza virus
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K39/395—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum
- A61K39/42—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum viral
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/12—Antivirals
- A61P31/14—Antivirals for RNA viruses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/12—Antivirals
- A61P31/14—Antivirals for RNA viruses
- A61P31/16—Antivirals for RNA viruses for influenza or rhinoviruses
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/11—DNA or RNA fragments; Modified forms thereof; Non-coding nucleic acids having a biological activity
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2217/00—Genetically modified animals
- A01K2217/05—Animals comprising random inserted nucleic acids (transgenic)
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/505—Medicinal preparations containing antigens or antibodies comprising antibodies
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/30—Immunoglobulins specific features characterized by aspects of specificity or valency
- C07K2317/34—Identification of a linear epitope shorter than 20 amino acid residues or of a conformational epitope defined by amino acid residues
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/71—Decreased effector function due to an Fc-modification
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/73—Inducing cell death, e.g. apoptosis, necrosis or inhibition of cell proliferation
- C07K2317/732—Antibody-dependent cellular cytotoxicity [ADCC]
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/70—Immunoglobulins specific features characterized by effect upon binding to a cell or to an antigen
- C07K2317/73—Inducing cell death, e.g. apoptosis, necrosis or inhibition of cell proliferation
- C07K2317/734—Complement-dependent cytotoxicity [CDC]
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2317/00—Immunoglobulins specific features
- C07K2317/90—Immunoglobulins specific features characterized by (pharmaco)kinetic aspects or by stability of the immunoglobulin
- C07K2317/92—Affinity (KD), association rate (Ka), dissociation rate (Kd) or EC50 value
Definitions
- the invention relates to antibodies, more particularly to human, humanized and chimeric antibodies that specifically bind to influenza virus M2 protein. Furthermore, the invention relates to antibodies, more particularly to human, humanized and chimeric antibodies whose minimal binding sequence is LLTEVETPIR (SEQ ID NO:1).
- Influenza types A or B viruses cause epidemics of disease almost every year in all countries and are a leading cause of death in the developed world. In the United States, influenza epidemics can cause illness in about 20% of people and are associated with an average of 20,000 deaths and 114,000 hospitalizations yearly. The present strategy for control of influenza is yearly vaccination with inactivated whole-virus or sub-unit vaccines.
- Influenza vaccines have been demonstrated to have a protective effect against influenza infection.
- yearly emerging antigenic variants of influenza viruses necessitate surveillance to contemporary of circulating virus strains.
- difficulty in the prediction of new variant strains has prevented the timely production of the vaccine (Frace et al., Vaccine 17:2237 (1999)).
- pandemic avian influenza has become a serious threat due to the emergence of avian influenza viruses such as H5N1 in southern Asia.
- the currently available vaccines would be ineffective against avian viruses (Lipatov et al., J. Virology 78:8951 (2004); Osterholm et al., N Engl. Med. 352:1839 (2005)).
- a third problem with the current vaccine is the ineffectiveness in certain populations with compromised immune systems, for instance premature infants, the elderly, AIDS and transplant patients.
- Tamiflu a neuraminidase inhibitor
- a drug resistant avian virus was found in a 14-year-girl in Viet Nam. Resistance to Tamiflu has also been found in human influenza as well (Mai Le et al., Nature 437:1108 (2005)). The shed virus can become a problem if it transmitted to other people because Tamiflu is so far the most effective anti-influenza drug.
- Another concern about Tamflu is that it is unclear whether it will be effective against severe avian influenza although it can accelerate recovery from mild infection with contemporary influenza strains in adults.
- Hemagglutinin (HA) and neuraminidase (NA) are the two major antigens for the stimulation of antibody production. Due to frequent antigenic variation of these two proteins, they do not represent optimal targets for development of therapeutic antibody drugs.
- a third transmembrane protein of type A influenza virus, matrix protein 2 (M2) is abundantly expressed by virus-infected cells, where it is believed to provide an obligatory transmembrane proton flux for viral replication (Ciampor et al., Virus Research 22:247 (1992); Grambas and Hay, Virology 190:11 (1992); Sugrue et al., EMBO J. 9:3469 (1990)).
- M2 is conserved and may represent a target for the development of antibody-based passive immunotherapies for influenza patients (Ito et al., J. Virology 65:5491 (1991); Slepushkin et al., Vaccine 13:1399 (1995); Neirynck et al., Nature Med. 5:1157 (1999)).
- compositions and methods for prophylaxis and treatment of influenza infection are provided.
- Compositions include fully human, humanized and chimeric (e.g., human/mouse chimera) monoclonal antibodies that recognize influenza matrix protein 2, M2 protein, from A/PR/8/34, A/HK/1/68 and other strains/isolates and have broad reactivity against differing influenza A strains/isolates and subtypes.
- Methods include passive immunization with human, humanized and chimeric (e.g., human/mouse chimera) monoclonal antibodies, anti- M2 antibodies, that bind to influenza matrix protein 2, M2 protein, before or after contact with, exposure or infection with influenza.
- Human monoclonal anti-M2 antibodies can protect mice from a lethal challenge with influenza A viruses (A/HK/1/68 and A/PR/8/34) when antibody is administered before or after animals were infected with influenza A. Influenza virus replication was dramatically inhibited in vivo.
- Human anti-M2 antibodies include antibodies having broad antigenic specificity that can bind to a wide variety of M2 sequences. For example, an exemplary antibody binds to most M2 sequence variants including variants from potentially pandemic/epidemic avian influenza isolates.
- Such human, humanized and chimeric anti-M2 monoclonal antibody that have broad specificity to M2 variant peptides are useful against a variety of influenza trains/isolates and subtypes.
- the invention therefore provides human, humanized and chimeric anti-M2 monoclonal antibodies that bind to influenza virus protein M2, compositions including human, humanized and chimeric anti-M2 monoclonal antibodies such as pharmaceutical compositions including human, humanized and chimeric anti-M2 monoclonal antibodies, and kits containing antibody.
- Human, humanized and chimeric anti-M2 monoclonal antibodies of the invention are useful for treating influenza in a subject having or at risk of having influenza, before infection (prophylaxis) or following infection (therapeutic); influenza detection and diagnostics, including measuring virus titer; purification/isolation including purifying or isolating whole virus or M2 protein; and other assay systems.
- the invention therefore also provides methods of using the antibodies in therapeutic (e.g., treatment of influenza infection) and non-therapeutic applications such as diagnostics (detecting or measuring amounts of influenza or M2 protein in a sample) and purification (purifying or isolating influenza virus or M2 protein).
- therapeutic e.g., treatment of influenza infection
- non-therapeutic applications such as diagnostics (detecting or measuring amounts of influenza or M2 protein in a sample) and purification (purifying or isolating influenza virus or M2 protein).
- a human antibody that specifically binds to at least a part of the M2 extracellular domain also referred to and used interchangeably herein as M2 ectodomain (M2e).
- M2 ectodomain M2 e
- the extracellular/ecto- domain includes or consists of the amino acid sequence SLLTEVETPIRNEWGCRCNDSSD (SEQ ID NO:2), a subsequence thereof or an amino acid variant thereof (e.g., an amino acid substitution, insertion, deletion or addition).
- the extracellular/ecto- domain is a sequence that includes or consists of an amino acid sequence selected from:
- SLLTEVETPIRSEWGCRCNDSGD SEQ ID NO:3
- SLLTEVETPIRNEWECRCNGSSD SEQ ID NO:4
- SLPTEVETPIRNEWGCRCNDSSD SEQ ID NO:5
- SLLTEVETPIRNEWGCRCNGSSD SEQ ID NO:6
- SLLTEVDTLTRNGWGCRCSDSSD SEQ ID NO:7
- SLLTEVETPIRKEWGCNCSDSSD SLLTEVETLIRNGWGCRCSDSSD
- SLLTEVETLTKNGWGCRCSDSSD SEQ ID NO: 10
- SLLTEVETPIRSEWGCRYNDSSD SEQ ID NO:11
- SLLTEVETPTRNGWECKCSDSSD SEQ ID NO: 12
- SLLTEVETHTRNGWECKCSDSSD SEQ ID NO: 13
- SLLTEVKTPTRNGWECKCSDSSD SEQ ID NO: 14
- SLLTEVETLTRNGWGCRCSDSSD SEQ ID NO: 15
- SLLTEVETPTRDGWECKCSDSSD SEQ ID NO: 16
- SLLTEVETPTRNGWGCRCSDSSD SEQ ID NO: 17
- SLLTEVETPTRNGWECKCNDSSD SEQ ID NO: 18
- SLLTEVETLTRNGWECKCSDSSD (SEQ ID NO: 19), SLLTEVETPIRNEWGCKCNDSSD (SEQ ID NO:20), SFLTEVETPIRNEWGCRCNGSSD (SEQ ID NO. 21), SLLTEVETPTRNGWECRCNDSSD (SEQ ID NO:22), SLLTEVETPIRKGWECNCSDSSD (SEQ ID NO:23), SLLTEVETPTRNEWECRCSDSSD (SEQ ID NO:24), SLLTGVETHTRNGWGCKCSDSSD (SEQ ID NO:25) and
- the antibody is produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (73.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- a cell line e.g., a hybridoma or a CHO cell line
- Antibodies of the invention include polyclonal and monoclonal antibodies and mixtures thereof, which can be any of IgG, IgA, IgM, IgE, IgD, and any isotype thereof, for example, IgGl, IgG2, IgG3 or IgG4.
- an exemplary class of antibody is IgG.
- Subclasses of IgG include, for example, IgGl, IgG2, IgG3 and IgG4.
- Antibodies include intact human, humanized and chimeric immunoglobulin molecules with two full-length heavy chains and two full-length light chains (e.g., mature portion of heavy and light chain variable region sequences) as well as subsequences/fragments of heavy or light chain which retain at least a part of a function (M2 binding specificity, M2 binding affinity, or anti-influenza virus activity) of parental intact antibody that specifically binds M2.
- Subsequences can have the same or substantially the same binding specificity, binding affinity or anti-influenza virus activity as parental intact human, humanized and chimeric antibody.
- Exemplary subsequences include Fab, Fab', F(ab')2, Fv, Fd, single-chain Fvs (scFv), disulfide-linked Fvs (sdFv) and VL or VH, or other M2 protein binding fragment of an intact immunoglobulin.
- Antibodies of the invention therefore include heavy-chain variable region sequence and light-chain variable region sequence of antibody produced by the hybridoma or a CHO cell line denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3
- Antibodies further include human, humanized and chimeric antibodies having the same or substantially the same binding specificity, affinity, or anti-influenza virus activity, of an antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- a cell line e.g., a hybridoma or a CHO cell line
- an antibody having the same binding specificity as antibody produced by a cell line denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) binds to at least one of the M2 variant sequences to which antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No.
- an antibody having substantially the same binding specificity as antibody produced by a cell line denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No.
- PTA-5968 deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- a cell line e.g., a hybridoma or a CHO cell line
- an antibody having substantially the same binding specificity as antibody produced by a cell line denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No.
- PTA-5968 deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- a cell line e.g., a hybridoma or a CHO cell line
- PTA-5968 deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- the affinity, or anti-influenza virus activity is within about 5 to 1000 fold greater or less than a reference antibody.
- a reference antibody has a Kd of 10 "9 M
- antibodies of the invention include antibodies having a Kd within 5 to 1000 fold greater or less than 10 "9 M.
- an antibody has a binding affinity within about 5 to 1000 fold greater or less than an antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection,
- an antibody binds to the same epitope as a reference antibody.
- an antibody binds to the same epitope as an antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- a cell line e.g., a hybridoma or a CHO cell line
- an antibody binds to an epitope to which the antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) binds.
- a cell line e.g., a hybridoma or a CHO cell line
- an antibody binds to an epitope within any M2 amino acid sequence, for example, SLLTEVETPIRNEWGCRCNDSSD (SEQ ID NO:2), SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3),
- SLLTEVETPIRNEWECRCNGSSD SEQ ID NO:4
- SLPTEVETPIRNEWGCRCNDSSD SEQ ID NO. 5
- SLLTEVETPIRNEWGCRCNGSSD SEQ ID NO:6
- SLLTEVDTLTRNGWGCRCSDSSD SEQ IDNO-.7
- SLLTEVETPIRKEWGCNCSDSSD SEQ ID NO: 8
- SLLTEVETLIRNGWGCRCSDSSD SEQ ID NO:9
- SLLTEVETLTKNGWGCRCSDSSD SEQ ID NO: 10
- SLLTEVETPIRSEWGCRYNDSSD SEQ ID NO: 11
- SLLTEVETPTRNGWECKCSDSSD SEQ ID NO: 12
- SLLTEVETHTRNGWECKCSDSSD SEQ ID NO: 13
- SLLTEVKTPTRNGWECKCSDSSD SEQ ID NO: 14
- SLLTEVETLTRNGWGCRCSDSSD SEQ ID NO: 15
- SLLTEVETPTRDGWECKCSDSSD SEQ ID NO: 16
- SLLTEVETPTRNGWGCRCSDSSD SEQ ID NO: 17
- SLLTEVETPTRNGWECKCNDSSD SEQ ID NO: 18
- SLLTEVETLTRNGWECKCSDSSD SEQ ID NO: 19
- SLLTEVETPIRNEWGCKCNDSSD SEQ ID NO. 20
- SFLTEVETPIRNEWGCRCNGSSD SEQ ID NO.
- SLLTEVETPTRNGWECRCNDSSD SEQ ID NO:22
- SLLTEVETPIRKGWECNCSDSSD SEQ ID NO:23
- SLLTEVETPTRNEWECRCSDSSD SEQ ID NO:24
- SLLTGVETHTRNGWGCKCSDSSD SEQ ID NO:25
- SLLPEVETHTRNGWGCRCSDSSD SEQ ID NO:26
- LLTEVETPIR SEQ ID NO: 1).
- Antibodies of the invention further include human, humanized and chimeric antibodies that bind to a minimal binding sequence of M2 protein.
- an antibody binds to a minimal binding sequence within LLTEVETPIR (SEQ ID NO:1).
- a minimal binding sequence for antibody binding is LLTEVETPIR (SEQ ID NO:1).
- a minimal binding sequence for human M2 antibody is the same or substantially the same as LLTEVETPIR (SEQ ID NO:1).
- human M2 antibody binds to a minimal binding sequence that is LLTEVETPIR (SEQ ID NO:1).
- Still additional aspects include M2 antibodies that bind to a minimal binding sequence within any of SLLTEVETPIRNEWGCRCNDSSD (SEQ ID NO:2), SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3), SLLTEVETPIRNEWECRCNGSSD (SEQ ID NO:4), SLPTEVETPIRNEWGCRCNDSSD (SEQ ID NO:5), SLLTEVETPIRNEWGCRCNGSSD (SEQ ID N0:6), SLLTEVDTLTRNGWGCRCSDSSD (SEQ ID NO:7), SLLTEVETPIRKEWGCNCSDSSD (SEQ ID NO:8), SLLTEVETLIRNGWGCRCSDSSD (SEQ IDN0:9), SLLTEVETLTKNGWGCRCSDSSD (SEQ ID NO: 10), SLLTEVETPIRSEWGCRYNDSSD (SEQ ID NO: 11), SLLTEVETPTRNGWECKCSDSSD (SEQ ID NO: 12), SLLTEVETHTRNGWECKCSDS
- SLLTEVETLTRNGWECKCSDSSD (SEQ ID NO: 19), SLLTEVETPIRNEWGCKCNDSSD (SEQ ID NO:20), SFLTEVETPIRNEWGCRCNGSSD (SEQ ID N0:21 ),
- Antibodies of the invention additionally include human, humanized and chimeric antibodies having a function or activity as the exemplified antibodies produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No.
- an antibody has an EC50 less than 2.0 to 3.0, 1.0 to 2.0, 0.5 to 1.0, 0.1 to 0.5 or less than 0.1 ⁇ g/ml (e.g., 0.05 to 0.1 ⁇ g/ml) for inhibiting influenza virus infection of MDCK cells, as determined by a cell based-ELISA assay.
- an antibody has an EC50 less than 2.0 to 3.0, 1.0 to 2.0, 0.5 to 1.0, 0.1 to 0.5 or less than 0.1 ⁇ g/ml (e.g., 0.05 to 0.1 ⁇ g/ml) for inhibiting M2 binding to MDCK cells, as determined by a cell based-ELISA assay.
- influenza virus is influenza A virus, such as A/PR/8/34 (HlNl) or A/HK/1/68 (H3N2) strain/isolate, or other subtype, such as HlNl, H2N2, H3N2, H5N1, H9N2, H2N1, H4N6, H6N2, H7N2, H7N3, H4N8, H5N2, H2N3, Hl 1N9, H3N8, H1N2, Hl 1N2, Hl 1N9, H7N7, H2N3,H6N1,H13N6,H7N1,HIlNl,H7N2orH5N3.
- HlNl such as A/PR/8/34 (HlNl) or A/HK/1/68 (H3N2) strain/isolate, or other subtype, such as HlNl, H2N2, H3N2, H5N1, H9N2, H2N1, H4N6, H6N2, H7N2, H7N3, H4N8, H5N2, H
- Antibodies of the invention further include human, humanized and chimeric antibodies that bind to two or more M2 proteins having different amino acid sequences (e.g., having different extracellular/ecto- domain sequences of M2, i.e., M2e), which may optionally be present on different influenza viruses (e.g., strains/isolates or subtypes).
- M2e extracellular/ecto- domain sequences of M2, i.e., M2e
- influenza viruses e.g., strains/isolates or subtypes.
- the antibody binds to at least a part of an M2 extracellular/ecto- domain sequence, M2e.
- an M2e sequence includes or consists of the amino acid sequence SLLTEVETPIRNEWGCRCNDSSD (SEQ ID NO:2), a subsequence thereof or an amino acid variant thereof (e.g., an amino acid substitution, insertion, deletion or addition), such as SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3).
- an M2e sequence includes or consists of an amino acid sequence selected from: SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3), SLLTEVETPIRNEWECRCNGSSD (SEQ ID NO:4), SLPTEVETPIRNEWGCRCNDSSD (SEQ ID NO:5), SLLTEVETPIRNEWGCRCNGSSD (SEQ ID NO:6), SLLTEVDTLTRNGWGCRCSDSSD (SEQ ID NO:7), SLLTEVETPIRKEWGCNCSDSSD (SEQ ID NO:8), SLLTEVETLIRNGWGCRCSDSSD (SEQ ID NO:9), SLLTEVETLTKNGWGCRCSDSSD (SEQ ID NO: 10), SLLTEVETPIRSEWGCRYNDSSD (SEQ ID NO: 11), SLLTEVETPTRNGWECKCSDSSD (SEQ ID NO: 12), SLLTEVETHTRNGWECKCSDSSD (SEQ ID NO: 13), SLLTEVKTPTRNGWECKCS
- SLLTEVETLTRNGWGCRCSDSSD SEQ ID NO: 15
- SLLTEVETPTRDGWECKCSDSSD SEQ ID NO: 16
- SLLTEVETPTRNGWGCRCSDSSD SEQ ID NO: 17
- SLLTEVETPTRNGWECKCNDSSD SEQ ID NO.
- antibodies of the invention include those that have been modified to form oligomers, e.g., through the covalent attachment of an oligomerization domain (e.g., leucine zipper motif) or via a cross-linking agent (e.g., chemical cross linker).
- an oligomerization domain e.g., leucine zipper motif
- a cross-linking agent e.g., chemical cross linker
- Antibodies of the invention further include one or more heterologous domains that impart a distinct function or activity on an antibody that binds M2.
- Antibodies include an amino acid heterologous domain when one or more amino acids are distinct from the antibody (i.e., they are not a part of the native antibody).
- a heterologous domain comprises a binding protein (e.g., receptor or ligand binding), an enzyme activity, a drug, an antiviral, a toxin, an immune-modulator, a detectable moiety or a tag.
- the binding protein comprises an antibody having a different binding specificity or affinity than a human, humanized or chimeric antibody that specifically binds to influenza protein M2.
- the invention further provides multi-specific and multi-functional antibodies (e.g., bispecific and bifunctional antibodies, such as antibodies that bind to two or more antigens or that have two or more functions or activities, respectively).
- Antibodies of the invention can bind to influenza protein M2, optionally present on one or more influenza strains/isolates or subtypes.
- the antibodies have one or more effects on M2 or influenza virus infectivity, replication, proliferation, titer, progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza, or susceptibility of influenza virus infection, i.e., anti-influenza virus activity.
- a human, humanized or chimeric antibody inhibits infection of a cell in vitro or in vivo, or inhibits influenza binding of a cell in vitro or in vivo, by one or more influenza strains/isolates or subtypes.
- a human, humanized or chimeric antibody reduces influenza virus titer or an amount of an influenza viral protein of one or more influenza strains/isolates or subtypes.
- a human, humanized or chimeric antibody inhibits or prevents increases in influenza virus titer or an amount of an influenza viral protein of one or more influenza strains/isolates or subtypes.
- a human, humanized or chimeric antibody protects a subject from infection or decreases susceptibility of the subject to infection by one or more influenza strains/isolates or subtypes.
- a human, humanized or chimeric antibody decreases progression, severity, frequency, duration or probability of one or more symptoms or complications associated with infection by one or more influenza strains/isolates or subtypes (e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death).
- human, humanized or chimeric antibody is administered systemically (e.g., intravenous injection, subcutaneous injection, intravenous infusion, intramuscular injection), or locally to mucosal tissue (e.g., nasal passages, sinuses, throat, larynx, esophagus, ear or ear canal) or lung of a subject.
- systemically e.g., intravenous injection, subcutaneous injection, intravenous infusion, intramuscular injection
- mucosal tissue e.g., nasal passages, sinuses, throat, larynx, esophagus, ear or ear canal
- influenza is influenza A
- an influenza A strain is selected from A/PR/8/34 (HlNl) or A/HK/1/68 (H3N2) strain/isolate, or subtype, such as HlNl, H2N2, H3N2, H5N1, H9N2, H2N1, H4N6, H6N2, H7N2, H7N3, H4N8, H5N2, H2N3, Hl 1N9, H3N8,H1N2,Hl1N2,Hl1N9,H7N7,H2N3,H6N1,H13N6,H7N1,HlINl,H7N2or H5N3.
- Host cells that express invention human, humanized and chimeric antibodies are also provided.
- Cells include but are not limited to bacteria, yeast, plant, animal (e.g., mammalian cells such as hybridoma cell lines and CHO cell lines) as well as whole organisms such as non-human animals and plants that express invention human, humanized or chimeric antibodies.
- Host cells can be used to produce antibodies, which optionally can be subsequently isolated or purified.
- Nucleic acids encoding antibodies of the invention are further provided.
- a nucleic acid encodes a heavy-chain sequence or a light-chain sequence as set forth in Example 1 (e.g., SEQ ID NOs:34, 35 and 37), and subsequences thereof (e.g., variable heavy-chain or light-chain sequence).
- Nucleic acids include vectors for cloning or other genetic manipulation of the nucleic acid or for expression in solution, in a cell, or in any organism. Nucleic acids can therefore be used to produce antibodies in solution (e.g., in vitro translation), in a cell in vitro or in vivo, which optionally can be subsequently isolated or purified.
- compositions including antibodies of the invention are also provided.
- a composition includes human, humanized or chimeric antibody that binds influenza M2 protein and an antiviral agent.
- a composition includes a human, humanized or chimeric antibody that binds influenza M2 protein and an agent that inhibits one or more symptoms or complications associated with influenza infection (e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death).
- compositions including antibodies of the invention and a pharmaceutically acceptable carrier or excipient are provided.
- a carrier is suitable for administration systemically, regionally, or locally, to mucosal tissue (e.g., nasal passages, sinuses, throat, larynx, esophagus) or lung of a subject.
- kits that include one or more antibodies of the invention are also provided.
- a kit includes instructions for treating (prophylaxis or therapeutic), inhibiting, preventing, decreasing susceptibility to, or reducing progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza virus infection of a subject by one or more influenza strains/isolates or subtypes.
- a kit includes an article of manufacture, such as an aerosol, spray or squeeze bottle or other delivery means suitable for inhalation or nasal administration to a subject.
- the kit or article of manufacture includes an antiviral agent (e.g., an antibody or a drug) or an agent that inhibits one or more symptoms or complications associated with influenza infection.
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 effective to treat influenza infection of the subject.
- the antibody is administered substantially contemporaneously with or following infection of the subject, i.e., therapeutic treatment.
- the antibody provides a therapeutic benefit.
- a therapeutic benefit includes reducing or decreasing progression, severity, frequency, duration or probability of one or more symptoms or complications of influenza infection, virus titer, virus replication or an amount of a viral protein of one or more influenza strains.
- Symptoms or complications of influenza infection that can be reduced or decreased include, for example, chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death.
- a therapeutic benefit includes hastening or accelerating a subject's recovery from influenza infection.
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 effective to inhibit infection of the subject or reduce susceptibility of the subject to influenza infection by one or more influenza strains or isolates.
- the antibody is administered prior to (prophylaxis), substantially contemporaneously with or following infection of the subject.
- the antibody provides a therapeutic benefit.
- a therapeutic benefit includes reducing or decreasing onset or progression, severity, frequency, duration or probability of one or more symptoms or complications of influenza infection (e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death), virus titer or an amount of a viral protein of one or more influenza strains or isolates, or susceptibility of a subject to infection by one or more influenza strains or isolates.
- influenza infection e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death
- virus titer or an amount of a viral protein of one or more influenza strains or isolates, or susceptibility of a subject to infection by one or more influenza strains or isolates.
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 effective to prevent an increase in influenza virus titer, virus replication or an amount of an influenza viral protein of one or more influenza strains or isolates in the subject.
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 effective to protect the subject from infection, or effective to decrease susceptibility of the subject to infection, by one or more influenza strains/isolates or subtypes.
- the protection includes reducing or decreasing influenza infection or one or more symptoms or complications associated with influenza infection (e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death).
- influenza infection e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection, ear ache or death.
- Methods of the invention can be practiced with antibody having the binding specificity or binding affinity of an antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA.
- Antibodies can be included in a pharmaceutically acceptable carrier or excipient prior to administration to a subject. Methods that include administration to a subject include systemic, regional or local delivery.
- influenza is influenza A
- influenza A is selected from as A/PR/8/34 (HlNl) or A/HK/1/68 (H3N2) strain/isolate, or other subtype, such as HlNl, H2N2, H3N2, H5N1, H9N2, H2N1, H4N6, H6N2, H7N2, H7N3, H4N8, H5N2, H2N3, Hl 1N9, H3N8, H1N2, Hl 1N2, Hl 1N9, H7N7, H2N3, H6N1, H13N6, H7N1, HIlNl, H7N2 and H5N3.
- a method includes, administering M2 or an immunogenic subsequence/fragment thereof to an animal (e.g., a non-human animal) capable of expressing human immunoglobulin; screening the animal for expression of human M2 antibody; selecting an animal that produces a human M2 antibody; isolating an antibody from the animal producing human M2 antibody; and determining whether the human M2 antibody binds to M2.
- an animal e.g., a non-human animal
- a method includes, administering M2 or an immunogenic subsequence/fragment thereof to an animal (e.g., a non-human animal) capable of expressing human immunoglobulin; screening the animal for expression of human M2 antibody; selecting an animal producing an human M2 antibody; isolating spleen cells from the animal that produces human M2 antibody; fusing the spleen cells with a myeloma cell to produce a hybridoma; and screening the hybridoma for expression of a human M2 antibody.
- the M2 or immunogenic subsequence/fragment thereof includes or consists of an M2 extracellular/ecto-domain, M2e.
- M2e includes a minimal binding sequence for human M2 antibody that is the same or substantially the same as LLTEVETPIR (SEQ ID NO:1). In further aspects, an M2e includes a minimal binding sequence that is LLTEVETPIR (SEQ ID NO:1).
- a method includes, providing an animal (e.g., non-human animal) or cell that produces a human M2 antibody; and isolating an antibody from the animal or cell.
- a method includes, providing an animal (e.g., non-human animal) that produces a human M2 antibody; isolating spleen cells from the animal that produces human M2 antibody; fusing the spleen cells with a myeloma cell to produce a hybridoma; and screening the hybridoma for expression of a human M2 antibody.
- the animal or cell expresses an antibody having the binding specificity or the same or substantially the same binding affinity or anti-influenza virus activity as antibody produced by a hybridoma or a CHO cell line denoted as no. Z3G1 (ATCC Deposit No. PTA- 5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA, and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004,
- the animal or cell expresses an antibody having binding specificity for an M2 extracellular domain that includes a minimal binding sequence that is the same or substantially the same as LLTEVETPIR (SEQ ID NO: 1). In further aspects, the animal or cell expresses an antibody having binding specificity for an M2 extracellular domain that includes a minimal binding sequence that is LLTEVETPIR (SEQ ID NO:1). In still additional aspects, the animal or cells expresses an antibody that binds to a minimal binding sequence within any of
- SLLTEVETPIRNEWGCRCNDSSD (SEQ ID N0:2), SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3), SLLTEVETPIRNEWECRCNGSSD (SEQ ID NO:4), SLPTEVETPIRNEWGCRCNDSSD (SEQ ID NO:5), SLLTEVETPIRNEWGCRCNGSSD (SEQ ID NO:6), SLLTEVDTLTRNGWGCRCSDSSD (SEQ ID NO:7), SLLTEVETPIRKEWGCNCSDSSD (SEQ ID NO:8), SLLTEVETLIRNGWGCRCSDSSD (SEQ ID NO:9), SLLTEVETLTKNGWGCRCSDSSD (SEQ ID NO: 10), SLLTEVETPIRSEWGCRYNDSSD (SEQ ID NO: 11), SLLTEVETPTRNGWECKCSDSSD (SEQ ID NO:12), SLLTEVETHTRNGWECKCSDSSD (SEQ ID NO:13), SLLTEVKTPTRNGWECKCS
- SLLTEVETLTRNGWECKCSDSSD SEQ ID NO: 19
- SLLTE VETPIRNE WGCKCNDS SD SEQ ID NO:20
- SFLTEVETPIRNEWGCRCNGSSD SEQ ID NO:21
- SLLTEVETPTRNGWECRCNDSSD SEQ ID NO:22
- SLLTEVETPIRKGWECNCSDSSD SEQ ID NO:23
- SLLTEVETPTRNEWECRCSDSSD SEQ ID NO:24
- SLLTGVETHTRNGWGCKCSDSSD SEQ ID NO:25
- SLLPEVETHTRNGWGCRCSDSSD SEQ ID NO:26
- Figure 1 shows that antibody no. Z3G1 binding to M2 on surface of A/PR/8/34 infected cells is specifically inhibited by soluble M2 peptide, but not irrelevant protein, BSA. Antibody binding to A/PR/8/34 infected MDCK cells was measured by ELISA.
- Figure 2 shows prophylactic protection of animals from influenza virus infection- induced death by administration of M2 antibody Z3G1 (100 ⁇ g, 30 ⁇ g or 10 ⁇ g/mouse), or an isotype control antibody (HSA) at 100 ⁇ g/mouse.
- Z3G1 or HSA was administered one day before infection of a lethal dose of A/HK/1/68. Survival rate was measured from days 1 to 23 post infection.
- Figure 3 shows prophylactic effect of administration of M2 antibody Z3G1 on the inhibition of virus replication in the lung of infected animals.
- Z3G1 or HSA (isotype control) was administered at 30 ⁇ g/mouse 1 day before a sub-lethal dose of A/HKl/68.
- Lung virus titer was measured by a plaque assay at the indicated time points.
- Figure 4 shows complement dependent cytotoxicity (CDC) activity of anti-M2 antibodies Z3G1, L66, N547 and C40G1 compared to a control antibody (HSA).
- CDC complement dependent cytotoxicity
- Figure 5 shows antibody-dependent cell-mediated cytotoxicity (ADCC) activity of anti-M2 antibodies Z3G1, L66, N547 and C40G1 compared to a control antibody (HSA).
- ADCC antibody-dependent cell-mediated cytotoxicity
- FIG. 6 shows that M2 antibody Z3G1 protects NK depleted mice from a lethal dose of A/HK/1/68 challenge.
- NK cell depleted (NK ) or non depleted (NK+) mice were administered anti M2 antibody Z3G1 or an isotype control antibody (HSA) at a dose of 100 ⁇ g/mouse one day before infection with a lethal dose of A/HK/1/68. Survival rate was observed from day 1 to day 23 post infection.
- HSA isotype control antibody
- FIG. 7 shows that M2 antibody Z3G1 protects mice from a lethal dose of A/HK/1/68 challenge at a therapeutic regimen.
- Mice were administered anti M2 antibody Z3G1 at doses of 200 ⁇ g, 100 ⁇ g or 30 ⁇ g per mouse or an isotype control antibody (HSA) at 200 ⁇ g per mouse one day after infection with a lethal dose of A/HK/1/68. Survival rate was observed from day 1 to day 23 post infection.
- HSA isotype control antibody
- the invention is based at least in part on human, humanized and chimeric anti-M2 monoclonal antibodies.
- Several of the invention antibodies have broad reactivity against various M2 extracellular domain sequences based upon divergent influenza A virus strains. Passive transfer of an invention human anti-M2 monoclonal antibody protected animals from a lethal dose challenge of influenza A/HK/1/68, in both prophylactic (prior to virus infection) and therapeutic (following virus infection) mouse influenza models.
- Antibodies of the invention are therefore useful for treating a broad array of influenza strains or isolates.
- invention human antibodies are less likely to induce hypersensitivity from repeated administration and are more likely to remain in a subject's (e.g., a human) body for a longer period of time.
- M2e comprises the amino acid sequence SLLTEVETPIRNEWGCRCNDSSD (SEQ ID NO:2), a portion thereof or an amino acid variant thereof (e.g., an amino acid substitution, insertion, deletion or addition), such as, for example, SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3).
- an M2e has an amino acid substitution selected from: SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3), SLLTEVETPIRNEWECRCNGSSD (SEQ ID NO:4), SLPTEVETPIRNEWGCRCNDSSD (SEQ ID NO:5),
- SLLTEVETPIRNEWGCRCNGSSD SEQ ID NO:6
- SLLTEVETPIRKEWGCNCSDSSD SEQ ID NO:8
- SLLTEVETLIRNGWGCRCSDSSD SEQ ID NO:9
- SLLTEVETLTKNGWGCRCSDSSD SEQ ID NO:10
- SLLTEVETPIRSEWGCRYNDSSD SEQ ID NO:11
- SLLTEVETPTRNGWECKCSDSSD SEQ ID NO:12
- SLLTEVETHTRNGWECKCSDSSD SEQ ID NO: 13
- SLLTEVKTPTRNGWECKCSDSSD SEQ ID NO: 14
- SLLTEVETLTRNGWGCRCSDSSD SEQ ID NO: 15
- SLLTEVETPTRDGWECKCSDSSD SEQ ID NO: 16
- SLLTEVETPTRNGWGCRCSDSSD SEQ ID NO: 17
- SLLTEVETPTRNGWECKCNDSSD SEQ ID NO: 18
- SLLTEVETLTRNGWECKCSDSSD SEQ ID NO: 19
- SLLTE VETPIRNE WGCKCNDS SD SEQ ID NO:20
- SFLTEVETPIRNEWGCRCNGSSD SEQ ID N0:21
- SLLTEVETPTRNGWECRCNDSSD SEQ ID NO:22
- SLLTEVETPIRKGWECNCSDSSD SEQ ID NO:23
- SLLTEVETPTRNEWECRCSDSSD SEQ ID NO:24
- SLLTGVETHTRNGWGCKCSDSSD SEQ ID NO:25
- SLLPEVETHTRNGWGCRCSDSSD SEQ ID NO:26
- antibody refers to a protein that binds to other molecules (antigens) via heavy and light chain variable domains, V H and V L , respectively.
- Antibody refers to any polyclonal or monoclonal immunoglobulin molecule, such as IgM, IgG, IgA, IgE, IgD, and any subclass thereof, such as IgGi, IgG 2 , IgG 3 , IgG 4 , etc.
- antibody also means a functional fragment or subsequence of immunoglobulin molecules, such as, for example, Fab, Fab', F(ab') 2 , Fv, Fd, scFv and sdFv, unless otherwise expressly stated.
- M2 antibody or “anti-M2 antibody” means a polyclonal or monoclonal antibody that specifically binds to influenza M2 protein, such as M2 extracellular/ecto- domain, M2e. Specific binding is that which is selective for an epitope present in M2 protein.
- binding to proteins other than M2 is such that the binding does not significantly interfere with detection of M2, unless such other proteins have a similar or the same epitope or minimal binding sequence as in M2 protein so as to be recognized by an M2 antibody.
- Selective binding can be distinguished from non-selective binding using assays known in the art.
- isolated when used as a modifier of an invention composition (e.g., antibodies, modified forms, subsequences, nucleic acids encoding same, etc.), means that the compositions are made by the hand of man or are separated, at least in part, from their naturally occurring in vivo environment. Generally, isolated compositions are substantially free of one or more materials with which they normally associate with in nature, for example, one or more protein, nucleic acid, lipid, carbohydrate, cell membrane.
- isolated does not exclude alternative physical forms, such as polypeptide multimers, post-translational modifications (e.g., phosphorylation, glycosylation) or derivatized forms.
- an “isolated” composition such as an antibody can also be “substantially pure” when free of most or all of the materials with which it typically associates with in nature.
- an isolated antibody that also is substantially pure does not include polypeptides or polynucleotides present among millions of other sequences, such as antibodies of an antibody library or nucleic acids in a genomic or cDNA library, for example.
- a “substantially pure” molecule can be combined with one or more other molecules. Thus, “substantially pure” does not exclude combinations of compositions.
- Exemplary M2 antibodies of the invention are denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA 5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- Exemplary heavy-chain sequence and light-chain sequence is an amino acid sequence set forth in Example 1 (e.g., SEQ ID NOs:34, 35 and 37).
- a “monoclonal” antibody is therefore defined herein structurally, and not the method by which it is produced.
- a specific name, numeral or other designation given to a hybridoma or other cell line e.g., CHO
- CHO that produces an antibody, such as no. Z3G1, N547, L66 and C40G1
- human when used in reference to an antibody, means that the amino acid sequence of the antibody is fully human.
- a “human M2 antibody” or “human anti-M2 antibody” therefore refers to an antibody having human immunoglobulin amino acid sequences, i.e., human heavy and light chain variable and constant regions that specifically bind to M2. That is, all of the antibody amino acids are human or exist in a human antibody.
- an antibody that is non-human may be made fully human by substituting the non-human amino acid residues with amino acid residues that exist in a human antibody.
- Amino acid residues present in human antibodies, CDR region maps and human antibody consensus residues are known in the art (see, e.g., Kabat, Sequences of Proteins of Immunological Interest, 4th Ed., U.S. Department of Health and Human Services. Public Health Service (1987); and Chothia and Lesk, J. MoI. Biol. 186:651 (1987)).
- a consensus sequence of human V H subgroup III, based on a survey of 22 known human V H III sequences, and a consensus sequence of human V L kappa-chain subgroup I, based on a survey of 30 known human kappa I sequences is described in Padlan MoI. Immunol. 31:169 (1994); and Padlan MoI. Immunol. 28:489 (1991)).
- Human antibodies therefore include antibodies in which one or more amino acid residues have been substituted with one or more amino acids present in any other human antibody.
- humanized when used in reference to an antibody, means that the amino acid sequence of the antibody has non-human amino acid residues (e.g., mouse, rat, goat, rabbit, etc.) of one or more determining regions (CDRs) that specifically bind to the desired antigen (e.g., M2) in an acceptor human immunoglobulin molecule, and one or more human amino acid residues in the Fv framework region (FR), which are amino acid residues that flank the CDRs.
- CDRs determining regions
- FR Fv framework region
- Human framework region residues of the immunoglobulin can be replaced with corresponding non-human residues. Residues in the human framework regions can therefore be substituted with a corresponding residue from the non-human CDR donor antibody to alter, generally to improve, antigen affinity or specificity, for example.
- a humanized antibody may include residues, which are found neither in the human antibody nor in the donor CDR or framework sequences.
- a framework substitution at a particular position that is not found in a human antibody or the donor non- human antibody may be predicted to improve binding affinity or specificity human antibody at that position.
- Antibody framework and CDR substitutions based upon molecular modeling are well known in the art, e.g., by modeling of the interactions of the CDR and framework residues to identify framework residues important for antigen binding and sequence comparison to identify unusual framework residues at particular positions (see, e.g., U.S. Patent No. 5,585,089; and Riechmann et al., Nature 332:323 (1988)).
- Antibodies referred to as "primatized” in the art are within the meaning of "humanized” as used herein, except that the acceptor human immunoglobulin molecule and framework region amino acid residues may be any primate amino acid residue (e.g., ape, gibbon, gorilla, chimpanzees orangutan, macaque), in addition to any human residue.
- chimeric and grammatical variations thereof, when used in reference to an antibody, means that the amino acid sequence of the antibody contains one or more portions that are derived from, obtained or isolated from, or based upon two or more different species. That is, for example, a portion of the antibody may be human (e.g., a constant region) and another portion of the antibody may be non-human (e.g., a murine heavy or light chain variable region).
- a chimeric antibody is a molecule in which different portions of the antibody are of different species origins. Unlike a humanized antibody, a chimeric antibody can have the different species sequences in any region of the antibody.
- M2 refers to all or a portion of an M2 protein sequence (e.g., a subsequence such as the extracellular domain) isolated from, based upon or present in any naturally occurring or artificially produced influenza virus strain or isolate.
- M2 and the like include naturally occurring M2 sequence variants produced by mutation during the virus life-cycle or produced in response to a selective pressure (e.g., drug therapy, expansion of host cell tropism or infectivity, etc.), as well as recombinantly or synthetically produced M2 sequences.
- M2e is used to refer to the extracellular portion or "ectodomain" of the M2 sequence.
- M2 peptide refers to the extracellular amino acid sequence or ectodomain
- M2e of full length M2 protein.
- An exemplary M2e consists of the sequence SLLTEVETPIRNEWGCRCNDSSD (SEQ ID NO:2). Additional exemplary M2e sequences consist of: SLLTEVETPIRNEWECRCNGSSD (SEQ ID NO:4),
- SLPTEVETPIRNEWGCRCNDSSD (SEQ ID NO:5), SLLTEVETPIRNEWGCRCNGSSD (SEQ ID NO:6), SLLTEVDTLTRNGWGCRCSDSSD (SEQ ID NO:7), SLLTEVETPIRKEWGCNCSDSSD (SEQ ID NO:8), SLLTEVETLIRNGWGCRCSDSSD (SEQ ID NO:9), SLLTEVETLTKNGWGCRCSDSSD (SEQ ID NO: 10),
- SLLTEVETPIRSEWGCRYNDSSD SEQ ID NO: 11
- SLLTEVETPTRNGWECKCSDSSD SEQ ID NO:12
- SLLTEVETHTRNGWECKCSDSSD SEQ ID NO:13
- SLLTEVKTPTRNGWECKCSDSSD SEQ ID NO:14
- SLLTEVETLTRNGWGCRCSDSSD SEQ ID NO: 15
- SLLTEVETPTRDGWECKCSDSSD SEQ ID NO: 16
- SLLTEVETPTRNGWGCRCSDSSD SEQ ID NO: 17
- SLLTEVETPTRNGWECKCNDSSD SEQ ID NO: 18
- SLLTEVETLTRNGWECKCSDSSD (SEQ ID NO: 19), SLLTEVETPIRNEWGCKCNDSSD (SEQ ID NO:20), SFLTEVETPIRNEWGCRCNGSSD (SEQ ID NO:21), SLLTEVETPTRNGWECRCNDSSD (SEQ ID NO:22), SLLTEVETPIRKGWECNCSDSSD (SEQ ID NO:23), SLLTEVETPTRNEWECRCSDSSD (SEQ ID NO:24), SLLTGVETHTRNGWGCKCSDSSD (SEQ ID NO:25) and SLLPEVETHTRNGWGCRCSDSSD (SEQ ID NO:26).
- M2 antibodies of the invention include antibodies having kappa or lambda light chain sequences, either full length as in naturally occurring antibodies, mixtures thereof (i.e., fusions of kappa and lambda chain sequences), and subsequences/fragments thereof, as described herein.
- Naturally occurring antibody molecules contain two kappa and two lambda light chains. The primary difference between kappa and lambda light chains is in the sequences of the constant region.
- M2 antibodies of the invention can belong to any antibody class or subclass.
- Exemplary subclasses for IgG are IgGj, IgG 2 , IgG 3 and IgG 4 .
- Invention antibodies include antibodies having either or both of antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-mediated cytotoxicity (CDC) activities, which are expected for effective therapeutic or prophylactic treatment of influenza A (i.e., killing influenza A infected cells or influenza A virus).
- An exemplary M2 antibody of IgG subclass IgGi Z3G1, ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) exhibits both ADCC and CDC activities (see, for example, Example 5).
- M2 antibodies include antibodies having the binding specificity of the M2 antibodies exemplified herein, e.g., having the binding specificity of an antibody denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA 5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- an M2 antibody has a heavy (H) or light (L) chain sequence, or a subsequence thereof, as set forth in any of nos. Z3G1 (ATCC Deposit No.
- binding specificity when used in reference to an antibody, means that the antibody specifically binds to all or a part of the same antigenic epitope as the reference antibody.
- an M2 antibody having the binding specificity of the antibody denoted as Z3G1 specifically binds to all or a part of the same epitope as the M2 antibody denoted as Z3G1.
- Z3G1 antibodies that bind to the same epitope or a part of the same epitope as an antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) are provided.
- a cell line e.g., a hybridoma
- a part of an antigenic epitope means a subsequence or a portion of the epitope. For example, if an epitope includes 8 contiguous amino acids, a subsequence and, therefore, a part of an epitope may be 7 or fewer amino acids within this 8 amino acid sequence epitope. In addition, if an epitope includes non-contiguous amino acid sequences, such as a 5 amino acid sequence and an 8 amino acid sequence which are not contiguous with each other, but form an epitope due to protein folding, a subsequence and, therefore, a part of an epitope may be either the 5 amino acid sequence or the 8 amino acid sequence alone.
- Antibodies having the same or substantially the same binding specificity of the M2 antibodies exemplified herein compete with the binding of no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- An antibody of the invention having binding specificity of the M2 antibodies exemplified herein may be characterized by any method known in the art for determining competitive binding, for example, the immunoassays disclosed herein.
- the antibodies will vary in their ability to compete for binding to M2.
- Such antibodies with greater or less affinity may have the same or substantially the same binding specificity as the exemplified antibodies.
- the antibody competitively inhibits binding by at least 95%, at least 90%, at least 85%, at least 80%, at least 75%, at least 70%, at least 65%, at least 60%, at least 55%, at least 50%, at least 45%, at least 40%, at least 35%, or at least 30%, or less.
- an antibody having the same binding specificity as antibody produced by a cell line denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) binds to at least one of the M2 variant sequences to which antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No.
- an antibody having substantially the same binding specificity as antibody produced by a cell line denoted as no. Z3G1 (ATCC Deposit No. PTA- 5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No.
- PTA-5968 deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- a cell line e.g., a hybridoma or a CHO cell line
- an antibody having substantially the same binding specificity as antibody produced by a cell line denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No.
- PTA-5968 deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- a cell line e.g., a hybridoma or a CHO cell line
- PTA-5968 deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- Epitopes typically are short amino acid sequences, e.g. about five to 15 amino acids in length. Epitopes may be identified, as set forth in Example 3. Systematic techniques for identifying epitopes are also known in the art and are described, for example, in U.S. Patent No. 4,708,871. Briefly, a set of overlapping oligopeptides derived from an M2 antigen (e.g., M2e) may be synthesized and bound to a solid phase array of pins, with a unique oligopeptide on each pin.
- M2 antigen e.g., M2e
- the array of pins may comprise a 96-well microtiter plate, permitting one to assay all 96 oligopeptides simultaneously, e.g., for binding to an anti-M2 monoclonal antibody.
- phage display peptide library kits (New England BioLabs) are commercially available for epitope mapping. Using these methods, binding affinity for every possible subset of consecutive amino acids may be determined in order to identify the epitope that a particular antibody binds. Epitopes may also be identified by inference when epitope length peptide sequences are used to immunize animals from which antibodies that bind to the peptide sequence are obtained. Continuous epitopes can also be predicted using computer programs, such as BEPITOPE, known in the art (Odorico et al., J. MoI. Recognit. 16:20 (2003))
- An exemplary epitope of M2e for Z3G1 is within an amino acid sequence, LLTEVETPIR (SEQ ID NO:1).
- Exemplary epitope for Z3G1 is also within an amino acid sequence, SLLTEVETPIRSEWGCRCNDSGD (SEQ ID NO:3), SLLTEVETPIRNEWECRCNGSSD (SEQ ID NO:4), SLPTEVETPIRNEWGCRCNDSSD (SEQ ID NO:5), SLLTEVETPIRNE WGCRCNGS SD (SEQ ID NO:6), SLLTEVDTLTRNGWGCRCSDSSD (SEQ ID NO:7), SLLTEVETPIRKEWGCNCSDSSD (SEQ ID NO:8), SLLTEVETLIRNGWGCRCSDSSD (SEQ ID NO:9), SLLTEVETLTKNGWGCRCSDSSD (SEQ ID NO: 10), SLLTEVETPIRSEWGCRYNDSSD (SEQ ID NO: 11), SLLTEVETPTRNGWECKCSDSSD (SEQ ID
- SLLTEVETLTRNGWGCRCSDSSD SEQ ID NO: 15
- SLLTEVETPTRDGWECKCSDSSD SEQ ID NO: 16
- SLLTEVETPTRNGWGCRCSDSSD SEQ ID NO: 17
- SLLTEVETPTRNGWECKCNDSSD SEQ ID NO: 18
- SLLTEVETLTRNGWECKCSDSSD (SEQ ID NO: 19), SLLTEVETPIRNEWGCKCNDSSD (SEQ ID NO:20), SFLTEVETPIRNE WGCRCNGS SD (SEQ ID NO:21), SLLTEVETPTRNGWECRCNDSSD (SEQ ID NO:22), SLLTEVETPIRKGWECNCSDSSD (SEQ ID NO:23), SLLTEVETPTRNEWECRCSDSSD (SEQ ID NO:24), SLLTGVETHTRNGWGCKCSDSSD (SEQ ID NO:25) and SLLPEVETHTRNGWGCRCSDSSD (SEQ ID NO:26).
- minimal binding sequence when used in reference to an M2 peptide, means a contiguous amino acid sequence of M2 peptide (e.g., SEQ ID NO:1) that is minimally required for binding of the anti-M2 antibody to M2 peptide.
- a minimal binding sequence is determined by creating various peptides consisting of N-terminal truncated M2 peptide, and C-terminal truncated M2 peptide, and measuring antibody binding to these peptides based on the method described in Example 3.
- a minimal binding sequence represents the N-terminal and C-terminal borders of a sequence within M2 peptide that is minimally required for antibody binding to the peptide.
- exemplary minimal binding sequences include for Z3G1, LLTEVETPIR (SEQ ID NO: 1).
- a minimal binding sequence contains all or a part of an epitope to which the M2 antibody paratope binds, sufficient to mediate anti-M2 antibody binding.
- An epitope contains 3-4 or more amino acid sequences, contiguous or non-contiguous, within a minimal binding sequence, that mediates antibody binding.
- the same minimal binding sequence means that the minimal binding sequence of an antibody is identical to that of a reference antibody.
- an M2 antibody having the same minimal binding sequence as antibody denoted as Z3G1 specifically binds to the same minimal binding sequence as the M2 antibody denoted as Z3G1.
- substantially same minimal binding sequence means a minimal binding sequence of an antibody having a single amino acid addition or deletion at N-terminus and/or C-terminus as compared to the minimal binding sequence of the reference antibody.
- an M2 antibody having substantially the same minimal binding sequence as antibody denoted as Z3G1 specifically binds to a minimal binding sequence having a single amino acid addition or deletion at N-terminus and/or C-terminus relative to the minimal binding sequence for M2 antibody denoted as Z3G1.
- the minimal binding sequence for Z3G1 is LLTEVETPIR (SEQ ID NO:1).
- an antibody having the same minimal binding sequence as Z3G1 will have the LLTEVETPIR (SEQ ID NO:1) minimal binding sequence.
- a substantially the same minimal binding sequence of Z3G1 could be, for example, LTEVETPI (SEQ ID NO:27), LLTEVETPI (SEQ ID NO:28), SLLTEVETPIR (SEQ ID NO:29), LLTEVETPIRN (SEQ ID NO:30), LTEVETPIR (SEQ ID NO:31), etc.
- an antibody that binds to substantially the same minimal binding sequence as Z3G1 could therefore bind to, for example, any of LTEVETPI (SEQ ID NO:27), LLTEVETPI (SEQ ID NO:28), SLLTEVETPIR (SEQ ID NO:29), LLTEVETPIRN (SEQ ID NO:30), LTEVETPIR (SEQ ID NO:31), etc.
- the invention therefore provides antibodies having the same or substantially the same minimal binding sequence as anti-M2 antibodies exemplified herein, Z3G1.
- anti-M2 antibodies that have the same or substantially same minimal binding sequence as another anti-M2 antibody
- antibodies that compete for the binding of the antibody to M2 peptide are screened using a conventional competition binding assay. Screened antibodies are selected that have the same or substantially same minimal binding sequence as a reference antibody, as described in Example 3.
- Z3G1 at the first step, antibodies that compete with Z3G1 in the binding to M2 peptide are screened among anti-M2 antibodies using a competition binding assay.
- antibodies that compete for Z3G1 binding to M2 are selected on the ability to bind to the same or substantially same minimal binding sequence as Z3G1, namely LLTEVETPIR (SEQ ID NO:1) minimal binding sequence, or a substantially the same minimal binding sequence, for example, LTEVETPI (SEQ ID NO:27), LLTEVETPI (SEQ ID NO:28), SLLTEVETPIR (SEQ ID NO:29), LLTEVETPIRN (SEQ ID NO:30), LTEVETPIR (SEQ ID NO:31), etc.
- Invention M2 antibodies also include human, humanized and chimeric antibodies having the same binding affinity and having substantially the same binding affinity as the M2 antibodies exemplified herein.
- an M2 antibody of the invention may have an affinity greater or less than 2-5, 5-10, 10-100, 100-1000 or 1000-10,000 fold affinity or any numerical value or range or value within such ranges, as the reference antibody.
- the invention provides M2 antibodies having the same binding affinity and having substantially the same binding affinity as the antibodies denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No.
- Binding affinity can be dete ⁇ nined by association (K a ) and dissociation (Ka) rate.
- Equilibrium affinity constant, K is the ratio of K a /K d .
- the term "the same,” when used in reference to antibody binding affinity means that the dissociation constant (Kd) is within about 1 to 100 fold of the reference antibody (1-100 fold greater affinity or 1-100 fold less affinity, or any numerical value or range or value within such ranges, than the. reference antibody).
- the term “substantially the same” when used in reference to antibody binding affinity means that the dissociation constant (Ka) is within about 5 to 5000 fold of the reference antibody (5-5000 fold greater affinity or 5-5000 fold less affinity than the reference antibody).
- association constant (K 3 ) when used in reference to association constant (K 3 ) is within about 1 to 100 fold of the reference antibody (within 1-100 fold greater or 1- 100 fold less than the association constant, K 3 , of the reference antibody).
- substantially the same when used in reference to association constant (K a ), means that the association constant is within about 5 to 5000 fold greater or less than the association constant, K 3 , of the reference antibody (5-5000 fold greater or 5-5000 fold less than the reference antibody).
- At least a part of binding affinity can be when the antibody has less affinity, e.g., 1-3- fold, 1-5-fold, 2-5 fold, 5-10-fold, 5-15-fold, 10-15-fold, 15-20-fold, 20-25-fold, 25-30-fold, 30-50-fold, 50-100 fold, 100-500-fold 500- 1000-fold, 1000-5000-fold, or less (e.g., K d ), or any numerical value or range of values within such ranges.
- affinity e.g., 1-3- fold, 1-5-fold, 2-5 fold, 5-10-fold, 5-15-fold, 10-15-fold, 15-20-fold, 20-25-fold, 25-30-fold, 30-50-fold, 50-100 fold, 100-500-fold 500- 1000-fold, 1000-5000-fold, or less (e.g., K d ), or any numerical value or range of values within such ranges.
- At least a part of binding affinity can be when the antibody has more affinity, e.g., 1-3-fold, 1-5-fold, 2-5 fold, 5-10-fold, 5-15- fold, 10-15-fold, 15-20-fold, 20-25-fold, 25-30-fold, 30-50-fold, 50-100 fold, 100-500-fold 500-1000-fold, 1000-5000-fold, or more (e.g., K d ), or any numerical value or range of values within such ranges.
- affinity e.g., 1-3-fold, 1-5-fold, 2-5 fold, 5-10-fold, 5-15- fold, 10-15-fold, 15-20-fold, 20-25-fold, 25-30-fold, 30-50-fold, 50-100 fold, 100-500-fold 500-1000-fold, 1000-5000-fold, or more (e.g., K d ), or any numerical value or range of values within such ranges.
- K a and K d dissociation (K d ) rates can be measured using surface plasmon resonance (SPR) (Rich and Myszka, Curr. Opin. Biotechnol. 11:54 (2000); Englebienne, Analyst. 123:1599 (1998)). Instrumentation and methods for real time detection and monitoring of binding rates are known and are commercially available (BiaCore 2000, Biacore AB, Upsala, Sweden; and Malmqvist, Biochem. Soc. Trans. 27:335 (1999)).
- SPR surface plasmon resonance
- K d values for the exemplary antibodies set forth herein are defined as the antibody concentration required to saturate one half (50%) of the binding sites on the M2 antigen on the surface of either A/PR/8/34 or A/HK/1/68 infected MDCK cells.
- Additional antibodies included in the invention have a binding specificity of the antibodies denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3(Z3.16.25.1) (ATCC Deposit No.
- Antibodies further included in the invention bind to an epitope to which the antibodies denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) bind.
- Z3G1 ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- Z3.16.25.1 ATCC Deposit No. PTA-5968; deposited March 13, 2004, deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- Yet additional antibodies have an EC50 less than 2.0 to 3.0, 1.0 to 2.0, 0.5 to 1.0, 0.1 to 0.5 or less than 0.1 ⁇ g/ml (e.g., 0.05 to 0.1 ⁇ g/ml) for inhibiting influenza A virus infection of MDCK cells, as determined by a cell based- ELISA assay.
- human M2 antibodies include antibodies having at least a part of one or more anti-influenza activities of the M2 antibodies exemplified herein (e.g., inhibit influenza virus infection of a cell in vitro or in vivo, inhibit influenza virus proliferation or replication, decrease one or more symptoms or complications associated with influenza virus infection, decrease susceptibility to influenza virus infection, accelerate recovery from influenza virus infection, etc.).
- the invention provides M2 antibodies having at least a part of one or more anti-influenza activities of the antibodies denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) or no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- the term "activity,” when used in comparing an antibody to a reference antibody, means that the antibody has at least a part of an activity as the reference antibody, for example, binding affinity (e.g., Kd), binding specificity or anti-influenza activity.
- an antibody having an activity of the M2 antibody denoted as Z3G1 has at least a part of one or more activities of the M2 antibody denoted as Z3G1.
- the term "at least a part” means that the antibody may have less activity but the antibody retains at least a measurable or detectable amount of the activity of the reference M2 antibody, e.g., at least partial binding affinity for M2, at least partial anti-influenza activity, etc.
- Invention human M2 antibodies having at least a part of one or more anti-influenza activities of the M2 antibodies exemplified herein may also have a greater activity than a reference antibody, such as M2 antibodies exemplified herein.
- Antibodies having an activity of exemplified human M2 antibodies can be identified through various methods disclosed herein or known in the art. For example, using binding assay with plate-bound M2 peptide as a coating antigen (ELISA), binding assay to M2 protein on viral infected MDCK cells (cell based ELISA), and specific inhibition of antibody binding to M2 on the viral infected MDCK cells with M2 peptide (M2e). Additional assays include in vitro cell infectivity assays with influenza virus (Zebedee et al., J. Virology 62:2762(1988)) as well as in vivo animal assays as set forth in Examples 1, 3 and 4.
- KM miceTM WO 02/43478
- HAC mice WO 02/092812
- KM miceTM or HAC mice express human immunoglobulin genes.
- splenocytes from immunized mice that were high responders to M2 antigen were isolated and fused with myeloma cells. A monoclonal antibody was obtained, denoted no.
- M2 monoclonal antibodies can also be readily generated using other techniques including hybridoma, recombinant, and phage display technologies, or a combination thereof (see U.S. Patent Nos. 4,902,614, 4,543,439, and 4,411,993; see, also Monoclonal Antibodies. Hybridomas: A New Dimension in Biological Analyses, Plenum Press, Kennett, McKearn, and Bechtol (eds.), 1980, and Harlow et al., Antibodies: A Laboratory Manual. Cold Spring Harbor Laboratory Press, 2nd ed. 1988).
- Suitable techniques that additionally may be employed in the method including M2 affinity purification, non-denaturing gel purification, HPLC or RP-HPLC, purification on protein A column, or any combination of these techniques.
- the antibody isotype can be determined using an ELISA assay, for example, a human Ig can be identified using mouse Ig-absorbed anti-human Ig.
- Antibodies can be humanized using a variety of techniques known in the art including, for example, CDR-grafting (EP 239,400; W091/09967; U.S. Patent Nos. 5,225,539; 5,530,101; and 5,585,089), veneering or resurfacing (EP 592,106; EP 519,596; Padlan, Molecular Immunol 28:489 (1991); Studnicka et al., Protein Engineering 7:805 (1994); Roguska. et al., Proc. Nat 7. Acad. ScL USA 91 :969 (1994)), and chain shuffling (U.S. Patent No. 5,565,332). Human consensus sequences (Padlan, MoI. Immunol.
- M2 protein suitable for generating antibodies can be produced by any of a variety of standard protein purification or recombinant expression techniques known in the art.
- M2 can be produced by standard peptide synthesis techniques, such as solid-phase synthesis.
- a portion of the protein may contain an amino acid sequence such as a T7 tag or polyhistidine sequence to facilitate purification of expressed or synthesized M2.
- M2 may be expressed in a cell and protein produced by the cells may be purified.
- M2 protein may be expressed as a part of a larger protein by recombinant methods.
- Forms of M2 suitable for generating an immune response include peptide subsequences of full length M2, such as M2e (e.g., typically four to five amino acids or more in length). Additional forms of M2 include M2 containing preparations or extracts, partially purified M2 as well as cells or viruses that express M2 or preparations of such expressing cells or viruses.
- M2 can be coupled to another protein such as ovalbumin or keyhole limpet hemocyanin (KLH), thyroglobulin and tetanus toxoid, or mixed with an adjuvant such as Freund's complete or incomplete adjuvant.
- KLH keyhole limpet hemocyanin
- thyroglobulin and tetanus toxoid or mixed with an adjuvant such as Freund's complete or incomplete adjuvant.
- Initial and any optional subsequent immunization may be through intraperitoneal, intramuscular, intraocular, or subcutaneous routes. Subsequent immunizations may be at the same or at different concentrations of M2 antigen preparation, and may be at regular or irregular intervals.
- the invention provides methods of producing human M2 antibodies, including antibodies having one or more an anti-influenza activities, such as inhibiting influenza virus infection, replication, proliferation, or titer, or inhibiting increases in virus replication, proliferation or titer, or reducing the progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza infection, or susceptibility to infection, or having broad reactivity against various influenza virus strains or isolates.
- an anti-influenza activities such as inhibiting influenza virus infection, replication, proliferation, or titer, or inhibiting increases in virus replication, proliferation or titer, or reducing the progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza infection, or susceptibility to infection, or having broad reactivity against various influenza virus strains or isolates.
- a method includes administering M2 or an immunogenic fragment thereof to an animal (e.g., a mouse, cow or steer) capable of expressing human immunoglobulin; screening the animal for expression of human M2 antibody; selecting an animal that produces a human M2 antibody; isolating an antibody from the animal that produces human M2 antibody; and determining whether the human M2 antibody binds to M2.
- an animal e.g., a mouse, cow or steer
- a method in another embodiment, includes administering human M2 or an immunogenic fragment thereof to an animal (e.g., a mouse, cow or steer) capable of expressing human immunoglobulin; isolating spleen cells from the mouse that produces human M2 antibody; fusing the spleen cells with a myeloma cell to produce a hybridoma; and screening the hybridoma for expression of a human M2 antibody that has an anti- influenza activity.
- an animal e.g., a mouse, cow or steer
- the invention further provides human M2 antibodies that have been modified.
- modifications include one or more amino acid substitutions, additions or deletions of the antibody, provided that the modified antibody has all or at least part of an activity of unmodified M2 antibody, e.g., binding affinity, specificity, or an anti-influenza activity, etc.
- a particular example of a modification is where an antibody of the invention is altered to have a different isotype or subclass by, for example, substitution of the heavy chain constant region (see, for example, Example 2).
- An alteration of the Ig subclass of an M2 antibody Z3 from IgG3 to IgGl results in an improvement in an anti-influenza activity.
- modifications include deleting small and large regions of amino acid sequences from an antibody and substituting the deleted region with another amino acid sequence, whether the sequence is greater or shorter in length than the deleted region.
- Additional modifications of M2 antibodies included in the invention are antibody derivatives, i.e., the covalent attachment of any type of molecule to the antibody.
- antibody derivatives include antibodies that have been glycosylated, acetylated, phosphorylated, amidated, formylated, ubiquitinated, and derivatization by protecting/blocking groups and any of numerous chemical modifications.
- Amino acid substitutions may be with the same amino acid, except that a naturally occurring L-amino acid is substituted with a D-form amino acid. Modifications therefore include one or more D-amino acids substituted for L-amino acids, or mixtures of D-amino acids substituted for L-amino acids.
- Modifications further include structural and functional analogues, for example, peptidomimetics having synthetic or non-natural amino acids or amino acid analogues and derivatized forms.
- Modifications include cyclic structures such as an end-to-end amide bond between the amino and carboxy-terminus of the molecule or intra- or inter-molecular disulfide bond.
- Polypeptides may be modified in vitro or in vivo, e.g., post-translationally modified to include, for example, sugar residues, phosphate groups, ubiquitin, fatty acids, lipids, etc.
- Modifications include an activity or function of a reference composition (e.g., specific binding to M2).
- Modified antibodies having altered characteristics, such as increased binding affinity can be produced using methods known in the art. For example, affinity maturation techniques can be used to improve antibody binding affinity (US 2004/0162413 Al; U.S. Patent Nos. 6,656,467, 6,531,580, 6,590,079 and 5,955,358; Fiedler et al., Protein Eng.
- a modified protein can have an amino acid substitution, addition or deletion (e.g., 1- 3, 3-5, 5-10 or more residues).
- the substitution is a conservative amino acid substitution.
- Amino acid substitutions can be conservative or non-conservative and may be in the constant or variable region of the antibody. One or a few conservative amino acid substitutions in constant or variable regions are likely to be tolerated. Non-conservative substitution of multiple amino acids in hypervariable regions is likely to affect binding activity, specificity or antibody function or activity.
- the effect of a substitution can be assayed in order to identify antibodies retaining at least a part of the binding activity, specificity or antibody function or activity of unsubstituted antibody.
- an amino acid substitution in a hypervariable region may be assayed for binding activity or specificity, or an anti -influenza activity.
- Such antibodies having amino acid substitutions are included so long as at least a part of binding affinity, binding specificity, or an anti-influenza activity of a reference antibody (e.g., unmodified human M2 antibody) is retained by the substituted antibody.
- a “conservative substitution” means the replacement of one amino acid by a biologically, chemically or structurally similar residue.
- Biologically similar means that the substitution is compatible with biological activity, e.g., specifically binds to M2.
- Structurally similar means that the amino acids have side chains with similar length, such as alanine, glycine and serine, or similar size.
- Chemical similarity means that the residues have the same charge or are both hydrophilic or hydrophobic.
- Particular non-limiting examples include the substitution of one hydrophobic residue, such as isoleucine, valine, leucine or methionine for another, or the substitution of one polar residue for another, such as the substitution of arginine for lysine, glutamic for aspartic acids, or glutamine for asparagine, serine for threonine, and the like.
- Modified antibodies include amino acid sequence with 50-100%, or 50%, 60%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99%, or more identity to a sequence of a monoclonal antibody denoted as no. Z3G1.
- the identity can be over a defined area (region or domain) of the protein.
- identity and grammatical variations thereof mean that two or more referenced entities are the same. Thus, where two antibody sequences are identical, they have the same amino acid sequence. "Areas, regions or domains of identity” mean that a portion of two or more referenced entities are the same. Thus, where two antibody sequences are identical over one or more sequence regions, they share identity in these regions.
- substantially identity means that the identity is structurally or functionally significant. That is, the identity is such that the molecules are structurally identical or have at least one of the same functions (e.g., specific binding to M2) even though the molecules are different.
- sequence identity Due to variation in the amount of sequence conservation between structurally and functionally related proteins, the amount of sequence identity for substantial identity will depend upon the protein, the region and any function of that region. Although there can be as little as 30% sequence identity for proteins to have substantial identity, typically there is more, e.g., 50%, 60%, 75%, 85%, 90%, 95%, 96%, 97%, 98%, identity to a reference sequence. For nucleic acid sequences, 50% sequence identity or more typically constitutes substantial homology, but again can vary depending on the comparison region and its function, if any.
- BLAST e.g., BLAST 2.0
- Altschul et al., J. MoI. Biol. 215:403 (1990), publicly available through NCBI has exemplary search parameters as follows: Mismatch -2; gap open 5; gap extension 2.
- a BLASTP algorithm is typically used in combination with a scoring matrix, such as PAMl 00, PAM 250, BLOSUM 62 or BLOSUM 50.
- FASTA e.g., FASTA2 and FASTA3
- SSEARCH sequence comparison programs are also used to quantitate the extent of identity (Pearson et al., Proc. Natl. Acad. ScL USA 85:2444 (1988); Pearson, Methods MoI Biol. 132:185 (2000); and Smith et al., J. MoI. Biol. 147:195 (1981)).
- Programs for quantitating protein structural similarity using Delaunay-based topological mapping have also been developed (Bostick et al., Biochem Biophys Res Commun. 304:320 (2003)).
- Human monoclonal M2 antibodies of the invention include subsequences (e.g., fragments) and modified forms (e.g., sequence variants) as set forth herein.
- human M2 antibody subsequences include an Fab, Fab' and F(ab')2, Fd, single-chain Fvs (scFv), single-chain antibodies, disulfide-linked Fvs (sdFv) and VL or VH domain fragments.
- an Fab, Fab' and F(ab')2, Fd, single-chain Fvs (scFv), single-chain antibodies, disulfide-linked Fvs (sdFv) and V L or V H domain subsequence has the same binding affinity, substantially the same binding affinity, the same binding specificity, or one or more anti-influenza activities, e.g., efficacy in inhibiting influenza infection of a cell in vitro or in vivo as the reference M2 antibody (e.g., the full length or unmodified M2 antibody).
- Individual M2-binding antibody subsequences can be combined.
- V L or V H subsequences can be joined by a linker sequence thereby forming a V L -V H chimera.
- a combination of single-chain Fvs (scFv) subsequences can be joined by a linker sequence thereby forming a scFv - scFv chimera.
- M2-binding antibody subsequences include variable region(s) alone or in combination with all or a portion of other subsequences, as well as, one or more of the following: hinge region, CHl, CH2, and CH3 domains. Also included are antigen-binding subsequences of any combination of variable region(s) with a hinge region, CHl, CH2, and CH3 domains.
- M2 antibody subsequences e.g., Fab, Fab', F(ab')2, Fd, scFv, sdFv and VL or VH
- M2 antibody subsequences can be prepared by proteolytic hydrolysis of the antibody, for example, by pepsin or papain digestion of whole antibodies.
- “functional fragment” when referring to an antibody of the invention refers to a portion of an antibody that retains at least a part of one or more functions or activities as the intact reference antibody.
- Antibody fragments produced by enzymatic cleavage with pepsin provide a 5 S fragment denoted F(ab')2. This fragment can be further cleaved using a thiol reducing agent to produce 3.5 S Fab' monovalent fragments.
- an enzymatic cleavage using pepsin produces two monovalent Fab' fragments and the Fc fragment directly (see, e.g., U.S. Patent Nos. 4,036,945 and 4,331,647; and Edelman et al., Methods Enymol 1:422 (1967)).
- cleaving antibodies such as separation of heavy chains to form monovalent light-heavy chain fragments, further cleavage of fragments, or other enzymatic or chemical may also be used.
- Genetic techniques include expression of all or a part of the M2 antibody gene into a host cell such as Cos cells or E. coli.
- the recombinant host cells synthesize intact or single antibody chain, such as a scFv (see, e.g., Whitlow et al., In: Methods: A Companion to Methods in Enzvmoloev 2:97 (1991), Bird et al., Science 242:423 (1988); and U.S. Patent No. 4,946,778).
- Single-chain Fvs and antibodies can be produced as described in U.S. Patent Nos. 4,946,778 and 5,258,498; Huston et al., Methods Enzymol 203:46 (1991); Shu et al., Proc. Natl. Acad. ScL USA 90:7995 (1993); and Skerra et al., Science 240:1038 (1988).
- an addition can be the covalent or non-covalent attachment of any type of molecule to the antibody.
- Specific examples of antibody additions include glycosylation, acetylation, phosphorylation, amidation, formylaion, ubiquitinatation, and derivatization by protecting/blocking groups and any of numerous chemical modifications.
- Additions further include fusion (chimeric) polypeptide sequences, which is an amino acid sequence having one or more molecules not normally present in a reference native (wild type) sequence covalently attached to the sequence.
- fusion (chimeric) polypeptide sequences which is an amino acid sequence having one or more molecules not normally present in a reference native (wild type) sequence covalently attached to the sequence.
- a particular example is an amino acid sequence of another antibody to produce a multispecific antibody.
- modified M2 antibody having an amino acid addition is one in which a second heterologous sequence, i.e., heterologous functional domain is attached that confers a distinct or complementary function upon the antibody.
- a second heterologous sequence i.e., heterologous functional domain is attached that confers a distinct or complementary function upon the antibody.
- an amino acid tag such as T7 or polyhistidine can be attached to M2 antibody in order to facilitate purification or detection of M2 or influenza virus(es).
- an antiviral attached to an M2 antibody in order to target cells infected with influenza for virus killing, proliferation inhibition, replication inhibition, etc.
- the invention provides M2 antibodies and a heterologous domain, wherein the domain confers a distinct function, i.e., a heterologous functional domain, on the antibody.
- Heterologous functional domains are not restricted to amino acid residues.
- a heterologous functional domain can consist of any of a variety of different types of small or large functional moieties.
- Such moieties include nucleic acid, peptide, carbohydrate, lipid or small organic compounds, such as a drug (e.g., an antiviral), metals (gold, silver), etc.
- Linker sequences may be inserted between the antibody sequence and the heterologous functional domain so that the two entities maintain, at least in part, a distinct function or activity.
- Linker sequences may have one or more properties that include a flexible conformation, an inability to form an ordered secondary structure or a hydrophobic or charged character which could promote or interact with either domain.
- Amino acids typically found in flexible protein regions include GIy, Asn and Ser.
- Other near neutral amino acids, such as Thr and Ala may also be used in the linker sequence.
- the length of the linker sequence may vary without significantly affecting a function or activity of the fusion protein (see, e.g., U.S. Patent No. 6,087,329).
- Linkers further include chemical moieties and conjugating agents, such as sulfo-succinimidyl derivatives (sulfo-SMCC, sulfo-SMPB), disuccinimidyl suberate (DSS), disuccinimidyl glutarate (DSG) and disuccinimidyl tartrate (DST).
- sulfo-succinimidyl derivatives sulfo-SMCC, sulfo-SMPB
- DSS disuccinimidyl suberate
- DSG disuccinimidyl glutarate
- DST disuccinimidyl tartrate
- heterologous functional domains are detectable labels.
- the invention provides human M2 antibodies that are detectably labeled.
- detectable labels include fluorophores, chromophores, radioactive isotopes (e.g., S35, P32, 1125), electron-dense reagents, enzymes, ligands and receptors.
- Enzymes are typically detected by their activity. For example, horseradish peroxidase is usually detected by its ability to convert a substrate such as 3,3-', 5,5-'- tetramethylbenzidine (TMB) to a blue pigment, which can be quantified.
- Ligands may bind other molecules such as biotin, which may bind avidin or streptavidin, and IgG, which can bind protein A.
- a M2 antibody may have two or more variations, modifications or labels.
- a monoclonal antibody may be coupled to biotin to detect its presence with avidin as well as labeled with 1125 so that it provides a detectable signal.
- biotin may be coupled to biotin to detect its presence with avidin as well as labeled with 1125 so that it provides a detectable signal.
- the invention further provides nucleic acids encoding the human M2 antibodies of the invention, including modified forms, subsequences/fragments, chimeras, etc.
- a nucleic acid encodes intact or single chain M2 antibody denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture
- nucleic acid encodes intact or single chain as set forth in Example 1 (SEQ ID NOs:34, 35 and 37).
- nucleic acid or “polynucleotide” are used interchangeably to refer to all forms of nucleic acid, including deoxyribonucleic acid (DNA) and ribonucleic acid (RNA).
- the nucleic acids can be double, single strand, or triplex, linear or circular.
- Nucleic acids include genomic DNA, cDNA, and antisense.
- RNA nucleic acid can be spliced or unspliced mRNA, rRNA, tRNA or antisense.
- Nucleic acids of the invention include naturally occurring, synthetic, as well as nucleotide analogues and derivatives. Such altered or modified polynucleotides include analogues that provide nuclease resistance, for example.
- Nucleic acid can be of any length. For example, a subsequence of any of no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) or no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA), that encodes a protein having one or more anti-influenza activities.
- a nucleic acid includes a heavy-chain sequence and light-chain sequence as set forth in Example 1 (SEQ ID NOs:32, 33 and 36).
- a nucleic acid encodes a heavy-chain sequence and light-chain sequence as set forth in Example 1 (SEQ ID NOs:34, 35 and 37).
- nucleic acids include sequences that are degenerate with respect to sequences encoding no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) and no. Z3G3(Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) subsequences thereof and modified forms as set forth herein.
- Z3G1 ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA
- Nucleic acid can be produced using any of a variety of well known standard cloning and chemical synthesis methods and can be altered intentionally by site-directed mutagenesis or other recombinant techniques known to those skilled in the art. Purity of polynucleotides can be determined through sequencing, gel electrophoresis and the like.
- Nucleic acids of the invention may be inserted into a nucleic acid construct in which expression of the nucleic acid is influenced or regulated by an "expression control element," referred to herein as an "expression cassette.”
- expression control element refers to one or more nucleic acid sequence elements that regulate or influence expression of a nucleic acid sequence to which it is operatively linked.
- An expression control element can include, as appropriate, promoters, enhancers, transcription terminators, gene silencers, a start codon (e.g., ATG) in front of a protein-encoding gene, etc.
- An expression control element operatively linked to a nucleic acid sequence controls transcription and, as appropriate, translation of the nucleic acid sequence.
- operatively linked refers to a juxtaposition wherein the referenced components are in a relationship permitting them to function in their intended manner. Typically expression control elements are juxtaposed at the 5' or the 3' ends of the genes but can also be intronic.
- Expression control elements include elements that activate transcription constitutively, that are inducible (i.e., require an external signal for activation), or derepressible (i.e., require a signal to turn transcription off; when the signal is no longer present, transcription is activated or "derepressed”).
- control elements sufficient to render gene expression controllable for specific cell-types or tissues (i.e., tissue-specific control elements).
- tissue-specific control elements i.e., tissue-specific control elements.
- Promoters are generally positioned 5' of the coding sequence. Promoters, produced by recombinant DNA or synthetic techniques, can be used to provide for transcription of the polynucleotides of the invention.
- a "promoter” is meant a minimal sequence element sufficient to direct transcription.
- the nucleic acids of the invention may be inserted into a plasmid for propagation into a host cell and for subsequent genetic manipulation if desired.
- a plasmid is a nucleic acid that can be stably propagated in a host cell; plasmids may optionally contain expression control elements in order to drive expression of the nucleic acid encoding M2 antibody in the host cell.
- a vector is used herein synonymously with a plasmid and may also include an expression control element for expression in a host cell. Plasmids and vectors generally contain at least an origin of replication for propagation in a cell and a promoter. Plasmids and vectors are therefore useful for genetic manipulation of M2 antibody encoding nucleic acids, producing M2 antibodies or antisense, and expressing the M2 antibodies in host cells or organisms, for example.
- Nucleic acids encoding variable regions of the antibody heavy and light chains, or encoding full length antibody heavy and light chains can be isolated from a hybridoma. Isolated nucleic acids may be inserted into a suitable expression vector, and introduced into suitable host cells such as yeast or CHO cells which can be cultured for the production of recombinant M2 antibodies.
- Bacterial system promoters include T7 and inducible promoters such as pL of bacteriophage ⁇ , plac, ptrp, ptac (ptrp-lac hybrid promoter) and tetracycline responsive promoters. Insect cell system promoters include constitutive or inducible promoters (e.g., ecdysone).
- Mammalian cell constitutive promoters include SV40, RSV, bovine papilloma virus (BPV) and other virus promoters, or inducible promoters derived from the genome of mammalian cells (e.g., metallothionein HA promoter; heat shock promoter) or from mammalian viruses (e.g., the adenovirus late promoter; the inducible mouse mammary tumor virus long terminal repeat).
- a retroviral genome can be genetically modified for introducing and directing expression of a M2 antibody in appropriate host cells.
- Expression systems further include vectors designed for in vivo use.
- vectors designed for in vivo use include adenoviral vectors (U.S. Patent Nos. 5,700,470 and 5,731,172), adeno-associated vectors (U.S. Patent No. 5,604,090), herpes simplex virus vectors (U.S. Patent No. 5,501,979), retroviral vectors (U.S. Patent Nos. 5,624,820, 5,693,508 and 5,674,703), BPV vectors (U.S. Patent No. 5,719,054) and CMV vectors (U.S. Patent No. 5,561,063).
- adenoviral vectors U.S. Patent Nos. 5,700,470 and 5,731,172
- adeno-associated vectors U.S. Patent No. 5,604,090
- herpes simplex virus vectors U.S. Patent No. 5,501,979
- retroviral vectors U.S. Patent Nos. 5,624,
- Yeast vectors include constitutive and inducible promoters (see, e.g., Ausubel et al., In: Current Protocols in Molecular Biology, Vol. 2, Ch. 13, ed., Greene Publish. Assoc. & Wiley Interscience, 1988; Grant et al. Methods in Enzvmology. 153:516 (1987), eds. Wu & Grossman; Bitter Methods in Enzymology, 152:673 (1987), eds. Berger & Kimmel, Acad. Press, N.Y.; and, Strathern et al., The Molecular Biology of the Yeast Saccharomyees (1982) eds.
- a constitutive yeast promoter such as ADH or LEU2 or an inducible promoter such as GAL may be used (R. Rothstein In: DNA Cloning, A Practical Approach. Vol.ll, Ch. 3, ed. D.M. Glover, IRL Press, Wash., D.C., 1986).
- Vectors that facilitate integration of foreign nucleic acid sequences into a yeast chromosome, via homologous recombination for example, are known in the art.
- Yeast artificial chromosomes YAC are typically used when the inserted polynucleotides are too large for more conventional vectors (e.g., greater than about 12 kb).
- Host cells including nucleic acids encoding human M2 antibodies are also provided.
- the host cell is a prokaryotic cell.
- the host cell is a eukaryotic cell.
- the eukaryotic cell is a yeast or mammalian (e.g., human, primate, etc.) cell.
- a "host cell” is a cell into which a nucleic acid is introduced that can be propagated, transcribed, or encoded M2 antibody expressed.
- the term also includes any progeny or subclones of the host cell. Progeny cells and subclones need not be identical to the parental cell since there may be mutations that occur during replication and proliferation. Nevertheless, such cells are considered to be host cells of the invention.
- Host cells include but are not limited to microorganisms such as bacteria and yeast; and plant, insect and mammalian cells.
- bacteria transformed with recombinant bacteriophage nucleic acid, plasmid nucleic acid or cosmid nucleic acid expression vectors yeast transformed with recombinant yeast expression vectors
- plant cell systems infected with recombinant virus expression vectors e.g., cauliflower mosaic virus, CaMV; tobacco mosaic virus, TMV
- recombinant plasmid expression vectors e.g., Ti plasmid
- insect cell systems infected with recombinant virus expression vectors e.g., baculovirus
- animal cell systems infected with recombinant virus expression vectors e.g., retroviruses, adenovirus, vaccinia virus, or transformed animal cell systems engineered for stable expression, are provided.
- Expression vectors also can contain a selectable marker conferring resistance to a selective pressure or identifiable marker (e.g., ⁇ -galactosidase), thereby allowing cells having the vector to be selected for, grown and expanded.
- a selectable marker can be on a second vector that is cotransfected into a host cell with a first vector containing an invention polynucleotide.
- Selection systems include but are not limited to herpes simplex virus thymidine kinase gene (Wigler et al., Cell 11:223 (1977)), hypoxanthine-guanine phosphoribosyltransferase gene (Szybalska et al., Proc. Natl. Acad. ScL USA 48:2026 (1962)), and adenine phosphoribosyltransferase (Lowy et al., Cell 22:817 (1980)) genes which can be employed in tk-, hgprt- or aprt- cells, respectively.
- antimetabolite resistance can be used as the basis of selection for dhfr, which confers resistance to methotrexate (O'Hare et al., Proc. Natl. Acad. ScL USA 78:1527 (1981)); the gpt gene, which confers resistance to mycophenolic acid (Mulligan et al., Proc. Natl. Acad. ScL USA 78:2072 (1981)); neomycin gene, which confers resistance to aminoglycoside G-418 (Colberre-Garapin et al., J. MoI. Biol.
- hygromycin gene which confers resistance to hygromycin (Santerre et al., Gene 30:147 (1984)).
- Additional selectable genes include trpB, which allows cells to utilize indole in place of tryptophan; hisD, which allows cells to utilize histinol in place of histidine (Hartman et al., Proc. Natl. Acad.
- Methods for treating influenza virus infection of a subject include administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 protein effective to treat influenza virus infection of the subject.
- the antibody can be administered prior to infection, i.e., prophylaxis, substantially contemporaneously with infection, or following infection of the subject, i.e., therapeutic treatment.
- Methods of the invention include providing a therapeutic benefit to a subject, for example, reducing or decreasing progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza virus infection, reducing or inhibiting increases in virus titer, virus replication, virus proliferation, or an amount of a viral protein of one or more influenza virus strains or isolates, or stabilizing the condition (i.e., preventing or inhibiting worsening of a symptom or complication associated with influenza virus infection, or progression of the infection).
- Symptoms or complications associated with influenza virus infection whose progression, severity, frequency, duration or probability can be reduced or decreased include, for example, chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection or ear ache.
- a therapeutic benefit can also include reducing susceptibility of a subject to influenza virus infection or hastening or accelerating a subject's recovery from influenza virus infection.
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza virus M2 effective to inhibit virus infection of the subject or reduce susceptibility of the subject to virus infection by one or more influenza virus strains/isolates or subtypes.
- the antibody is administered prior to (prophylaxis), substantially contemporaneously with or following infection of the subject (therapeutic).
- the antibody can provide a therapeutic benefit which includes, for example, reducing or decreasing progression, severity, frequency, duration or probability of one or more symptoms or complications of influenza virus infection (e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection or ear ache), virus titer or an amount of a viral protein of one or more influenza virus strains/isolates or subtypes, or susceptibility of a subject to infection by one or more influenza virus strains/isolates or subtypes.
- influenza virus infection e.g., chills, fever, cough, sore throat, nasal congestion, sinus congestion, nasal infection, sinus infection, body ache, head ache, fatigue, pneumonia, bronchitis, ear infection or ear ache
- virus titer or an amount of a viral protein of one or more influenza virus strains/isolates or subtypes
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 effective to prevent an increase in influenza virus titer, virus replication or an amount of an influenza viral protein of one or more influenza strains/isolates or subtypes in the subject.
- a method includes administering to the subject an amount of a human, humanized or chimeric antibody that specifically binds influenza M2 effective to protect the subject from virus infection, effective to decrease susceptibility of the subject to virus infection or hastening or accelerating a subject's recovery from virus infection, by one or more influenza virus strains/isolates or subtypes.
- Methods of the invention can be practiced with any antibody having the binding specificity or the same or substantially the same binding affinity of an antibody produced by a cell line (e.g., a hybridoma or a CHO cell line) denoted as no. Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) or no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA).
- Methods of the invention can be practiced with any antibody that recognizes the same epitope or the same or substantially the same minimal binding sequence to which an antibody denoted as no.
- Z3G1 (ATCC Deposit No. PTA-5967; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) or no. Z3G3 (Z3.16.25.1) (ATCC Deposit No. PTA-5968; deposited March 13, 2004, American Type Culture Collection, Manassas, VA, USA) binds.
- influenza strains are A/PR/8/34 (HlNl) or A/HK/1/68 (H3N2) strain/isolate, or subtypes, such as HlNl, H2N2, H3N2, H5N1, H9N2, H2N1, H4N6, H6N2, H7N2, H7N3, H4N8, H5N2, H2N3, Hl 1N9, H3N8, H1N2, Hl 1N2, Hl 1N9, H7N7, H2N3, H6N1, H13N6, H7N1, Hl INl, H7N2 or H5N3.
- Human, humanized and chimeric M2 antibodies of the invention may be used alone or in combination with therapeutic agents having anti-influenza activity, e.g., that inhibit influenza virus infection, replication, proliferation, or reduce the progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza virus infection.
- therapeutic agents having anti-influenza activity e.g., that inhibit influenza virus infection, replication, proliferation, or reduce the progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza virus infection.
- examples of such combinations include pooled monoclonal or pooled polyclonal antibodies containing two or more different M2 antibodies with different binding specificity, binding affinity, or efficacy in inhibiting influenza virus infection of a cell in vitro or in vivo. Accordingly, combination compositions including M2 antibodies are provided, as well as methods of using such combinations in accordance with the methods of the invention.
- the methods of the invention including treating influenza or a disorder or complication associated with influenza virus infection, likely results in an improvement in the subjects' condition, a reduction of the progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza virus infection, or decreasing the subject's risk for developing symptoms or contracting the infection, e.g., susceptibility to influenza virus infection.
- An improvement therefore includes one or more decreased or reduced virus proliferation, replication, or titer, or symptoms or complications associated with influenza virus infection.
- An improvement also includes reducing or eliminating the need, dosage frequency or amount of an antiviral drug or other agent used for treating a subject having or at risk of having an influenza virus infection, or a symptom or complication associated with influenza virus infection.
- an antibody can be administered in a sufficient or effective amount.
- an “amount sufficient” or “amount effective” refers to an amount that provides, in single or multiple doses, alone or in combination with one or more other treatments, therapeutic regimens or agents (e.g., a drug), a long or short term detectable response, a desired outcome or beneficial effect in a given subject of any measurable or detectable degree or for any duration (e.g., for minutes, hours, days, months, years, or cured).
- An amount sufficient or an amount effective can but need not be provided in a single administration and can but need not be administered alone or in combination with another compound, agent, treatment or therapeutic regimen.
- an amount sufficient or an amount effective need not be sufficient or effective if given in single or multiple doses without a second compound, agent, treatment or therapeutic regimen, since additional doses, amounts or duration above and beyond such doses, or additional drugs, agents, treatment or therapeutic regimens may be included in order to be effective or sufficient in a given subject.
- an amount sufficient or an amount effective need not be effective in each and every subject prophylactically or therapeutically treated, nor a majority of treated subjects in a given group or population.
- An amount sufficient or an amount effective means sufficiency or effectiveness in a particular subject, not a group or the general population. As is typical for such methods, some subjects will exhibit a greater or less response to a treatment method.
- Subjects appropriate for treatment include those having or at risk of having influenza virus infection.
- Target subjects also include those at risk of developing an influenza associated symptom or complication.
- the invention methods are therefore applicable to treating a subject who is at risk of influenza virus infection or a complication associated with influenza virus infection. Prophylactic methods are therefore included.
- prophylaxis and grammatical variations thereof mean a method in accordance with the invention in which contact, administration or in vivo delivery to a subject is prior to manifestation or onset of influenza infection (or an associated symptom), such that it can eliminate, prevent, inhibit, decrease or reduce the probability or susceptibility of developing a symptom of influenza infection.
- Target subjects for prophylaxis can be at increased risk (probability or susceptibility) of influenza infection, as set forth herein and known in the art.
- At risk subjects appropriate for treatment include subjects exposed to other subjects having influenza virus, or where the risk of influenza virus infection is increased due to changes in virus infectivity or cell tropism, immunological susceptibility (e.g., an immunocompromised subject), or environmental factors.
- At risk subjects appropriate for treatment therefore include subjects exposed or at risk of exposure to birds in the wild or in an agricultural setting (e.g., poultry farms) which birds may or may not be infected with or carriers of influenza.
- M2 antibodies can be administered in accordance with the methods as a single or multiple dose e.g., one or more times daily, weekly, monthly or annually or between about 1 to 10 weeks, or for as long as appropriate, for example, to achieve a reduction in the progression, severity, frequency, duration or probability of one or more symptoms or complications associated with influenza virus infection.
- Doses can vary depending upon whether the treatment is prophylactic or therapeutic, the progression, severity, frequency, duration or probability of the associated disorder or complication being treated, the type of influenza isolate/strain or subtype to which treatment is directed against, the clinical endpoint desired, previous or simultaneous treatments, the general health, age, gender or race of the subject and other factors that will be appreciated by the skilled artisan. The skilled artisan will appreciate the factors that may influence the dosage and timing required to provide an amount sufficient for prophylactic or therapeutic benefit.
- M2 antibodies will be administered within 24-72 hours after a subject is exposed to or contacted with influenza, or within 24-48 hours after development of one or more symptoms associated with virus infection.
- M2 antibodies can be administered within 0-4 weeks, e.g., 2-3 weeks, of exposure to or contact with influenza. Doses can be empirically determined, determined using animal disease models or optionally in human clinical trials. Initial study doses can be based upon the animal studies set forth herein, for a mouse, which weighs about 30 grams, the amount administered ranges between about 10-1000 ⁇ g/animal.
- the dose can be adjusted according to the mass of a subject, for example, about 10-50 ⁇ g/kg, 50-100 ⁇ g/kg,100-500 ⁇ g/kg, 500- 1,000 ⁇ g/kg, 1-5 mg/kg, 5-10 mg/kg, 10-20 mg/kg, 20-50 mg/kg, or more, two, three, four, or more times per hour, day, week, month or annually.
- the dose amount, frequency or duration may be proportionally increased or reduced, as indicated by the status of the infection, or any adverse side effects of the treatment or therapy. Dose amounts, frequencies or duration also considered sufficient and effective and are therefore beneficial are those that result in a reduction of the use of another treatment or therapeutic regimen or protocol.
- subject refers to an animal, typically mammalian, such as a non human primate (apes, gibbons, gorillas, chimpanzees, orangutans, macaques), a domestic animal (dogs and cats), a farm animal (poultry such as chickens and ducks, horses, cows, goats, sheep, pigs), experimental animal (mouse, rat, rabbit, guinea pig) and humans.
- subjects include animal disease models, for example, the mouse model of influenza infection exemplified herein.
- M2 polyclonal and monoclonal antibodies of the invention can- be incorporated into pharmaceutical compositions.
- Such pharmaceutical compositions are useful for administration to a subject in vivo or ex vivo.
- Antibodies can be included in a pharmaceutically acceptable carrier or excipient prior to administration to a subject.
- pharmaceutically acceptable and “physiologically acceptable” mean a biologically acceptable formulation, gaseous, liquid or solid, or mixture thereof, which is suitable for one or more routes of administration, in vivo delivery or contact.
- Such formulations include solvents (aqueous or non aqueous), solutions (aqueous or non aqueous), emulsions (e.g., oil-in-water or water-in-oil), suspensions, syrups, elixirs, dispersion and suspension media, coatings, isotonic and absorption promoting or delaying agents, compatible with pharmaceutical administration or in vivo contact or delivery.
- Aqueous and non-aqueous solvents, solutions and suspensions may include suspending agents and thickening agents.
- Such pharmaceutically acceptable carriers include tablets (coated or uncoated), capsules (hard or soft), microbeads, powder, granules and crystals.
- Supplementary active compounds e.g., preservatives, antibacterial, antiviral and antifungal agents
- Pharmaceutical compositions can be formulated to be compatible with a particular route of administration.
- pharmaceutical compositions include carriers, diluents, or excipients suitable for administration by various routes.
- Exemplary routes of administration for contact or in vivo delivery which a composition can optionally be formulated include respiratory system (nasal, inhalation, respiration, intubation, intrapulmonary instillation), oral, buccal, intrapulmonary, rectal, intrauterine, intradermal, topical, dermal, parenteral, sublingual, subcutaneous, intravascular, intrathecal, intraarticular, intracavity, transdermal, iontophoretic, intraocular, ophthalmic, optical, intravenous, intramuscular, intraglandular, intraorgan, intralymphatic.
- respiratory system nasal, inhalation, respiration, intubation, intrapulmonary instillation
- oral buccal, intrapulmonary, rectal, intrauterine, intradermal, topical, dermal, parenteral, sublingual, subcutaneous, intravascular, intrathecal, intraarticular, intracavity, transdermal, iontophoretic, intraocular, ophthalmic, optical, intravenous, intramuscular, intragland
- Nasal and instillation formulations typically include aqueous solutions of active ingredient (compounds or agents) optionally with one or more preservative or isotonic agents. Such formulations are typically adjusted to a pH and isotonic state compatible with nasal mucous membranes.
- a solvent may include only water, or it may be a mixture of water and one or more other components (e.g., ethanol). Typically, the maximum ethanol is up to about 70-75%% by volume. The remaining volume may consist of water or one or more other solvents in various proportions.
- Formulations suitable for parenteral administration comprise aqueous and nonaqueous solutions, suspensions or emulsions of the active compound, which preparations are typically sterile and can be isotonic with the blood of the intended recipient.
- Non-limiting illustrative examples include water, saline, dextrose, fructose, ethanol, animal, vegetable or synthetic oils.
- penetrants can be included in the pharmaceutical composition.
- Penetrants are known in the art, and include, for example, for transmucosal administration, detergents, bile salts, and fusidic acid derivatives.
- the active ingredient can be formulated into aerosols, sprays, ointments, salves, gels, or creams as generally known in the art.
- pharmaceutical compositions typically include ointments, creams, lotions, pastes, gels, sprays, aerosols, or oils.
- Carriers which may be used include Vaseline, lanolin, polyethylene glycols, alcohols, transdermal enhancers, and combinations thereof.
- Cosolvents and adjuvants may be added to the formulation.
- cosolvents contain hydroxyl groups or other polar groups, for example, alcohols, such as isopfopyl alcohol; glycols, such as propylene glycol, polyethyleneglycol, polypropylene glycol, glycol ether; glycerol; polyoxyethylene alcohols and polyoxyethylene fatty acid esters.
- Adjuvants include, for example, surfactants such as, soya lecithin and oleic acid; sorbitan esters such as sorbitan trioleate; and polyvinylpyrrolidone.
- Supplementary active compounds e.g., preservatives, antioxidants, antimicrobial agents including biocides and biostats such as antibacterial, antiviral and antifungal agents
- Pharmaceutical compositions may therefore include preservatives, anti-oxidants and antimicrobial agents.
- Preservatives can be used to inhibit microbial growth or increase stability of the active ingredient thereby prolonging the shelf life of the pharmaceutical formulation.
- Suitable preservatives include, for example, EDTA, EGTA, benzalkonium chloride or benzoic acid or benzoates, such as sodium benzoate.
- Antioxidants include, for example, ascorbic acid, vitamin A, vitamin E, tocopherols, and similar vitamins or provitamins.
- An antimicrobial agent or compound directly or indirectly inhibits, reduces, delays, halts, eliminates, arrests, suppresses or prevents contamination by or growth, infectivity, replication, proliferation, reproduction, of a pathogenic or non- pathogenic microbial organism.
- Classes of antimicrobials include antibacterial, antiviral, antifungal and antiparasitics.
- Antimicrobials include agents and compounds that kill or destroy (-cidal) or inhibit (-static) contamination by or growth, infectivity, replication, proliferation, reproduction of the microbial organism.
- antibacterials include penicillins (e.g., penicillin G, ampicillin, methicillin, oxacillin, and amoxicillin), cephalosporins (e.g., cefadroxil, ceforanid, cefotaxime, and ceftriaxone), tetracyclines (e.g., doxycycline, chlortetracycline, minocycline, and tetracycline), aminoglycosides (e.g., amikacin, gentamycin, kanamycin, neomycin, streptomycin, netilmicin, paromomycin and tobramycin), macrolides (e.g., azithromycin, clarithromycin, and erythromycin), fluoroquinolones (e.g., ciprofloxacin, lomefloxacin, and norfloxacin), and other antibiotics including chloramphenicol, clindamycin, cycloser
- anti-virals include reverse transcriptase inhibitors; protease inhibitors; thymidine kinase inhibitors; sugar or glycoprotein synthesis inhibitors; structural protein synthesis inhibitors; nucleoside analogues; and viral maturation inhibitors.
- anti-virals include nevirapine, delavirdine, efavirenz, saquinavir, ritonavir, indinavir, nelfinavir, amprenavir, zidovudine (AZT), stavudine (d4T), laraivudine (3TC), didanosine (DDI), zalcitabine (ddC), abacavir, acyclovir, penciclovir, valacyclovir, ganciclovir, l,-D-ribofuranosyl-l,2,4-triazole-3 carboxamide, 9->2-hydroxy- ethoxy methylguanine, adamantanamine, 5-iodo-2'-deoxyuridine, trifluorothymidine, interferon and adenine arabinoside.
- compositions and methods of the invention are known in the art (see, e.g., Remington: The Science and Practice of Pharmacy (2003) 20th ed., Mack Publishing Co., Easton, PA; Remington's Pharmaceutical Sciences (1990) 18th ed., Mack Publishing Co., Easton, PA; The Merck Index (1996) 12th ed., Merck Publishing Group, Whitehouse, NJ; Pharmaceutical Principles of Solid Dosage Forms (1993), Technonic Publishing Co., Inc., Lancaster, Pa.; Ansel and Stoklosa, Pharmaceutical Calculations (2001) 1 lth ed., Lippincott Williams & Wilkins, Baltimore, MD; and Poznansky et al., Drug Delivery Systems (1980), R. L. Juliano, ed., Oxford, N.Y., pp. 253-315).
- Antibodies and pharmaceutical compositions thereof can be packaged in unit dosage form (capsules, troches, cachets, lozenges, or tablets) for ease of administration and uniformity of dosage.
- Unit dosage form refers to physically discrete units suited as unitary dosages for the subject to be treated; each unit containing a predetermined quantity of active ingredient optionally in association with a pharmaceutical carrier (excipient, diluent, vehicle or filling agent) which, when administered in one or more doses, is calculated to produce a desired effect (e.g., prophylactic or therapeutic effect).
- Unit dosage forms also include, for example, ampules and vials, which may include a composition in a freeze-dried or lyophilized state; a sterile liquid carrier, for example, can be added prior to administration or delivery in vivo.
- Unit dosage forms additionally include, for example, ampules and vials with liquid compositions disposed therein.
- Unit dosage forms further include compositions for transdermal administration, such as "patches" adapted to remain in contact with the epidermis of the intended recipient for an extended or brief period of time.
- the individual unit dosage forms can be included in multi-dose kits or containers. Pharmaceutical formulations can be packaged in single or multiple unit dosage form for ease of administration and uniformity of dosage.
- kits comprising M2 antibodies, nucleic acids encoding M2 antibodies and pharmaceutical formulations thereof, packaged into suitable packaging material.
- a kit typically includes a label or packaging insert including a description of the components or instructions for use in vitro, in vivo, or ex vivo, of the components therein.
- a kit can contain a collection of such components, e.g., two or more human M2 antibodies alone or in combination with an antiviral agent or drug.
- packaging material refers to a physical structure housing the components of the kit.
- the packaging material can maintain the components sterilely, and can be made of material commonly used for such purposes (e.g., paper, corrugated fiber, glass, plastic, foil, ampules, vials, tubes, etc.).
- Kits of the invention can include labels or inserts.
- Labels or inserts include "printed matter," e.g., paper or cardboard, or separate or affixed to a component, a kit or packing material (e.g., a box), or attached to an ampule, tube or vial containing a kit component.
- Labels or inserts can additionally include a computer readable medium, such as a disk (e.g., floppy diskette, hard disk, ZIP disk), optical disk such as CD- or DVD-ROM/RAM, DVD, MP3, magnetic tape, or an electrical storage media such as RAM and ROM or hybrids of these such as magnetic/optical storage media, FLASH media or memory type cards.
- a computer readable medium such as a disk (e.g., floppy diskette, hard disk, ZIP disk), optical disk such as CD- or DVD-ROM/RAM, DVD, MP3, magnetic tape, or an electrical storage media such as RAM and ROM or hybrids of these such as magnetic/optical storage media, FLASH media or memory type cards.
- Labels or inserts can include identifying information of one or more components therein, dose amounts, clinical pharmacology of the active ingredient(s) including mechanism of action, pharmacokinetics and pharmacodynamics. Labels or inserts can include information identifying manufacturer information, lot numbers, manufacturer location and date.
- Labels or inserts can include information on a condition, disorder or disease for which a kit component may be used.
- Labels or inserts can include instructions for the clinician or subject for using one or more of the kit components in a method, or treatment protocol or therapeutic regimen. Instructions can include dosage amounts, frequency or duration, and instructions for practicing any of the methods, treatment protocols or therapeutic regimes described herein. Exemplary instructions include instructions for treating influenza infection, as set forth herein or known in the art. Kits of the invention therefore can additionally include labels or instructions for practicing any of the methods of the invention described herein including treatment, detection, monitoring or diagnostic methods.
- a kit can include a human M2 antibody that has one or more anti-influenza activities as set forth herein, together with instructions for administering the antibody in a treatment method of the invention.
- Labels or inserts can include information on any benefit that a component may provide, such as a prophylactic or therapeutic benefit. Labels or inserts can include information on potential adverse side effects, such as warnings to the subject or clinician regarding situations where it would not be appropriate to use a particular composition. Adverse side effects could also occur when the subject has, will be or is currently taking one or more other medications that may be incompatible with the composition, or the subject has, will be or is currently undergoing another treatment protocol or therapeutic regimen which would be incompatible with the composition and, therefore, instructions could include information regarding such incompatibilities.
- Invention kits can additionally include a growth medium (e.g., for an M2 antibody producing cell line), buffering agent, or a preservative or a stabilizing agent in a pharmaceutical formulation containing a human, humanized or chimeric M2 antibody.
- a growth medium e.g., for an M2 antibody producing cell line
- buffering agent e.g., a buffering agent
- a preservative or a stabilizing agent in a pharmaceutical formulation containing a human, humanized or chimeric M2 antibody.
- Each component of the kit can be enclosed within an individual container and all of the various containers can be within a single package.
- Invention kits can be designed for cold storage.
- Invention kits can further be designed to contain human, humanized or chimeric M2 antibody producing hybridoma or other host cells (e.g., CHO cells). The cells in the kit can be maintained under appropriate storage conditions until the cells are ready to be used.
- kits including one or more hybridoma or other cells can contain appropriate cell storage medium (e.g., 10-20% DMSO in tissue culture growth medium such as DMEM, ⁇ - MEM, etc.) so that the cells can be thawed and grown.
- appropriate cell storage medium e.g., 10-20% DMSO in tissue culture growth medium such as DMEM, ⁇ - MEM, etc.
- Human, humanized and chimeric M2 antibodies of the invention are useful for isolating, detecting or purifying M2 polypeptides. Such methods include contacting a sample suspected of containing M2 (in solution, in solid phase, in vitro or in vivo, or in an intact cell or organism) with an M2 antibody under conditions allowing binding, and detecting the presence of M2, or purifying the bound M2 protein.
- the invention therefore also provides methods for detecting M2 or influenza virus in a test sample.
- a method includes contacting a sample having or suspected of having M2 or influenza virus with a human M2 antibody under conditions allowing detection of M2 in the sample and determining whether M2 is present in the test sample. Detection of M2 or influenza virus can be performed by conventional methods such as immunoprecipitation, western blotting, immunohistochemical staining or flow cytometry and ELISA.
- M2 and influenza virus detection methods are useful in diagnostic protocols for detecting M2 and influenza virus.
- invention antibodies can be used to detect any increase or decrease in M2 or influenza virus.
- invention antibodies can be used to detect such an increase or decrease in M2 or influenza virus levels before, during or following the treatment, over a long or short period of time.
- the invention therefore also provides methods for detecting the presence of M2 or influenza virus in a test sample of a subject (containing biological fluid, cells, or a tissue or organ sample such as a biopsy).
- a method includes contacting a sample having or suspected of having M2 or influenza virus obtained from a subject with a human M2 or influenza virus antibody under conditions allowing detection of M2 or influenza virus and determining whether M2 or influenza virus is present in the test sample from the subject.
- Human, humanized and chimeric M2 antibodies may also be utilized to monitor the presence of M2 or influenza virus for diagnosis or following treatment of a subject, or to measure in vivo levels of M2 in subjects. For example, sputum suspected of containing M2 or influenza virus is incubated with an M2 antibody, as described above, under conditions allowing binding to occur, which detects the presence of M2 or influenza virus
- an M2 antibody includes a plurality of such antibodies and reference to “an anti influenza activity or function” can include reference to one or more activities or functions, and so forth.
- the invention is generally disclosed herein using affirmative language to describe the numerous embodiments.
- the invention also specifically includes embodiments in which particular subject matter is excluded, in full or in part, such as substances or materials, method steps and conditions, protocols, procedures, assays or analysis.
- the invention is generally not expressed herein in terms of what the invention does not include, aspects that are not expressly included in the invention are nevertheless disclosed herein.
- This example describes various materials and methods.
- M2 (SEQ ID NO:2, Table 4) and M2SG (SEQ ID NO:3, Table 4) peptides were synthesized by A & A Labs LLC (San Diego, CA). Purity of each peptide was determined as more than 95% by HPLC.
- SEQ ID NO:2 (M2) is a typical sequence of extracellular 23-amino-acid peptide of influenza virus matrix M2 protein seen in many influenza A virus strains.
- BSA bovine serum albumin
- PIERCE Biotechnology, Inc., Rockford, IL EDC conjugation kit according to the manufacturer's instructions.
- BSA-conjugated M2 and M2SG peptides were used for immunization of mice.
- M2 mutant peptide analogues used for the analysis of the binding specificity were designed based on the sequence information of M2 mutant proteins identified in mutant influenza A virus strains, which are listed in GenBank database.
- GenBank database The M2 analog peptides and truncated M2 peptides were synthesized by A & A Labs LLC (San Diego, CA).
- mice Human trans-chromosomic mice (WO 02/43478, WO 02/092812, Ishida and Lonberg, IBCs 1 lth Antibody Engineering Meeting. Abstract (2000); and Kataoka, S. IBCs 13th Antibody Engineering Meeting. Abstract (2002)) harboring human chromosome fragments containing the human immunoglobulin region were obtained from Kirin Brewery Co., Ltd. (Japan). C57BL/6J mice were purchased from Jackson Laboratories at Bar Harbor, ME.
- M2-BSA and M2SG-BSA (1:1 ratio in PBS (phosphate buffered saline, GIBCO BRL, Rockville, MD)) were mixed with an equal volume of complete
- CFA Freund's adjuvant
- IFA incomplete Freund's adjuvant
- ELISA Antibody titers and antibody specificity as well as antibody production by hybridomas were determined by ELISA.
- 50 ⁇ l of M2-BSA or M2 peptide were coated on a 96-well flat bottom plate (Nunc, Denmark) at a concentration of 1 ⁇ g/ml with carbonate buffer (pH 9.6) overnight at 4 0 C or at 37°C for 1 hr.
- carbonate buffer pH 9.6
- plates were blocked with PBS/1% BSA (Sigma, St. Louis, MO) at 37 0 C for 30 min., the antibody or serum was added to the wells and the plates were incubated at 37 0 C for 1 hr.
- Isotype ELISA The isotype of the antibody produced by the hybridomas was determined by ELISA.
- 50 ⁇ l of M2-BSA or M2 peptide were coated on a 96-well flat bottom plate (Nunc, Denmark) at a concentration of 1 ⁇ g/ml with carbonate buffer (pH 9.6) overnight at 4 0 C or at 37 0 C for 1 hr.
- carbonate buffer pH 9.6
- plates were blocked with PBS/1% BSA (Sigma, St. Louis, MO) at room temperature for 1 hr, the antibody was added to the wells and the plates were incubated at room temperature for 1 hr.
- MDCK cells Mesarby Canine Kidney epithelial cells; ATCC, Rockville, MD
- MDCK cells were plated in a 96-well flat bottom plate (Falcon®) at 1.5xlO 5 cells/mL in MEM containing 1% non-essential amino acids, 2 mM L- glutamine, 100 U/ml penicillin and 100 ⁇ g/ml streptomycin sulfate, 1 mM sodium pyruvate (cMEM) (InVitrogen, Carlsbad, CA) and 150 ⁇ l per well and cultured for 48 hr at 7%CO2.
- Falcon® 96-well flat bottom plate
- MEM containing 1% non-essential amino acids, 2 mM L- glutamine, 100 U/ml penicillin and 100 ⁇ g/ml streptomycin sulfate, 1 mM sodium pyruvate (cMEM) (InVitrogen, Carlsbad, CA) and 150 ⁇ l per well and cultured for
- the plate was washed twice with PBS and infected at room temperature for 30 minutes with 30 ⁇ l of 10-fold TCID50 influenza A virus (A/PR/8/34 or A/HK/1/68; ATCC, Rockville, MD) with periodically swirling. After infection, the plate was washed once with PBS and 150 ⁇ l of 1 ⁇ g/mL trypsin (TPCK-treated, Worthington, Biochem. Corp.) in Minimal Essential Media (Invitrogen Corp, CA) was added and the plate incubated for 27 hr.
- TCID50 influenza A virus A/PR/8/34 or A/HK/1/68; ATCC, Rockville, MD
- trypsin TPCK-treated, Worthington, Biochem. Corp.
- Minimal Essential Media Invitrogen Corp, CA
- the cell monolayer was washed with PBS/1%FCS (GIBCO BRL, Rockville, MD) three times and blocked with PBS/ 1%BSA/ 5%FCS at room temperature for 30 min.
- the antibodies were diluted and 50 ⁇ l added to each well and incubated at room temperature for 45 min.
- the HRP conjugated Rabbit anti-human immunoglobulin gamma chain antibody (DAKO, Denmark) was diluted 1:3000 and 50 ⁇ l added to each well and the plate was incubated at room temperature for 30 min. After washing 5 times, 100 ⁇ l of TMB substrate (DAKO, Denmark) containing ImM Levamisole solution (Vector Laboratories Inc.
- Virus-infected MDCK cells were prepared as described above. The M2 peptide and the anti-M2 antibodies were mixed and incubated at room temperature for 30 min. After incubation, 50 ⁇ l of the mixture of peptide and antibodies were added to cells and incubated at room temperature for 30 minutes. After washing 4 times, the HRP conjugated Rabbit anti-human immunoglobulin gamma chain antibody (DAKO, Denmark) was diluted 1:3000 and 50 ⁇ l added to each well and the plate was incubated at room temperature for 30 min.
- DAKO HRP conjugated Rabbit anti-human immunoglobulin gamma chain antibody
- TMB substrate DAKO, Denmark
- ImM Levamisole solution Vector Laboratories Inc., Burlingame, CA
- the plates were incubated at room temperature for 15 min.
- Fifty ⁇ l of supernatant was transferred to a new 96-well plate (Nunc, Denmark) containing 100 ⁇ l stop solution (IN H2SO4) and the optical density at 450nm was measured by a microplate reader.
- Hybridoma production The mouse having the highest antibody titer was selected for production of monoclonal antibodies.
- the spleen was harvested and single cell suspension was fused to a myeloma cell line (SP2/O-Agl4) (ATCC, Rockville, MD) at a 3:1 ratio with 50% PEG (Boehringer Mannheim, Indianapolis, IN).
- the fusions were plated onto 96-well plate at an optimal density and cultured in complete RPMI-IO medium (RPMI 1640 with 10% FCS, 1% nonessential amino acids, 2mM L-glutamine, 50 ⁇ M 2-ME, 100 U/ml penicillin and 100 ⁇ g/ml streptomycin sulfate) in a 5% CO 2 , 37 0 C incubator.
- complete RPMI-IO medium RPMI 1640 with 10% FCS, 1% nonessential amino acids, 2mM L-glutamine, 50 ⁇ M 2-ME, 100 U/ml penicillin and 100 ⁇ g/ml streptomycin sulfate
- Approximately 2000 hybridoma growing wells of each fusion were screened by ELISA. Cells positive for binding to the M2 peptide were transferred to 24 well plates and 4 rounds of limiting dilutions were performed to obtain monoclonal antibodies. Anti-M2 monoclonal antibodies were further confirmed by an Influenza A virus infected cell
- Antibody purification For antibody purification, hybridomas were cultured in an Integra system (INTEGRA Bioscience, Inc. Ijamsville, MD) with hybridoma-SFM (GIBCO BRL, Rockville, MD). Human monoclonal antibodies were purified from culture media using Protein A-Sepharose Fast Flow gel (Amersham Pharmacia Cat# 17-0618-02, Uppsala, Sweden).
- conditioned medium containing an appropriate amount of the antibody for the column capacity, was filtered with a 0.22 ⁇ m disk filter (Minisarto-plus, Sartorius Cat# 17822, Gettingen, Germany) and loaded onto a 2.0 ml Protein A-Sepharose Fast Flow column equilibrated with phosphate buffered saline (PBS).
- PBS phosphate buffered saline
- the concentrated sample was buffer-exchanged into 20 mM sodium phosphate, pH6.6, and loaded onto a 0.5 ml SP-Sepharose HP column
- the sample was concentrated with a centrifugal concentrator and buffer- exchanged into PBS by using NAP25 desalting columns (Amersham Pharmacia, Cat#17- 0852-02, Uppsala, Sweden).
- Antibody concentration was quantitated by a human IgG specific ELISA. Pyrogen levels of samples were determined to be less than 0.13 EU / mg of protein according to a Limulus Amebocyte Lysate (LAL) assay (Associates of Cape Cod, Inc., Falmouth, MA).
- LAL Limulus Amebocyte Lysate
- Isolation of human anti-M2 antibody (Z3) genes Cultured hybridoma cells (113Z-3), which produce Z3 antibody (isotype: IgG3) were collected by centrifugation.
- RNA 140 ⁇ g was purified from these cells using RNeasy kit (QIAGEN Inc., Valencia, CA) following the manufacturer's instructions.
- SMART RACE cDNA Amplification Kit (Clontech Co., Ltd., Palo Alto, CA) was used for cloning of cDNA of variable region of immunoglobulin genes from total RNA of hybridoma cells as a source. Briefly, first strand cDNA was prepared by reverse transcriptase from 2 microgram of RNA. This cDNA was used as a template for polymerase chain reaction (PCR) to amplify variable region and a part of constant region of heavy chain and light chain containing leader sequences (HV and LV, respectively).
- PCR polymerase chain reaction
- the reaction was as follows: 2.5 U KOD -Plus- DNA polymerase (TOYOBO, Tokyo, Japan); 0.2 ⁇ M Primer for one side (for Heavy chain: IgGIp, for Light chain: LCR276, see Table 2); IX Universal Primer Mix A for the other side (UMP primer Mix A attached to SMART RACE Kit); 200 ⁇ M each dNTP mix; 1 mM MgSO4; KOD -Plus- Buffer (final concentration is Ix); and cDNA template.
- thermocycling program was 94 0 C for 5 min, and then 30 cycles at 94 0 C for 5 sec and 68°C for 10 sec with an extension at 72 0 C for 3 min.
- Amplified DNA fragments were collected after ethanol precipitation and subsequent agarose gel electrophoresis, and purified by QIAquick Gel Extraction Kit (Qiagen Co., Ltd., Germany). Purified DNA fragments of HV and LV were integrated into PCR 4 Blunt- TOPO vector using Zero Blunt TOPO PCR Cloning Kit (Invitrogen, Carlsbad, CA), and each construct plasmid was transformed into E. coli, and then cloned.
- Nucleotide sequences of each insert (HV and LV) in construct plasmids were analyzed using specific primers (HV: M13F, M13R and hh-4, LV: M13F, M13R and LCR88, see Table 2).
- Nucleotide sequence ofcDNA ofZ3 heavy chain variable region (HV) (from initiation codon (ATG) to the end of variable region)- ATGGACTGGA CCTGGAGCAT CCTTTTCTTG GTGGCAGCAG CAACAGGTGC CCACTCCCAG 60
- MDWTWSILFL VAAATGAHSQ VQLVQSGAEV KKPGASVKVS CKASGYTFTS YGISWVRQAP 60 GQGLEWMGWI SAYNGNTNYA QKLQGRVTMT TDTSTSTAYM ELRSLRSDDT AVYYCARAAA 120
- IgGl type The expression vector of IgGl isotype-switched Z3 antibody (original isotype was IgG3) was constructed. Briefly, oligonucleotide primers, Z3LP5BGL and Z3LP3ERI (Table 2) containing 5'-BgIII and 3'-EcoRJ restriction enzyme sensitive overhang sites, respectively, were designed to amplify the full-length of Light chain (LVC) by PCR. PCR was performed using the first-strand cDNA as a template, Z3LP5BGL and Z3LP3ERI as primers with KOD -Plus- DNA polymerase.
- LVC Light chain
- LVC Light chain variable region sequence of Z3 (LV) and human lambda immunoglobulin light chain constant region, IGLC3 (GenBank Accession NG_000002: Homo sapiens immunoglobulin lambda locus on chromosome 22).
- HV was inserted into N5L3G1-Z3JLF DNA vector as follows: the DNA vector was digested by two DNA restriction enzymes, Nhel and Sail, and subsequently dephosphorylated. 9.2 kilobases DNA fragment (fragment A) was isolated.
- the primer set for PCR of HV was designed to have the sensitive region to these restriction enzymes in the both sides of HV.
- the primers are Z3HP5SAL and Z3HP3NHE (Table 2), and the construct plasmid of HV was used as a template. Purified PCR-amplified product of HV was subcloned into pGEM®-T Easy Vector System.
- the plasmid DNA was digested by two restriction enzymes, Nhel and Sail, and 0.44 kilobases DNA insert (fragment B) was isolated and purified after agarose gel electrophoresis.
- nucleotide and amino acid sequences of the full length ORF of heavy chain of Z3G1 are illustrated below.
- the nucleotide and amino acid sequences of the full length ORF of light chain of Z3G1 are the same of those of LVC of Z3 illustrated above.
- MDWTWSILFL VAAATGAHSQVQLVQSGAEVKKPGASVKVSCKASGYTFTSYGISWVRQAPGQGLE WMGWISA YNGNTNYAQKLQGRVTMTTDTSTSTAYMELRSLRSDDTAVYYCARAAAGGYFQHWGQG TLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLOSSGL YSLSSVVTVPSSSLGTOTYICNVNHKPSNTKVDKKVEPKSCDKTHTCPPCPAPELLGGPSVFLFPPKPKD TLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEOYNSTYRVVSVLTVLHQDWLN GKE YKCKVSNKALP APIEKTISKAKGOPREPOVYTLPPSRDELTKNOVSLTCLVKGFYPSDIA VEWESN GOPENNYKTTPPVLDSDGSFFLYSKL
- N5LG1_M2_Z3 vector containing the anti-M2 antibody was eletroporated into host cell dhfr-defective strain of Chinese Hamster Ovary cell (CHO cells, ATCC #CRL-9096) and recombinant antibody was isolated from the supernatant of the transfected cells.
- ten microgram of purified DNA expression vector, N5LG1_M2_Z3, was linearized by a DNA restriction enzyme, Ascl, and the DNA was transfected into 4 x 10 6 cells of CHO cells using a Bio Rad electroporator (350V, 500 ⁇ F).
- the transfected cells were seeded in 96-well culture plate, and cultured in the culture medium with Geneticin (Gibco-BRL) for selecting CHO cells containing the DNA vector. After the selection of several stable transfectant lines, high human IgG producers were screened by ELISA, and used for production of recombinant antibody.
- Geneticin Gabco-BRL
- CHO cells expressing recombinant antibody were cultured in a serum-free Ex-Cell 325-PE medium (JRH Bioscience, Co., Ltd.) supplemented with 2 mM glutamine, 100 units/ml penicillin, 100 ⁇ g/ml streptomycin and a hypoxanthine and thymidine (HT) supplement (1:100) (Invitrogen) in 5% CO 2 , 37°C incubator 20 liters of culture supernatant was used for purification of antibody protein as follows: The supernatant was applied to MabSelect Protein A column (Amersham Pharmacia Biotech, Co., Ltd.).
- PBS phosphate-buffered saline
- 20 mM sodium citrate buffer and 50 mM sodium chloride pH 2.7
- the pH of elution fraction was adjusted to pH5.5 by addition of 50 mM sodium phosphate buffer (pH 7.0).
- the sample was first pass through a 2 ml Q-Sepharose Fast Flow column (Amersham Pharmacia, Cat# 17-0510-01 , Uppsala, Sweden) that was connected with a series of a 0.5 ml SP-Sepharose HP columns (Amersham Pharmacia, Cat# 17- 1087-01, Uppsala, Sweden). After these steps, the Q-Sepharose Fast Flow column was removed and the antibody was eluted with PBS.
- Purified antibody was sterilized by filtering with Super Cup 100 Capsule membrane filter (0.22 ⁇ m diameter pore size). The concentration of the purified antibody was measured by spectrophotometry at 280 nm, in which lmg/ml of protein shows 1.4 OD at 280 ran.
- Recombinant Z3G1 antibody (41 mg) was purified from 20 liters of CHO cell culture supernatant. Pyrogen levels of samples were determined to be less than 0.1 EU / mg of protein according to a Limulus Amebocyte Lysate (LAL) assay, Pyrocell Single Test (SEIKAGAKU Corp., Tokyo, Japan).
- Virus isolation and titer measurements For virus isolation, infected mouse lungs were removed at various days after infection, frozen in liquid nitrogen and weighed in a pre- weighed tube. Actual lung weight was calculated by subtracting tube weight and PBS was added at 1:10 ratio of weight (gram) to volume (mL) and then homogenized by using the Fisher TissueMiser (Fisher Scientific, Pittsburgh, PA). The sample was centrifuged for 5 minutes at 3000 rpm with Centra GP8R centrifuge (International Equipment Company, Needham Heights, MA) to remove cell debris. Supernatants containing virions were aliquoted and frozen in liquid nitrogen. The virus was stored at -8O 0 C.
- Virus titer was measured by a plaque assay.
- confluent MDCK cell monolayers in a 6-well flat bottom plate were infected with 10-fold dilutions of virus in a total volume of lOO ⁇ l in PBS for 30 minutes with periodic swirling.
- the monolayers were washed with PBS once and overlayed with 46 0 C pre-warmed 0.9% ultra pure agarose (Invitrogen, Carlsbad, CA) in MEM containing 1% nonessential amino acids, 2mM L- glutamine, 100 U/ml penicillin and 100 ⁇ g/ml streptomycin sulfate, 1 mM sodium Pyruvate (GIBCO BRL, Rockville, MD) and 1 ⁇ g/ml of trypsin (TPCK-treated, Worthington, Biochem. Corp., Lakewood, NJ). Cells were incubated in a 37 0 C, 5% CO2 incubator. The plaques were observed in 3 days postinfection and stained with 0.1% crystal violet in a 10% formaldehyde solution. The number of plaques was counted.
- This example describes characterization of human and chimeric M2 monoclonal antibodies. This example also describes data indicating that anti-M2 human monoclonal antibody Z3G1 has a broad M2 binding spectrum and is capable of high affinity binding.
- Z3G1 anti-M2 human monoclonal antibody
- the isotype of Z3 was converted to IgGl with the Z3 Fab, and the CHO expression system of recombinant IgGl type Z3 (Z3G1).
- the methods used to produce Z3G1 antibody are as described in Example 1.
- Z3G1 specifically binds to M2 peptide and M2-BSA conjugates, but did not bind to BSA, KLH (carriers for immunization) or mGAD (a synthetic irrelevant peptide derived from mouse Glutamic Acid Decarboxylase, amino acids 246 to 266) in a manner similar to original Z3.
- Z3G1 recognizes the extracellular/ecto-domain of M2 protein (M2e) expressed on MDCK cells infected with influenza virus (Table 2). Moreover, Z3G1 antibody binding to virus infected cells is specifically inhibited when M2 peptide was added ( Figure 1). Thus, Z3G1 is specific for M2 peptide and also specific for M2 protein expressed on the surface of influenza A virus-infected MDCK cells. The binding affinity of Z3G1 was slightly greater, as reflected by a relatively lower Kd value, than three other human monoclonal anti-M2 antibodies (C40G1, N547 and L66), as determined by cell-based ELISA (Table 3).
- Z3G1 antibody recognizes M2e proteins expressed on MDCK cells infected with both virus strains (Table 3). This conclusion is supported by the peptide ELISA data illustrated in Table 5 (+ binding of Z3G1 antibody to M2 and M2G, see Table 4 for the sequences of M2 ⁇ and M2G). These results indicate that Z3 recognizes both M2 and M2G proteins expressed on MDCK cells infected with these two different virus strains.
- M2SG SLLTEVETPIRS 1 EWGCRCNDSGD (SEQ ID No:3)
- M2EG SLLTEVETPIRNEWECRCNGSSD (SEQ ID No:4)
- M2DLTGS SLLTEVDTLTRNGWGCRCSDSSD (SEQ ID No:7) M2KNS SLLTEVETPTRKEWGCNCSDSSD (SEQ ID No:8) M2LGS SLLTEVETLIRNGWGCRCSDSSD (SEQ ID No:9) M2LTKGS SLLTEVETLTKNGWGCRCSDSSD (SEQ ID No:10) M2SY SLLTEVETPIR£EWGCRYNDSSD (SEQ ID No:ll) M2TGEKS SLLTEVETPTRNGWECKCSDSSD (SEQ ID No:12) M2HTGEKS SLLTEVETHTRNGWECKCSDSSD (SEQ ID No:13) M2KTGEKS SLLTEVKTPTRNGWECKCSDSSD (SEQ ID No:14) M2LTGS SLLTEVETLTRNGWGCRCSDSSD (SEQ ID No:15) M2TDGEKS SLLTEVETPTRDGWECKCSDSSD (SEQ ID No:16) M2TGS SLLTEVE
- Binding activity of anti-M2 antibodies to mutant M2 peptides was analyzed with an ELISA assay using 25 different M2 peptides (SEQ ID NOs:2-26, Table 4) that have been reported in influenza A virus strains.
- Human anti-M2 antibody nos. Z3G1, C40G1, L66, N547 and mouse 14C2 antibody (Affinity Bioreagents, Golden, CO) were used in the study.
- C40G1 and 14C2 exhibited no binding or reduced binding activity to M2LGS, M2LTKGS, M2HTGEKS, M2KTGEKS, M2LTGS, M2TGEK, M2LTGEKS and M2TGE but Z3G1 antibody binds to all of these variant/mutant M2 peptides.
- ** 14C2 is a commercially i ivailable mouse monoclonal antibody to M2 peptide.
- Table 6 Binding of anti-M2 antibodies to the M2 peptide variants from recent Avian Flu outbreak
- M2e sequences of recent outbreak of avian influenza A strains were derived from The Center for Disease Control (CDC) influenza A database at http://www.flu.lanl.gov/ as shown in Tables 4 and 6.
- M2DLTGS, M2LTKGS and M2LTGS sequences are derived from avian H5N1 influenza A viruses that emerged as a pandemic threat to humans in 1997
- M2LTGEKS and M2TES are derived from avian influenza A viruses from 1999 and 2004 outbreak, respectively. All three of these strains are highly pathogenic and caused high mortality in humans (Suzuki, Biol. Pharm. Bull. 28:399 (2005); Katz, Avian Dis. 47(3 suppl):914 (2003)).
- human anti-M2 antibodies nos. Z3G1, L66, N547 and C40Gl were studied for binding to these five M2e variant peptides (Table 6).
- Z3G1 and N547 bind to all five M2e variant peptides as well as to the wild type M2 peptide.
- L66 bound well to most of the variants except for M2DLTGS.
- C40G1 did not bind to M2LTKGS and M2LTGS, and bound only weakly to M2LTGEKS.
- a mouse monoclonal anti-M2 antibody, 14C2 only bound weakly to M2DLTGS and M2TES, and did not bind to M2LTKGS, M2LTGS and M2LTGEKS.
- Z3G1 as well as L66 and N547 may provide a powerful strategy to treat pandemic H5Nland H9N2 threat and other potential avian influenza outbreak.
- Z3G1 as well as L66 and N547 are capable of binding to a broad range of M2e peptides found among influenza A strains.
- Further analysis of the CDC influenza A database indicated that certain M2e sequences predominate between human and avian influenza. While wild type M2 (SEQ ID NO:2) was dominantly expressed in human influenza A strains, M2TES was commonly expressed in avian strains. Because Z3G1, L66, N547 and C40G1 could bind to M2TES, these human anti-M2 antibodies could be potential therapeutic drugs for most avian influenza strains/isolates and subtypes.
- This example includes data indicating the antigenic determinant recognized by Z3G1, which differs from those recognized by human anti-M2 monoclonal antibodies, L66, N547 and C40G1.
- Minimal binding sequences of antibodies were mapped using various peptides having truncations of the M2 N-terminus and C-terminus (Tables 7 and 8). The epitope of each antibody is within the minimal binding sequence.
- the data indicates that the antigenic determinant (i.e. epitope) of N547 is within an amino acid sequence, LLTEVETPIRNEWGC (SEQ ID NO:52); that the epitope recognized by L66 is within an amino acid sequence, SLLTEVETPIRNEWGC (SEQ ID NO:53); and that the epitope recognized by C40G1 is within an amino acid sequence, TPIRNE (SEQ ID, NO:54).
- N-terminal 12-amino acid peptide (NMl 2, SEQ ID NO:69)
- C40G1, L66 and N547 were observed by ELISA (Table 7).
- Z3G1 bound well to NM12.
- Z3G1 showed significant binding to NMl 1, whereas the antibody did not detectably bind to NMlO.
- the minimal binding sequence of Z3G1 antibody was determined as LLTEVETPIR (SEQ ID NO:1), indicating that the epitope recognized by Z3G1 is within the sequence, LLTEVETPIR (SEQ ID NO:1).
- the data also indicates that antibody Z3G1 recognizes a different epitope from those of N547, L66 and C40G1 antibodies.
- Table 7 Binding activity of anti-M2 monoclonal antibodies to M2 truncated peptides.
- antibody no. Z3G1 was administered at doses of 100, 30 and 10 ⁇ g/mouse intraperitoneally to female C57BL/6J mice (6-8 weeks old).
- anesthetized mice (15 ⁇ l/g of Avertin (1:1 w/v of 2,2,2 tribromoethanol:tert-amyl-OH) Sigma, St. Louis, MO) were infected with 30 ⁇ l (3.2-fold of MLD50) of a lethal dose of influenza A/HK/1/68 (CDC, Atlanta, GA) intranasally.
- an isotype matched human monoclonal anti-HSA IgGl antibody generated from a KM mouseTM was used at lOO ⁇ g/mouse (Kirin Brewery Co., Ltd., Japan). Mice were observed daily for 23 days for survival. Surviving mice were sacrificed after that time and the lungs were removed for histological analysis.
- Anti-M2 antibody no. Z3G1 treated mice were significantly protected even at a dose as low as 10 ⁇ g/mouse (Figure 2). Ten of 10 mice (100%) were still alive over the 23-day period of observation. In contrast, in the control group, 9 of 10 mice (90%) died within 22 days post infection ( Figure 2).
- Anesthetized female C57BL/6J mice (6-8 weeks old) were infected with 30 ⁇ l of a sub lethal dose of influenza A/HK/1/68 (CDC, Atlanta, GA) intranasally. Anesthetization was performed using Avertin as previously described. The lungs of infected mice were removed at day 2, 5, 7, 9, 11 to determine virus titer by a plaque assay. To determine efficacy of anti-M2 monoclonal antibody for its prophalytic treatment of influenza virus, 30 ⁇ g of Z3G1 was administered one day prior to virus infection. Isotype-matched anti-HSA IgGl antibody was used as a control.
- M2 protein is highly expressed on infected cell surface, one of the mechanisms for anti-M2 antibody to protect a host from influenza A infection is to activate complement, which enhances opsonization and lyses infected cells thereby killing virus and preventing virus propagation in vivo.
- Anti-M2 antibodies were therefore studied for Complement Dependent Cytotoxicity on influenza A virus infected cells in vitro.
- MDCK cells were plated in a 96-well flat bottom plate (Falcon®) at 2.5x10 5 cells per mL and 150 ⁇ l per well in complete minimal Essential Media (cMEM) containing 20 mM L- Glutamine, 10 mM Sodium Pyruvate, 1000 Units/mL Pen-Strep, MEM Vitamin Solution, MEM Eagle Non-essential amino acids (Invitrogen, Carlsbad, CA) supplemented with 10% fetal bovine serum (FBS) and cultured for 24 hr at 7%CO 2 , 37°C.
- cMEM complete minimal Essential Media
- FBS fetal bovine serum
- the plate was washed twice with PBS and infected at room temperature for 30 minutes with 30 ⁇ l/well of 10-fold TCID50 influenza A virus (A/PR/8/34; ATCC, Rockville, MD) with periodic swirling. After infection, the plate was washed once with PBS and 150 ⁇ l of 1 ⁇ g/mL trypsin (TPCK-treated, Worthington, Biochem. Corp.) in cMEM was added and the plate was incubated for 26 hr at 7%CC> 2 , 37 0 C. Cell monolayers were then washed with minimal essential media (MEM) three times.
- TCID50 influenza A virus A/PR/8/34; ATCC, Rockville, MD
- Antibodies were diluted at the desired concentration in blocking buffer (the same buffer used for cell based ELISA) and 50 ⁇ l added to each well and incubated at room temperature for 30 min. Following incubation, wells were washed with MEM once. 100 ⁇ L of Low Tox M Rabbit Complements (Cedarlane Lab Limited - Accurate, Hornby, Ontario, CANADA) reconstituted in 1 mL of MEM and further diluted to 1:10 was then added to cells.
- blocking buffer the same buffer used for cell based ELISA
- the cell monolayer was washed with MEM three times, and the number of viable cells determined using CellTiter 96® AQ U eous one solution Cell Proliferation assay (Promega, Madison, WI) following the manufacturer's instructions. The greater the numbers of viable cells, the higher the optical density at 495 nm.
- the isotype control human antibody (HSA) could not lyse influenza A virus infected MDCK cells at any concentration.
- all human anti-M2 antibodies in the study Z3G1, L66, N547 and C40G1 lysed virus infected MDCK cell in a dose dependent manner. All antibodies lysed cells at 1 ⁇ g/mL, and the lysing effect close to maximum killing was observed at 10 ⁇ g/mL dose.
- ADCC Cell-Mediated Cytotoxicity
- Influenza A virus infected cells bound by anti-M2 antibody can be killed by a specialized non-T, non-B lymphoid cell called a natural killer cell (NK cell).
- NK cell natural killer cell
- the destruction of antibody-bound target cells by NK cells is called antibody-dependent cell-mediated cytotoxicity (ADCC), and is another mechanism by which anti-M2 antibody can protect a host from influenza A viral infection.
- ADCC antibody-dependent cell-mediated cytotoxicity
- MDCK cells were plated in a 96-well flat bottom plate (Falcon®) at 0.25x10 5 cells/mL of cMEM with 10% FBS and 150 ⁇ l per well and cultured for 24 hr at 7%CO 2 , 37 0 C. After 24 hr, the plate was washed twice with PBS and infected at room temperature for 30 minutes with 30 ⁇ l/well of 10-fold TCID50 influenza A virus (A/PR/8/34; ATCC,
- Cell lysis was determined by CytoTox 96® Non-Radioactive Cytotoxicity Assay system (Promega, Madison, WI) according to the manufacturer's instructions.
- This example includes studies demonstrating the prophylactic and therapeutic activity of anti-M2 human monoclonal antibody Z3G1. This example also includes studies indicating little if any toxicity anti-M2 human monoclonal antibody Z3G1 in monkeys.
- NK cell depletion In order to deplete NK cells, C57BL/6J mice were treated with 100 ⁇ g of PK136 (ATCC, Manassas, VA), a mouse monoclonal IgG2a antibody to NKl.1 antigen, which is known to be specifically expressed in NK cells. An isotype matched antibody (clone C44, ATCC) was used as a control. The antibodies were given 2 and 5 days before and 1 and 4 days after infection. After three injections of anti NKl.1 antibody or control antibody, one mouse from each group was sacrificed, and lymph nodes, spleen and peripheral blood were collected.
- PK136 ATCC, Manassas, VA
- Single cell suspensions were prepared after lysis of red blood cells by Red Blood Cell lysing buffer (Sigma, St Louis, MO) and stained with DX5 FITC and CD3 PE (eBioscience, San Diego, CA) or the appropriate isotype control on ice for 45 minutes after blocking with anti-Fc receptor antibody (clone 2.4G2 from eBioscience) for 20 minutes. After washing two times with PBS containing 2% FCS, 10 mM EDTA, 0.05% NaN3, and once with PBS, cells were fixed with 4% paraformaldehyde for 30 minutes and then analyzed by Flow Cytometry. DX5 is an NK cell marker in mice.
- NK cells present in each tissue was calculated based on the number of DX5 positive cells among the total number of cells in the suspension.
- Anti M2 antibody treatment of influenza A infection in NK cell depleted mouse Anti-M2 antibody Z3G1 was administered at a dose of 100 ⁇ g/mouse intraperitoneally one day before the viral infection.
- an isotype matched human monoclonal anti human serum albumin (HSA) IgGl antibody was administered at 100 ⁇ g/mouse.
- HSA human monoclonal anti human serum albumin
- mice were anesthetized with 15 ⁇ L/g of Avertin (1:1 w/v of 2,2,2 tribromoethanol and tert amyl alcohol, Sigma, St. Louis, MO), and were administered intranasally 30 ⁇ L of a lethal dose (3.2 fold of MLD50) of influenza A/HK/1/68 (CDC, Atlanta, GA). Mice were then observed daily for 23 days for survival.
- NK cells were reduced in all three tissues analyzed in the mouse treated with the anti NKl .1 antibody compared to the mouse treated with the isotype control antibody.
- DX5 positive cells that represented NK cells were reduced from 0.93% to 0.02% in the lymph node, from 1.74% to 0.52% in the spleen and from 3.45% to 0.75% in the peripheral blood.
- Table 9 Percentage of DX5+ cells in the mouse treated with the anti NKl.1 antibody? and the mouse with the isotype control antibody.
- Z3G1/NK- and Z3G1/NK+ groups 6 of 7 and 6 of 8 mice respectively, survived over the 23 day period of observation. No statistical difference was observed between these two groups (p>0.05, by Kaplan Meier survival analysis).
- mice In contrast, 1 of 8 and 0 of 8 mice were alive in HSA/NK- and HSA/ NK+ groups respectively.
- the change in time course of the survival of infected mice between Z3G1 treated and anti-HSA treated groups were statistically significant in both NK depleted and non depleted condition (pO.OOl).
- M2 HBc hepatitis B core particle
- anti-M2 antibody Z3G1 effectively protected mice from a lethal influenza A challenge even in the NK cell depleted condition.
- anti-M2 human monoclonal antibody Z3G1 can be effective in immunocompromised subjects, such as cancer patients where NK cell function may be impaired.
- passive immunotherapy with anti-M2 antibody Z3G1 may offer a superior protection against influenza A infection compared to the vaccine.
- mice 15 ⁇ L/g of Avertin (1:1 w/v of 2,2,2 tribromoethanol and tert amyl alcohol) (Sigma, St. Louis, MO) were infected intranasally with 30 ⁇ L (3.2 fold of MLD50) of a lethal dose of influenza A/HK/1/68 (CDC, Atlanta, GA).
- Z3G1 was administered at doses of 200, 100 and 30 ⁇ g/mouse intraperitoneally to female C57BL/6J mice (6 ⁇ 8 weeks old) one day after viral infection.
- an isotype matched human monoclonal anti HSA IgGl antibody was administered at 200 ⁇ g/mouse. Mice were observed daily for 23 days for survival.
- the antibody was administered by intravenous infusion over approximately 45 minutes with a single dose at 30mg/kg to two cynomolgus monkeys. Animals were studied for three weeks after which they were necropsied. As a control, the vehicle, PBS was given to two monkeys. Treatment with 30 mg/kg of Z3G1 did not meaningfully change clinical observations, such as food consumption and body weight compared to control group. The antibody did not have a specific effect on hematologic parameters and serum chemistry, indicating that there was no meaningful change in clinical pathology as well.
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- 2005-12-05 KR KR1020077011773A patent/KR20070085439A/en active IP Right Grant
- 2005-12-05 WO PCT/IB2005/004146 patent/WO2006061723A2/en active Application Filing
- 2005-12-05 CA CA002585104A patent/CA2585104A1/en not_active Abandoned
- 2005-12-05 EP EP05850822A patent/EP1819732A2/en not_active Withdrawn
- 2005-12-05 US US11/577,695 patent/US8124091B2/en not_active Expired - Fee Related
- 2005-12-05 EP EP10179368A patent/EP2295465B1/en not_active Not-in-force
- 2005-12-05 CN CN200580041805.XA patent/CN101072795B/en not_active Expired - Fee Related
- 2005-12-05 AU AU2005313026A patent/AU2005313026B2/en not_active Ceased
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Also Published As
Publication number | Publication date |
---|---|
TW200626614A (en) | 2006-08-01 |
WO2006061723B1 (en) | 2007-03-01 |
AU2005313026B2 (en) | 2011-09-08 |
CA2585104A1 (en) | 2006-06-15 |
US8124091B2 (en) | 2012-02-28 |
JP4881874B2 (en) | 2012-02-22 |
EP2295465B1 (en) | 2013-02-13 |
TWI377212B (en) | 2012-11-21 |
WO2006061723A3 (en) | 2007-01-18 |
KR20070085439A (en) | 2007-08-27 |
US20090196872A1 (en) | 2009-08-06 |
EP2295465A3 (en) | 2011-06-22 |
CN101072795B (en) | 2014-07-02 |
CN101072795A (en) | 2007-11-14 |
EP2295465A2 (en) | 2011-03-16 |
JP2008522610A (en) | 2008-07-03 |
AU2005313026A1 (en) | 2006-06-15 |
EP1819732A2 (en) | 2007-08-22 |
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