WO2004076677A2 - Monoclonal antibody production by ebv transformation of b cells - Google Patents
Monoclonal antibody production by ebv transformation of b cells Download PDFInfo
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- WO2004076677A2 WO2004076677A2 PCT/IB2004/001071 IB2004001071W WO2004076677A2 WO 2004076677 A2 WO2004076677 A2 WO 2004076677A2 IB 2004001071 W IB2004001071 W IB 2004001071W WO 2004076677 A2 WO2004076677 A2 WO 2004076677A2
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- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/30—Against vector-borne diseases, e.g. mosquito-borne, fly-borne, tick-borne or waterborne diseases whose impact is exacerbated by climate change
Definitions
- This invention relates to monoclonal antibodies, to a method for preparing immortalised memory B cells, to a method for preparing immortalised memory B cells capable of producing a monoclonal antibody with a desired antigen specificity and to the use of antibodies produced by said immortalised memory B cells.
- the invention is particularly useful for preparing human monoclonal antibodies.
- the invention relates to a method for preparing immortalised human memory B cells capable of producing antibodies specific for an infectious agent, more particularly where the infectious agent is the severe acute respiratory syndrome (SARS) virus. Further embodiments are described below.
- SARS severe acute respiratory syndrome
- FR2817875 describes a modified version of this protocol where prior to immortalisation, B lymphocytes are induced to differentiate by a nonspecific activating system and a c tokine. The B cell blasts may be taken from the spleen or lymph nodes.
- the difficulty in obtaining antigen-stimulated B cell blasts and the lack of suitable fusion partners has hampered this approach in the human system.
- Epstein Barr Virus has been used to immortalize human (and primate) B cells producing specific antibodies.
- the EBV method has been described in several publications since 1977 (Rosen et al. 1977; Steinitz et al. 1977; Steinitz et al. 1980; Kozbor & Roder 1981; Lundgren et al. 1983; Rosen et al. 1983; Steinitz et al. 1984; Lanzavecchia 1985).
- B cells are immortalized by infection with EBV and growing clones secreting specific antibodies are selected. The method does not require antigenic boost, since EBV immortalizes also resting human B cells.
- the EBV-based method has several limitations, namely the low efficiency of immortalization, the low cloning efficiency of EBV-immortalized B cells, the slow growth rate and, in some cases, low antibody production.
- US4997764 describes a method of improving the growth rate of the EBV immortalised cells comprising transfecting EBV infected B cells with activated c-myc DNA. This confers on the cells the ability to grow in semi-solid media and to grow in hosts such as rats and mice.
- WO95/13089 describes the use of GM-CSF and IL-3 to stimulate the release of antibody by B cells.
- Bomkamm et al. (US5798230) have overcome the problem of low production of antibodies by inactivating EBNA2.
- the invention is based on the discovery that a polyclonal B cell activator (such as CpG sequences) enhances the efficiency of EBV immortalization and of cloning EBV-immortalized cells. This increased efficiency represents a quantum leap that makes the EBV technique suitable for the rapid isolation of large numbers of human monoclonal antibodies from the memory repertoire with no need for specific irrimunization or boosting.
- Antibodies are selected from the physiological irnmunocompetent environment stimulated by natural contact with a pathogen or antigen. The method is therefore particularly useful to produce antibodies against antigenic determinants that are specifically recognised by the human immune system.
- the invention provides inter alia a method for producing immortalised human B memory lymphocytes, comprising the step of transforming human B memory lymphocytes using Epstein Barr virus (EBV) in the presence of a polyclonal B cell activator.
- EBV Epstein Barr virus
- the invention provides a method for producing a clone of an immortalised human B memory lymphocyte capable of producing a human, monoclonal antibody with a desired antigen specificity, comprising the steps of:
- the methods of the invention have already been used to clone human memory B lymphocyte with up to 100% efficiency.
- EBV-transformed B cell clones that produce neutralizing IgG antibodies specific for measles virus, the Plasmodium species that cause malaria in humans, tetanus toxoid, Toxoplasma gondii and alloantigens have been produced using this procedure.
- EBV-transformed B cell clones that produce neutralizing IgG antibodies specific for the SARS coronavirus (CoV) have also been produced. It will be appreciated that the method can be transferred and used for the production of antibodies against any specificity that is present in the human memory repertoire.
- the invention provides a method for producing a clone of immortalised human B memory lymphocytes capable of producing a human monoclonal antibody specific for the SARS virus, comprising the steps of: (i) transforming a population of cells comprising or consisting of human memory B lymphocytes with Epstein Barr Virus (EBV) in the presence of a polyclonal B cell activator,
- EBV Epstein Barr Virus
- antibody having specificity for the SARS virus means that an antibody molecule binds to the coronavirus that is the causative agent of SARS with a greater affinity compared to its binding affinity for other viruses.
- the invention also provides a method for producing immortalised human B memory lymphocytes, comprising a step of transforming a population of human B memory lymphocytes, wherein the method transforms >n% of the human B memory lymphocytes in the population.
- the value of n is selected from 2, 3, 4, 5, 10, 20, 30, 40, 50, 60, 70, 80, 90 and 100.
- the immortalised cells After the immortalised cells are produced then they can be screened to select cells that produce antibodies with a desired specificity. Selected cells can then be used for monoclonal antibody production. This method preferably does not involve cellular fusion of the B memory lymphocytes with other cells.
- polyclonal activator means a molecule or compound or a combination thereof that activates B lymphocytes irrespective of their antigenic specificity.
- a range of different molecules may be used as the polyclonal activator.
- Toll Like Receptors TLRs
- TLR agonists include microbial products and synthetic compounds.
- Preferred polyclonal activators are agonists of the Toll Like Receptors which are expressed on memory B cells, such as TLR-7, TLR-9 and TLR- 10 (Bernasconi et al. 2003). Such molecules may be of microbial or cellular origin or synthetic.
- Unmethylated DNA ol ⁇ gonucleotides are TLR-9 agonists. They stimulate .dendritic cell maturation and activate B cell proliferation and differentiation polyclonally, i.e. irrespective of the antibody specificity (Krieg et al. 1995; Krieg 2002). The biological effect of CpG is dependent on specific sequences and chemical modifications (Krieg 2002).
- CpG oligonucleotides can be used as polyclonal activators, and examples of suitable activators are CpGs such as CpG 2006 (5 ' -TCGTCGTTTTGTCGTTTTGTCGTT-3 ' ; Hartrnann et al. 2000) and other oligonucleotide sequences that trigger TLR-9.
- CpG we mean sequences of unmethylated DNA oligonucleotides. More particularly, the term “CpG” includes single-stranded DNA molecules of between 5 and 100 nucleotides in length (e.g. 10-80, 20-70, 30-60 micleotides) that include one or more instances (e.g. 2, 4, 6, 8, 10 or more) of the dinucleotide CG sequence, with the C in the dinucleotide(s) being unmethylated.
- Imidazoquinoline compounds such as R-848 (resiquimod), trigger TLR-7 and TLR-8 and stimulate dendritic cell maturation (Hemmi et al. 2002). Such compounds can be used as polyclonal activators with the invention e.g.
- R-848 and its analogs and other synthetic compounds that trigger TLR-7 and TLR-8, including but not limited to: imiquimod, loxoribine, and guanosine analogs (e.g. 7-thia-8- oxoguanosine and 7-deazaguanosine).
- polyclonal activators include other agonists of TLRs and of other pattern recognition receptors (PRRs) that are expressed on B memory cells, including monoclonal antibodies specific for TLRs.
- Additional polyclonal activators include CD40L, BAFF (B-cell activating factor, Schneider et al. 1999, also known as tumor necrosis factor superfamilty member 13B, BLyS, or THANK), antibodies specific for CD40 and other molecules expressed by dendritic cells and activated T cells. In these cases the cells themselves may be used as polyclonal activators.
- Polyclonal activators may also include PAMPs (pathogen-associated molecular patterns), such as lipopolysaccharide (LPS), peptidoglycans, flagellins, zymosans and other cell wall components found in pathogens.
- PAMPs pathogen-associated molecular patterns
- Other available polyclonal activators include loxoribine, heat-killed Acholeplasma ladilawii, heat-killed Listeria monocytogenes, lipoteichoic acids, tripalmitoylated lipopeptides (e.g. Pam 3 CSK4), single-stranded RNA (Diebold et al. 2004; Heil et al. 2004), double-stranded RNA, poly(LC), bacterial DNAs, etc.
- TLR agonists can be found in Takeda et al. (2003). Some activators are not preferred for use with human B cells e.g. LPS.
- CpG 2006 is used as the polyclonal activator.
- Commercial suppliers of suitable polyclonal activators include Invivogen.
- cells can be transformed with EBV in the presence of a polyclonal B cell activator. Transformation with EBV is a standard technique and can easily be adapted to include polyclonal B cell activators.
- Additional stimulants of cellular growth and differentiation may be added during the transformation step to further enhance the efficiency.
- These stimulants may be cytokines such as IL-2 and IL-15.
- IL-2 is added during the immortalisation step to further improve the efficiency of immortalisation, but its use is not essential.
- the memory B cells to be transformed can come from various sources (e.g. from whole blood, from peripheral blood mononuclear cells (PBMCs), from blood culture, from bone marrow, from organs, etc.), and suitable methods for obtaining human B cells are well known in the art. Samples may include cells that are not memory B cells e.g. other blood cells. A specific human memory B lymphocyte subpopulation exhibiting a desired antigen specificity may be selected before the transformation step by using methods known in the art. In one embodiment, the human memory B lymphocyte subpopulation has specificity for the SARS virus e.g. the B cells are taken from a patient who is suffering or has recovered from SARS.
- PBMCs peripheral blood mononuclear cells
- B cells are taken from subjects with Alzheimer's disease and include B cells with specificity for ⁇ -amyloid (e.g. Hock et al. (2002) Nature Medicine 8:1270-75; Mattson & Chan (2003) Science 301 :1847-9; etc.).
- lymphocyte transforming agents may be used, including other viruses that can transform B cells.
- EBV is suitable for transforming the B cells of most primates but, for other organisms, suitable viruses can be selected.
- B cells are screened for those having the desired antigen specificity, and individual B cell clones can then be produced from the positive cells.
- the screening step may be carried out by ELISA, by staining of tissues or cells (including transfected cells), a neutralisation assay or one of a number of other methods known in the art for identifying desired antigen specificity.
- the assay may select on the basis of simple antigen recognition, or may select on the additional basis of a desired function e.g. to select neutralising antibodies rather than just antigen-binding antibodies, to select antibodies that can change characteristics of targeted cells, ' such as their signalling cascades, their shape, their growth rate, their capability of influencing other cells, their response to the influence by other cells or by other reagents or by a change in conditions, their differentiation status, etc.
- the cloning step for separating individual clones from the mixture of positive cells may be carried out using limiting dilution, micromanipulation, single cell deposition by cell sorting or another method known in the art.
- the cloning is carried out using limiting dilution.
- the methods of the invention produce immortalised B cells that produce antibodies having a desired antigen specificity.
- the invention thus provides an immortalised B cell clone obtainable or obtained by the methods of the invention.
- These B cells can be used in various ways e.g. as a source of monoclonal antibodies, as a source of nucleic acid (DNA or mRNA) encoding a monoclonal antibody of interest, for delivery to patients for cellular therapy, for research, etc.
- the invention provides a composition comprising immortalised B memory lymphocytes, wherein the lymphocytes produce antibodies, and wherein the antibodies are produced at ⁇ lO ⁇ ng per clone per day.
- the invention also provides a composition comprising clones of an immortalised B memory lymphocyte, wherein the clones produce a monoclonal antibody of interest, and wherein the antibody is produced at > ⁇ Q N ⁇ g per clone per day.
- Nis selected from -3, -2, -1, 0, 1, 2, 3 or A.
- the invention provides a monoclonal antibody obtainable or obtained from B cell clones of the invention.
- the invention also provides fragments of these monoclonal antibodies, particularly fragments that retain the antigen-binding activity of the antibodies.
- antibodies of the invention fall into two categories: they either recognise self antigens or non-self antigens.
- Antibodies that recognise self antigens can be used to treat diseases caused by aberrant gene expression, including cancers, and by aberrant protein processing, including Alzheimer's disease.
- Antibodies that recognise non-self antigens can be used to treat infectious diseases, including parasitic, viral and bacterial infections.
- the invention can advantageously provide human antibodies that recognise antigens of interest where it has not previously been possible.
- the methods of the invention produce antibodies with the characteristics of those produced in the course of a physiological human immune response i.e. antibody specificities that can only be selected by the human immune system.
- human pathogens including HIV, the Plasmodium species that cause human malaria, human hepatitis B and C viruses, Measles virus, Ebola virus, the SARS virus, Pox virus, Bunyaviridae, Arenaviridae, Bornaviridae, Reoviridae (including rotaviruses and orbiviruses), Refroviridae (including HTLV-I, HTLV-II, HIV-1, HTV-2), Polyomaviridae, P apillomaviridae, Adenoviridae, Parvoviridae, Herpesviridae (including herpes simplex viruses 1 and 2, cytomegaloviruses, varicella-zoster virus, herpesviruses 6A, 6B and 7), Poxviridae,
- a neutralising antibody is one that can neutralise the ability of that pathogen to initiate and or perpetuate an infection in a host.
- the invention provides a neutralising monoclonal human antibody, wherein the antibody recognises an antigen from a pathogen selected from: human immunodeficiency virus; hepatitis A virus; hepatitis B virus; hepatitis C virus; herpes simplex virus type 1 or type 2; SARS coronavirus; measles virus; mumps virus; rubella virus; rabies virus; ebola virus; influenza virus; papillomavirus; vaccinia virus; varicella-zoster virus; variola virus; polio virus; rhino virus; respiratory syncytiai virus;
- Streptococcus pyogenes Streptococcus pyogenes; Staphylococcus aureus; Bacillus anthracis; Moraxella catamhalis;
- the invention also provides monoclonal human antibodies that recognise proteins specifically expressed in tumours, in diseased cardiovascular cells, during inflammatory responses, in neurological disorders (including Alzheimer's disease e.g. ⁇ -amyloid proteins), in encephalopathies, etc.
- the invention also provides monoclonal human antibodies that recognise narcotic substances such as cocaine, heroin, benzoylecgonine, amphetamines, etc.
- Specific antigens that may be recognised by antibodies of the invention include, but are not limited to: TNF- , ⁇ -amyloid protein, SARS coronavirus spike protein, prion protein PrP, complement C5, CBL, CD147, IL-8, FTTV glycoprotein gpl20, VLA-4, CDlla, CD18, VEGF, CD40L, cellular adhesion molecules such as ICAMs and VCAMs, CD80, integrins, TPL2, Her2, etc.
- the invention also provides an antibody having two polypeptide chains, wherein one or both of polypeptide chains has have a human VDJ sequence.
- Monoclonal antibodies produced by the methods of the invention may be further purified, if desired, using filtration, centrifugation and various chromatographic methods such as HPLC or affinity chromatography. Techniques for purification of monoclonal antibodies, including techniques for producing pharmaceutical-grade antibodies, are well known in the art.
- Fragments of the monoclonal antibodies of the invention can be obtained from the monoclonal antibodies so produced by methods that include digestion with enzymes, such as pepsin or papain, and/or by cleavage of disulfide bonds by chemical reduction.
- Antibody "fragments” include Fab, F(ab') 2 and Fv fragments.
- the invention also encompasses single-chain Fv fragments (scFv) derived from the heavy and light chains of a monoclonal antibody of the invention e.g. the invention includes a scFv comprising the CDRs from an antibody of the invention.
- the invention also provides a monoclonal human antibody with neutralising activity, wherein the antibody can neutralise at a concentration of 10 "9 M or lower (e.g. 10 "1 ° M, 10 "11 M, 10 "12 M or lower).
- Monoclonal antibodies are particularly useful in identification and purification of the individual polypeptides or other antigens against which they are directed.
- the monoclonal antibodies of the invention have additional utility in that they may be employed as reagents in immunoassays, radioimrnunoassays (RIA) or enzyme-linked immunosorbent assays (ELISA).
- the antibodies can be labelled with an analytically-detectable reagent such as a radioisotope, a fluorescent molecule or an enzyme.
- the monoclonal antibodies produced by the above method may also be used for the molecular identification and characterization (epitope mapping) of antigens recognized by protected individuals in complex pathogens such as plasmodia, the isolation of cross-reactive protective antibodies in the case of highly variable pathogens such as those found in HIV and for detecting pathogens and determining their variability.
- Antibodies of the invention can be coupled to a drug for delivery to a treatment site or coupled to a detectable label to facilitate imaging of a site comprising cells of interest, such as cancer cells.
- Methods for coupling antibodies to drugs and detectable labels are well known in the art, as are methods for imaging using detectable labels.
- Antibodies of the invention may be attached to a solid support.
- Antibodies of the invention are preferably provided in purified form.
- the antibody will be present in a composition that is substantially free of other polypeptides e.g. where less than 90% (by weight), usually less than 60% and more usually less than 50% of the composition is made up of other polypeptides.
- Antibodies of the invention may be immunogen ⁇ c in non-human (or heterologous) hosts e.g.
- the antibodies may have an idiotope that is immunogenic in non-human hosts, but not in a human host.
- Antibodies of the invention for human use include those that cannot be obtained from hosts such as mice, goats, rabbits, rats, non-primate mammals, etc. and cannot be obtained by humanisation or from xeno-mice.
- Antibodies of the invention can be of any ⁇ sotype (e.g. ⁇ gA, IgG, IgM i.e. an a, ⁇ or ⁇ heavy chain), but will generally be IgG. Within the IgG isotype, antibodies may be IgGl, IgG2, IgG3 or IgG4 subclass, Antibodies of the invention may have a ⁇ c or a ⁇ light chain.
- the invention also provides an immortalised B memory lymphocyte cell (particularly a human cell), wherein the cell is infected with EBV and encodes an antibody of the invention.
- HerceptinTM (trastuzumab), RituxanTM, CampathTM, RemicadeTM, ReoProTM, MylotargTM, ZevalinTM, Omalizumab, SynagisTM (Palivizumab), ZenapaxTM (daclizumab), etc.
- HerceptinTM recognises the Her2 marker
- antibodies that recognise pathogenic antigens e.g. SynagisTM recognises an antigen from respiratory syncytial virus.
- the invention thus provides a pharmaceutical composition containing the monoclonal antibodies of the invention and/or the transformed B cells of the invention.
- a pharmaceutical composition may also contain a pharmaceutically acceptable carrier for administration of the antibody.
- the carrier should not itself induce the production of antibodies harmful to the individual receiving the composition and should not be toxic.
- Suitable carriers may be large, slowly metabolised macromolecules such as proteins, polypeptides, liposomes, polysaccharides, polylactic acids, polyglycolic acids, polymeric amino acids, amino acid copolymers and inactive virus particles.
- salts can be used, for example mineral acid salts, such as hydrochlorides, hydrobromides, phosphates and sulphates, or salts of organic acids, such as acetates, propionates, malonates and benzoates.
- mineral acid salts such as hydrochlorides, hydrobromides, phosphates and sulphates
- organic acids such as acetates, propionates, malonates and benzoates.
- Pharmaceutically acceptable carriers in therapeutic compositions may additionally contain liquids such as water, saline, glycerol and ethanol. Additionally, auxiliary substances, such as wetting or emulsifying agents or pH buffering substances, may be present in such compositions. Such carriers enable the pharmaceutical compositions to be formulated as tablets, pills, dragees, capsules, liquids, gels, syrups, slurries and suspensions, for ingestion by the patient.
- Preferred forms for administration include forms suitable for parenteral administration, e.g. by injection or irrfusion, for example by bolus injection or continuous mfusion.
- the product may take the form of a suspension, solution or emulsion in an oily or aqueous vehicle and it may contain formulatory agents, such as suspending, preservative, stabilising and/or dispersing agents.
- the antibody molecule may be in dry form, for reconstitution before use with an appropriate sterile liquid.
- compositions of the invention can be administered directly to the subject. It is preferred that the compositions are adapted for administration to human subjects.
- compositions of this invention may be administered by any number of routes including, but not limited to, oral, intravenous, intramuscular, intra-arterial, intramedullary, intraperitoneal, intrathecal, intraventricular, transdermal, transcutaneous (e.g. WO98/20734), topical, subcutaneous, intranasal, enteral, sublingual, intravaginal or rectal routes. Hyposprays may also be used to administer the pharmaceutical compositions of the invention.
- the therapeutic compositions may be prepared as injectables, either as liquid solutions or suspensions. Solid forms suitable for solution in, or suspension in, liquid vehicles prior to injection may also be prepared.
- Direct delivery of the compositions will generally be accomplished by injection, subcutaneously, intraperitoneally, intravenously or intramuscularly, or delivered to the interstitial space of a tissue.
- the compositions can also be administered into a lesion.
- Dosage treatment may be a single dose schedule or a multiple dose schedule.
- Known antibody-based pharmaceuticals provide guidance relating to frequency of administration e.g. whether a pharmaceutical should be delivered daily, weekly, monthly, etc. Frequency and dosage may also depend on the severity of symptoms.
- the active ingredient in the composition will be an antibody molecule. As such, it will be susceptible to degradation in the gastrointestinal tract. Thus, if the composition is to be administered by a route using the gastrointestinal tract, the composition will need to contain agents which protect the antibody from degradation but which release the antibody once it has been absorbed from the gastrointestinal tract.
- compositions of the invention generally have a pH between 5.5 and 8.5, preferably between 6 and 8, and more preferably about 7.
- the pH may be maintained by the use of a buffer.
- the composition may be sterile and/or pyrogen free.
- the composition may be isotonic with respect to humans.
- Pharmaceutical compositions of the invention are preferably supplied in hermetically-sealed containers.
- Pharmaceutical compositions will include an effective amount of one or more antibodies of the invention and or one or more transformed B cells of the invention i.e. an amount that is sufficient to treat, ameliorate, or prevent a desired disease or condition, or to exhibit a detectable therapeutic effect. Therapeutic effects also include reduction in physical symptoms.
- an effective dose will generally be from about O.Olmg/kg to about 50mg/kg, or about 0.05 mg/kg to about 10 mg kg of the compositions of the present invention in the individual to which it is administered.
- Known antibody-based pharmaceuticals provide guidance in this respect e.g.
- HerceptinTM is administered by intravenous infusion of a 21 mg/ml solution, with an initial loading dose of 4mg/kg body weight and a weekly maintenance dose of 2mg/kg body weight; RituxanTM is administered weekly at 375mg/m 2 ; etc.
- Compositions can include more than one (e.g. 2, 3, 4, 5, etc.) antibody of the invention, particularly where such antibodies bind to different antigens (or to different epitopes in the same antigen) to provide a sy ⁇ ergistic therapeutic effect.
- more than one antibody of the invention particularly where such antibodies bind to different antigens (or to different epitopes in the same antigen) to provide a sy ⁇ ergistic therapeutic effect.
- Antibodies of the invention may be administered (either combined or separately) with other therapeutics e.g. with chemotherapeutic compounds, with radiotherapy, etc.
- compositions of the invention that include antibodies of the invention, the antibodies preferably make up at least 50% by weight (e.g. 60%, 70%, 80%, 90%, 95%, 97%, 98%, 99% or more) of the total protein in the composition.
- the antibodies are thus in purified form.
- the invention provides a method of preparing a pharmaceutical, comprising the steps of: (i) preparing a monoclonal antibody of the invention; and (ii) admixing the purified antibody with one or more pharmaceutically-acceptable carriers.
- the invention also provides a method of preparing a pha ⁇ naceutical, comprising the step of admixing a monoclonal antibody with one or more pharmaceutically-acceptable carriers, wherein the monoclonal antibody is a monoclonal antibody that was obtained from a transformed B cell of the invention.
- nucleic acid typically DNA
- a subject that encodes the monoclonal antibody (or active fragment thereof) of interest
- Suitable gene therapy and nucleic acid delivery vectors are known in the art. Medical treatments and uses
- the monoclonal antibodies of the invention or fragments thereof may be used for the treatment of disease, for the prevention of disease or for the diagnosis of disease.
- the monoclonal antibodies of the invention are used for the prevention or treatment of SARS or for the diagnosis or SARS.
- Methods of diagnosis may include contacting an antibody or an antibody fragment with a sample.
- the methods of diagnosis may also include the detection of an antigen/antibody complex.
- the invention provides a composition of the invention for use as a medicament. It also provides the use of an antibody of the invention in the manufacture of a medicament for treatment of a patient and/or diagnosis in a patient. It also provides a method for treating a subject and/or of performing diagnosis on a subject, comprising the step of administering to them a composition of the invention.
- the subject is preferably a human.
- One way of checking efficacy of therapeutic treatment involves monitoring disease symptoms after administration of the composition of the invention. Treatment can be a single dose schedule or a multiple dose schedule.
- the invention is useful for treating infectious diseases, cancers, inflammatory diseases, autoimmune diseases, etc.
- Antibodies of the invention can be used in passive immunisation.
- compositions of the invention will generally be administered directly to a patient.
- Direct delivery may be accomplished by parenteral injection (e.g. subcutaneously, intraperitoneally, intravenously, intramuscularly, or to the interstitial space of a tissue), or by rectal, oral (e.g. tablet, spray), vaginal, topical, transdermal or transcutaneous, intranasal, ocular, aural, pulmonary or other mucosal administration.
- compositions of the invention may be prepared in various forms.
- the compositions may be prepared as injectables, either as liquid solutions or suspensions.
- Solid forms suitable for solution in, or suspension in, liquid vehicles prior to injection can also be prepared (e.g. a lyophilised composition, like SynagisTM and HerceptinTM, for reconsitution with sterile water containing a preservative).
- the composition may be prepared for topical administration e.g. as an ointment, cream or powder.
- the composition may be prepared for oral administration e.g. as a tablet or capsule, as a spray, or as a syrup (optionally flavoured).
- the composition may be prepared for pulmonary administration e.g. as an inhaler, using a fine powder or a spray.
- the composition may be prepared as a suppository or pessary.
- the composition may be prepared for nasal, aural or ocular administration e.g. as drops.
- the composition may be in kit form, designed such that a combined composition is reconstituted just prior to administration to a patient.
- a lyophilised antibody can be provided in kit form with sterile water or a sterile buffer.
- Antibodies and fragments thereof as described in the present invention may also be used in a kit for the diagnosis of tumour, autoimmune or allergic disease. Recombinant expression
- the immortalised memory B lymphocytes produced using the method of the invention may also be used as a source of nucleic acid for the cloning of antibody genes for subsequent recombinant expression.
- Expression from recombinant sources is more common for pharmaceutical purposes than expression from B cells or hybridomas e.g. for reasons of stability, reproducibility, culture ease, etc.
- the invention provides a method for preparing a recombinant cell, comprising the steps of: (i) preparing an immortalised B cell clone as described above; (ii) obtaining one or more nucleic acids (e.g. heavy and/or light chain genes) from the B cell clone that encodes the antibody of interest; and (iii) inserting the nucleic acid into an expression host in order to permit expression of the antibody of interest in that host.
- nucleic acids e.g. heavy and/or light chain genes
- the invention provides a method for preparing a recombinant cell, comprising the steps of: (i) preparing an immortalised B cell clone as described above; (ii) sequencing nucleic acid(s) from the B cell clone that encodes the antibody of interest; and (iii) using the sequence information from step (ii) to prepare nucleic acid(s) for inserting into an expression host in order to permit expression of the antibody of interest in that host.
- the invention also provides a method of preparing a recombinant cell, comprising the step of transforming a host cell with one or more nucleic acids that encode a monoclonal antibody of interest, wherein the nucleic acids are nucleic acids that were derived from an immortalised B cell clone of the invention.
- the procedures for first preparing the nucleic acid(s) and then using it to transform a host cell can be performed at different times by different people in different places (e.g. in different countries).
- recombinant cells of the invention can then be used for expression and culture purposes. They are particularly useful for expression of antibodies for large-scale pharmaceutical production. They can also be used as the active ingredient of a pharmaceutical composition. Any suitable culture teclmiques can be used, including but not limited to static culture, roller bottle culture, ascites fluid, hollow-fiber type bioreactor cartridge, modular minifermenter, stirred tank, microcarrier culture, ceramic core perfusion, etc.
- the expression host is preferably a eukaryotic cell, including yeast and animal cells, particularly mammalian cells (e.g. CHO cells, human cells such as PER.C6 [Crucell; Jones et al: Biotechnol Prog 2003,19(l):163-8] or HKB-11 [Bayer; Cho et al. Cytotechnology 2001,37:23-30; Cho et al.
- Preferred expression hosts can glycosylate the antibody of the invention, particularly with carbohydrate structures that are not themselves immunogenic in humans. Expression hosts that can grow in serum-free media are preferred. Expression hosts that can grow in culture without the presence of animal-derived products are preferred. The expression host may be cultured to give a cell line.
- the invention provides a method for preparing one or more nucleic acid molecules (e.g. heavy and light chain genes) that encodes an antibody of interest, comprising the steps of: (i) preparing an immortalised B cell clone according to the invention; (ii) obtaining from the B cell clone nucleic acid that encodes the antibody of interest.
- the invention also provides a method for obtaining a nucleic acid sequence that encodes an antibody of interest, comprising the steps of: (i) preparing an immortalised B cell clone according to the invention; (ii) sequencing nucleic acid from the B cell clone that encodes the antibody of interest.
- the invention also provides a method of preparing nucleic acid molecule(s) that encodes an antibody of interest, comprising the step of obtaining the nucleic acid from a B cell clone that was obtained from a transformed B cell of the invention.
- a method of preparing nucleic acid molecule(s) that encodes an antibody of interest comprising the step of obtaining the nucleic acid from a B cell clone that was obtained from a transformed B cell of the invention.
- the invention provides a method for preparing an antibody (e.g. for pharmaceutical use), comprising the steps of: (i) transforming a population of human B memory lymphocytes and selecting a transformed B cell that produces an antibody with a desired specificity, as described above; (ii) obtaining and/or sequencing one or more nucleic acids (e.g. heavy and light chain genes) from the selected B cell the antibody of interest; (iii) inserting the nucleic acid(s) into or using the nucleic acid(s) to prepare an expression host that can express the antibody of interest; (iv) culturing or sub-culturing the expression host under conditions where the antibody of interest is expressed; and, optionally, (v) purifying the antibody of the interest.
- nucleic acids e.g. heavy and light chain genes
- the invention also provides a method of preparing an antibody comprising the steps of: culturing or sub-culturing an expression host cell population under conditions where the antibody of interest is expressed and, optionally, purifying the antibody of the interest, wherein said expression host cell population has been prepared by (i) providing nucleic acid(s) encoding a selected B cell the antibody of interest that is produced by a population of B memory lymphocytes prepared as described above, (ii) inserting the nucleic acid(s) into an expression host that can express the antibody of interest, and (iii) culturing or sub-culturing expression hosts comprising said inserted nucleic acids to produce said expression host cell population.
- the procedures for first preparing the recombinant expression host and then culturing it to express antibody can be performed at very different times by different people in different places (e.g. in different countries).
- the invention also provides a method of preparing a pharmaceutical, comprising the step of admixing a monoclonal antibody with one or more pharmaceutically-acceptable carriers, wherein the monoclonal antibody is a monoclonal antibody that was obtained from an expression host of the invention.
- the procedures for first obtaining the monoclonal antibody e.g. expressing it and/or purifying it
- admixing it with the pha ⁇ naceutical carrier(s) can be performed at very different times by different people in different places (e.g. in different countries).
- the above methods can be performed in order to perpetuate the antibody expressed by the transformed B cell, with optional optimisation at each step.
- the above methods further comprise techniques of optimisation (e.g. affinity maturation or optimisation) applied to the nucleic acids encoding the antibody.
- optimisation e.g. affinity maturation or optimisation
- the invention encompasses all cells, nucleic acids, vectors, sequences, antibodies etc. used and prepared during such steps.
- the nucleic acid used in the expression host may be manipulated between steps (ii) and (iii) to insert, delete or amend certain nucleic acid sequences. Changes from such manipulation include, but are not limited to, changes to introduce restriction sites, to amend codon usage, to add or optimise transcription and/or translation regulatory sequences, etc. It is also possible to change the nucleic acid to alter the encoded amino acids. For example, it may be useful to introduce one or more (e.g. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, etc.) amino acid substitutions, one or more (e.g. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, etc.) amino acid deletions and/or one or more (e.g.
- amino acid insertions into the antibody's amino acid sequence.
- Such point mutations can modify effector functions, antigen-binding affinity, post-translational modifications, immunogenicity, etc., can introduce amino acids for the attachment of covalent groups (e.g. labels) or can introduce tags (e.g. for purification purposes). Mutations can be introduced in specific sites or can be introduced at random, followed by selection (e.g. molecular evolution).
- SARS Antibodies specific for the SARS virus may be particularly useful for prophylaxis and may be administered to health care workers or other people who may come into contact with SARS virus infected patients.
- passive serotherapy may offer an immediate cure of infected individuals as well as containment through protection of contacts and medical personnel.
- Human sera containing antibodies to the SARS virus are not available in sufficient amounts, therefore the method of the invention provides an ideal way of producing human neutralizing monoclonal antibodies.
- Such antibodies may be used to develop a passive serotherapy against this and other pathogens.
- the invention therefore also provides a method of preventing transmission of the SARS virus comprising administering an effective amount of an antibody or antibody fragment specific for the SARS virus. Stocks of antibody specific for the SARS virus should therefore be maintained so that they are available for immediate use in any further SARS outbreak.
- Organisms with B cells that can be transformed by the methods of the invention include primates (monkeys, apes, gorillas, gibbons, lemurs, chimpanzees, baboons, orang-utans, macaques, etc.) cows, horses, goats, sheep, pigs, dogs, cats, camels, sharks, fish, etc.
- primates monkeys, apes, gorillas, gibbons, lemurs, chimpanzees, baboons, orang-utans, macaques, etc.
- composition comprising X may consist exclusively of X or may include something additional e.g. X + Y.
- Figure 1 shows results of the ELISA using SARS virus-infected Vero cells lysed in 3% SDS as antigen. Shown are the OD values of serum (1/5000 dilution), supematants of polyclonal cultures and of independent B cell clones (1/2 dilution).
- Figure 2 shows the neutralizing titer of antibodies specific for the SARS virus. From left to right: neutralization titer (Vero cell assay) of convalescent serum; supematants of polyclonal cultures; positive clones isolated from the culture with highest neutralizing titer.
- Figure 3 shows clonal analysis of the human antibody response to the SARS virus spike protein. Culture supematants were tested for their capacity to stain BHK cells transfected with SARS virus spike protein mRNA (Frankfurt isolate) and for their capacity to neutralize the same strain of SARS virus.
- Figure 3A shows the correlation between neutralizing titer and staining of spike protein by undiluted culture supernatant.
- Figure 3B shows staining of spike-transfected BHK cells by serial dilutions of supematants from eleven neutralizing cultures, with filled symbols showing the maximum dilution where complete neutralization was observed.
- Figure 4 shows the characterization of the SARS neutralizing antibody S3.1. Staining of spike-transfected BHK cells by purified S3.1 (circles) and 6 months convalescent serum (squares). The filled symbols indicate the maximum dilution where complete neutralization was observed.
- Figure 5 shows immunoelectron microscopy of SARS coronavirus in the presence of S3.1 antibody.
- Figure 6 is an overview of a method of the invention, from human to monoclonal antibody.
- the present invention permits the cloning of human memory B lymphocytes with very high efficiency and achieves this by the combination of two stimuli, namely: EBV, that immortalizes human B cells with low efficiency and a polyclonal B cell activator that enhances the efficiency of EBV-irnmortalization.
- Human memory B cells (CD19 + CD27 + IgM ⁇ IgD ⁇ ) were isolated from healthy donors by cell sorting using methods well known in the art. Different numbers of cells were seeded in replicate cultures in 96 well microplates in the presence of irradiated mononuclear cells (5xl0 5 /ml) and either EBV
- the methods of the invention allow virtually every human memory B cell to be cloned (efficiency close to 100%).
- the method is also suitable for subcloning.
- Example 2 Production of antibodies with a desired specificity
- Mononuclear cells were isolated from 20 ml peripheral blood obtained from a healthy blood donor.
- CD19 + CD27 4 IgG + human memory B cells were isolated by cell sorting and seeded at 10 cells/well in 96 well microplates in the presence of EBV, CpG 2006 (2.5 ⁇ g/ml), recombinant IL-2 (1000 U/ml) and irradiated mononuclear cells (5xl05/ml). Seeding only 10 cells per well helps to increase cloning efficiency. After 15 days all cultures contained growing cells.
- a sample of supernatant was collected and tested in ELISA for total IgG antibodies and for IgG specific for Toxoplasma gondii, tetanus toxoid and measles virus.
- the supematants were also tested in a measles virus neutralization assay using Vero cells as targets.
- Example 3 Immortalised memory B cells that express antibodies specific for SARS coronavirus Blood samples were obtained from two patients with a clinical record of SARS. Both patients had serum anti-SARS antibodies as detected by two assays: (i) a neutralization assay which detects neutralizing antibodies directed against surface proteins of the SARS virus, likely the spike protein and (ii) an ELISA assay, that detects antibodies binding to any denatured protein of the SARS virus.
- a neutralization assay which detects neutralizing antibodies directed against surface proteins of the SARS virus, likely the spike protein
- an ELISA assay that detects antibodies binding to any denatured protein of the SARS virus.
- Memory B cells carrying surface IgG were isolated using anti-human IgG microbeads, incubated with EBV (50% supernatant of B95-8 cells) for 6 hours and were then plated at 10 cells/well in 96 well microplates in the presence of 2.5 ⁇ g/ml CpG 2006 and allogeneic irradiated PBMC (in these experiments IL-2 was omitted). After two weeks the culture supematants were screened for the presence of specific antibodies.
- the method also allows selection of the best antibody from a large pool, and is therefore a high throughput method.
- the anti-SARS antibodies neutralise the SARS virus at concentrations of ⁇ 5 ng/ml.
- Neutralization of respiratory syncytial virus (RSV, a common cause of respiratory tract infections, especially in children) by commercially available humanized antibodies produced by conventional techniques requires around a 1000-fold higher antibody concentration (Johanso ⁇ et al. 1997). Therefore the fully human antibodies produced by the method of the invention appear to be around 1000-fold more effective. This suggests that very small amounts of the antibody described here should be sufficient to prevent or cure SARS infection.
- Peripheral blood was obtained from a patient at different times after acute infection with SARS virus (2, 4 and 6 months after infection).
- PBMC peripheral blood cells were isolated by gradient centrifugation.
- IgG + memory B cells were isolated by an improved method that avoids triggering of the B cell receptor.
- Total B cells were isolated from PBMC using CD22 microbeads (Miltenyi), which were found to be even better than using CD 19 microbeads. The cells were stained with antibodies to human IgM, IgD and IgA and negative cells carrying surface IgG were isolated by cell sorting.
- B cells were pulsed with EBV (50% supernatant of B-95-8 cells) for 8 hours and then plated at 10 cells/well in 96 well U-bottom microplates in complete RPMI medium supplemented with 10% FCS, 2.5 ⁇ g/ml CpG 2006 and irradiated PBMC (2xl0 5 /ml). In this , experiment IL-2 was not used. After 2 weeks the culture ' supematants were screened for the presence of specific antibodies using the three assays described below. Positive cultures were cloned by limiting dilution in the presence of CpG 2006 and irradiated PBMC as above. Positive clones were expanded and the antibody produced was purified from culture supematants by affinity chromatography on protein A columns (Amersham).
- the Frankfurt isolate of the SARS virus (Genbank accession number AY310120) was used for three in vitro assays:
- ELISA Vero cells were infected at a multiplicity of infection of 0.01 plaque forming units per cell.
- Cell culture supernatant collected after 2 days was cleared by centrifugation at 3000 rpm, 5 min.
- the supernatant was subjected to centrifugation at 20,000 rpm for 2 hours in a Beckman SW28 rotor through a 20% sucrose cushion.
- the pellet was purified using a potassium tartrate/glycerol gradient and resuspended in 500 ⁇ l TNE buffer (10 mM Tris-HCl, pH 7.4, 0.15 M NaCl, 2 mM EDTA) to a protein concentration of approx 0.5 mg/ml.
- the antigen suspension used for the ELISA assay was prepared by adding 1% SDS to the viral pellet followed by boiling for 10 min.
- IgG + memory B lymphocytes from the 2-month, 4-month and 6-month post-SARS sera were immortalized with EBV under conditions where the number of B cells per culture was limiting, as described above (10 B cells per well). This strategy allows analysis of the product of only a few memory B cells per culture, thus ensuring that the specific antibody detected in positive cultures is monoclonal and, at the same time, increasing the probability of isolating a clone producing the desired antibody by limiting dilution.
- the culture supematants were screened for the presence of specific IgG antibodies using ELISA or staining of spike transfectants.
- the frequency of cultures screening positive in the SARS virus ELISA assay or staining SARS virus spike transfectants were as follows:
- the frequency of cultures producing antibodies detected by the ELISA assay was very high 2 months after infection and decreased by 4 and 6 months.
- the frequency of cultures producing antibodies against native spike protein measured at 4 and 6 months was lower.
- the culture that scored positive for ELISA antibodies were distinct from those containing antibodies to the spike indicating that the two assays detect distinct non-overlapping antibody specificities.
- a sizeable proportion of IgG + memory B cells are specific for the spike protein.
- Example 7 S3.1 neutralizes SARS infection in an animal model The in vivo neutralizing activity of the S3.1 monoclonal antibody was tested in a mouse model of acute SARS infection. Purified antibody was transferred to na' ⁇ ve mice by intraperitoneal injection to determine whether antibody alone could prevent replication of SARS virus in the respiratory tract.
- the virus was isolated and passaged twice in Vero E6 cells at the CDC and was passaged in Vero cells for two additional passages in our laboratory to generate a virus stock with a titer of 10 5 TCIDsc/ml.
- the Vero cells were maintained in OptiPro SFM (Invitrogen). All work with infectious virus was performed inside a biosafety cabinet, in a biosafety containment level 3 facility and personnel wore powered air purifying respirators (3M HEPA AirMate, Saint Paul, MN).
- the mouse studies were approved by the NTH Animal Care and Use Committee and were carried out in an approved animal biosafety level 3 facility. All personnel entering the facility wore powered air purifying respirators.
- mice Four-to-six week-old female BALB/c mice purchased from Taconic (Germantown, NY) were housed, 4 mice per cage. On day 0 mice, lightly anesthetized with isoflurane, were injected intraperitoneally with 3 different doses (800, 200, 50 ⁇ g) of S3.1 antibody in 500 ⁇ l or with the same volume of a polyclonal human Ig that lacks neutralizing activity. 24 hours later mice were intranasally challenged with 10 4 TCID50 of SARS coronavirus. After two additional days mice were sacrificed and their lungs and nasal turbinates were removed and homogenized in a 5% w/v suspension in Leibov ⁇ tz 15 medium (Invitrogen). Tissue samples were assessed for infection, and virus titers were determined as described above. Virus liters were expressed as logio TCTD50 per gram of tissue:
- the lower limit of detection of infectious virus in a 10% w/v suspension of lung homogenate was 1.5 l ⁇ g ⁇ TCID 5 o/gr ⁇ and in 5% w/v suspension of nasal turbinates was 1.8 log ⁇ oTCID 5 o/grn. These values thus indicate no detectable virus.
- Mice that received S3.1 rriAb were thus protected from replication of challenge virus, particularly in the lower respiratory tract.
- the differences in viral titers when compared to the control were statistically significantly (p ⁇ 0.05) in a Student's t-test. Significant restriction of virus replication in the upper respiratory tract was noted in the mice which received the highest dose of S3.1 rnAb.
- R-848 is an agonist of TLR7 and TLRS. This compound was compared with CpG 2006 in terms of efficiency of EBV-induced immortalization of human B cells.
- Memory B cells were isolated from healthy donors using anti-CD 19 or anti-CD22 magnetic microbeads followed by negative depletion of cells carrying IgM, IgD and IgA (or IgG).
- 48 replicate cultures were set up in 96 well U-bottomed microplates by limiting dilution at 30, 10 and 3 B cells per well in complete medium in the presence of irradiated mononuclear cells, EBV (20% supernatant from B95-8 cells) and in the presence or absence of 2.5 ⁇ g/ml CpG 2006 or 2.5 ⁇ g/ml R-848.
- the frequency of cultures positive for cell growth and Ig production was measured after 14 days and the efficiency of transformation was calculated. Results were as follows:
- R-848 and CpG 2006 are thus comparable in their capacity to increase the efficiency of EBV-induced immortalization.
- R-848 was comparable to CpG 2006 in the capacity to increase the cloning efficiency of polyclonal EBV-immortalized B cell lines.
- the cloning efficiency of EBV cell lines ranged from 25 to 100% in 10 independent experiments.
- Example 9 Isolation of high affinity antibodies neutralizing SARS-Co V
- a new series of monoclonal antibodies with SARS-CoV neutralizing capacity was produced as described above from immortalized memory B cells isolated from a convalescent patient six months after infection.
- Serial dilutions of supematants from the B cell clones were tested for their antigen specificity (NP, matrix (M) or spike proteins), and their capacity to neutralize the cytopathic effect of SARS CoV (Frankfurt isolate) on Vero cells.
- the concentration of monoclonal IgG was measured by ELISA in the same culture supematants.
- Neutralizing titers were expressed as the final concentration of IgG (ng IgG per ml) in tissue culture capable of completely neutralizing the virus (mean values of at least three tests). Results were as follows:
- the invention is routinely able to provide antibodies that can neutralize the virus at concentrations lower than 10 "9 M and even down to 10 "10 M (MW of human IgG is ⁇ 150kDa, and so 150 ng/ml is ⁇ 10 "9 M).
- BAFF a novel ligand of the tumor necrosis factor family, stimulates B cell growth. J Exp Med 189(11):1747-56.
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US11/719,835 US8071371B2 (en) | 2003-02-26 | 2004-02-26 | Monoclonal antibody production by EBV transformation of B cells |
ES04714866.3T ES2389930T5 (en) | 2003-02-26 | 2004-02-26 | Production of monoclonal antibodies by transformation with EBV of B cells |
EP04714866.3A EP1597280B2 (en) | 2003-02-26 | 2004-02-26 | Monoclonal antibody production by ebv transformation of b cells |
AT04714866T ATE556091T2 (en) | 2003-02-26 | 2004-02-26 | MONOCLONAL ANTIBODIES PRODUCTION THROUGH EBV TRANSFORMATION OF B CELLS |
DK04714866.3T DK1597280T4 (en) | 2003-02-26 | 2004-02-26 | Preparation of monoclonal antibodies by EBV transformation of B cells |
AU2004215125A AU2004215125B2 (en) | 2003-02-26 | 2004-02-26 | Monoclonal antibody production by EBV transformation of B cells |
IL183370A IL183370A (en) | 2003-02-26 | 2007-05-21 | Method for producing immortalized memory b lymphocytes, immortalized b cell clone made by such method and monoclonal antibody obtained from an immortalized memory b lymphocyte or immortalized b cell clone for use in diagnosis or treatment of pathogenic or viral infection |
AU2011201553A AU2011201553B2 (en) | 2003-02-26 | 2011-04-06 | Monoclonal antibody production by EBV transformation of B cells |
US13/275,017 US20120027768A1 (en) | 2003-02-26 | 2011-10-17 | Monoclonal antibody production by ebv transformation of b cells |
US13/870,804 US9290786B2 (en) | 2003-02-26 | 2013-04-25 | Monoclonal antibody production by EBV transformation of B cells |
US15/018,688 US20160160258A1 (en) | 2003-02-26 | 2016-02-08 | Monoclonal antibody production by ebv transformation of b cells |
US15/985,229 US20180327800A1 (en) | 2003-02-26 | 2018-05-21 | Monoclonal antibody production by ebv transformation of b cells |
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