WO2011131787A2 - Antibody preparations - Google Patents
Antibody preparations Download PDFInfo
- Publication number
- WO2011131787A2 WO2011131787A2 PCT/EP2011/056487 EP2011056487W WO2011131787A2 WO 2011131787 A2 WO2011131787 A2 WO 2011131787A2 EP 2011056487 W EP2011056487 W EP 2011056487W WO 2011131787 A2 WO2011131787 A2 WO 2011131787A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- antibody preparation
- igm
- antibody
- preparation according
- solution
- Prior art date
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Classifications
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/12—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from bacteria
- C07K16/1267—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from bacteria from Gram-positive bacteria
- C07K16/1275—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from bacteria from Gram-positive bacteria from Streptococcus (G)
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
- A61K38/16—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- A61K38/17—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
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Definitions
- the present invention relates to an antibody (immunoglobulin) preparation comprising IgM which has specific complement activating activity but low unspecific complement activation capacity.
- the present invention also relates to the use of the antibody preparation in medicine.
- Immunoglobulin compositions prepared from human plasma and suitable for intravenous administration are known in the art and for several decades have played an important role in the treatment of a wide range of diseases. Immunoglobulins are used, for example, for the treatment of infections in humans and can be assigned to various classes with various biochemical and physiological properties. Immunoglobulin G participates in defending against viral antigens, whereas IgM is predominantly active in antibacterial and antitoxin immune responses.
- the immunoglobulin solutions comprise IgG, IgA and IgM in various percentages, with different preparations having different treatment applications, e.g. preparations with a higher percentage of IgM are used in the prophylaxis or treatment of bacterial infections.
- the immunoglobulin solutions are usually prepared from fractions of blood plasma or serum, e.g. Cohn fractions. These fractions are then subjected to a number of purification steps to remove contaminants such as viruses, denatured proteins, proteases and lipids.
- Unspecific complement activation refers to the initiation of the complement cascade in the absence of specific antibody-antigen complexes. Unspecific complement activation is strictly to be avoided since it may cause undesirable side effects such as hypotension, flushing, headache, fever, chills, nausea, vomiting, muscle pain, dyspnoea and tachycardia. Specific complement activation, on the other hand, is desirable and it occurs only after the immunoglobulins have bound to their specific antigens.
- Unspecific complement activation is measured as the so called anticomplementary activity (ACA) by a standardized test described in the European Pharmacopoeia.
- the role of the complement system in the immune defense of pathogens is well known.
- the complement system consists of about 20 proteins, which are activated sequentially.
- the classical complement pathway typically requires a specific antigen antibody complex for activation, whereas the alternative pathway can be activated by antigens without the presence of antibodies.
- the classical and the alternative pathway of complement activation all generate a protease C3- convertase.
- the C3-convertase cleaves and activates component C3, creating C3a and C3b, and causing a cascade of further cleavage and activation events over C5 convertase to C5a and C5b.
- C5b initiates the membrane attack pathway, which results in the membrane attack complex, consisting of C5b, C6, C7, C8, and polymeric C9.
- This is the cytolytic endproduct of the complement cascade which forms a transmembrane channel, which causes osmotic lysis of the target cells like bacteria.
- Complement activation additionally results in the formation of anaphylatoxins, including the biologically active protein C5a.
- This anaphylatoxin is a potent chemotactic agent for immune and inflammatory cells and induces cell activation and causing the release of histamine from mast cells.
- C5a is an effective leukocyte chcmoattractanl, causing the accumulation of white blood cells, especially neutrophil granulocytes, at sites of complement activation.
- C5a activates white blood cells and is a powerful inflammatory mediator. Whereas these functions are beneficial during specific antibody-antigen complex reactions all unspecific generation of C5a has to be avoided due to the potential side effects.
- IgM immunoglobulin preparations i.e. those comprising at least 5% IgM
- IgM antibodies easily aggregate in solution. IgM preparations are difficult to stabilize especially if they are enriched compared to plasma concentrations and stored in liquid solution.
- IgM is a vigorous activator of complement; a single molecule bound to an antigen can activate complement. This is in contrast to IgG, where two or more molecules of IgG must be bound to an antigen in close association with each other to activate complement.
- IgM containing immunoglobulin preparations are bacterial infections and sepsis. As these patients are already suffering from hypotension an additional unwanted generation of unspecific complement activation and C5a would lead to a clinical worsening of the patient ' s condition. Accordingly, IgM preparations have been described as being difficult to prepare for intravenous application.
- ⁇ -propiolactone is a well known chemical used in sterilization steps in order to inactivate viruses which are potentially present.
- ⁇ - propiolactone is a very reactive substance which causes the chemical modification of proteins there is also substantial loss of the anti-viral and anti-bacterial activities of the immunoglobulins.
- this chemical modification results in an reduced anticomplementary activity compared to an chemically unmodified immunoglobulin.
- EP0352500 describes the preparation of an IgM concentrate for intravenous application with a reduced anti-complementary activity by using anionic exchange chromatography, ⁇ -Propiolactone, UVC light irradiation and an incubation step at increased temperature (40 °C to 60 °C).
- the preparation produced by this method was stable in liquid solution for a limited time due to the chemical modification.
- the IgM concentration was above 50 % from the total immunoglobulin content.
- the preparation according to EP0413187 had a low anticomplementary activity, between 0,6 and 0,8 CH50/mg protein, but had to be stabilized and virus inactivated by ⁇ -propiolactone. Low anticomplementary activity is considered to be ⁇ 1 CH50/mg protein according to EP monograph for immunoglobulins.
- EP0413188B 1 (Biotest) describes the preparation of an IgM-enriched preparation for intravenous administration by using an anion exchange chromatography in order to reduce the anticomplementary activity. Additionally a heat treatment at pH 4 - 4.5 at 40 to 60°C, preferably between 50 and 54°C, was described to reduce the anticomplementary activity. This preparation had to be lyophilized to ensure stability of the preparation for several months. Long term stability as a liquid solution could not be shown. M.Wickerhauser et al.
- Another method describes the use of mild-heat treatment of IgM preparations at 40 to 62°C, preferably 45 to 55°C, at pH 4.0 to 5.0 (EP 0450412, Miles) to reduce the unspecific complement activation.
- octanoic acid is added to a Cohn fraction III suspension in order to remove prekallikrein activator and lipoproteins by centrifugation. Nevertheless this mild heat treatment led to partial loss of antigenic determinants of IgM. This may increase the risk of generating neo-antigens leading to a increased immunogenicity in humans or the loss of activity.
- the present invention provides an antibody preparation suitable for intravenous administration in humans comprising IgG, IgA and at least 5% IgM antibodies by weight of the total amount of antibodies, wherein the preparation is prepared from human plasma, wherein the antibody preparation has specific complement activating activity and wherein in an in vitro assay with human serum suitable to determine the ability of the antibody preparation to activate complement unspecifically the antibody preparation generates substantially no C5a and/or substantially no C3a.
- the present applicants have surprisingly found that the production of an IgM antibody preparation from human serum is possible which has specific complement activating activity and substantially no unspecific complement activity.
- This product is advantageous as it maintains product efficacy while reducing unwanted side-effects such as hypotension, associated with unspecific complement activation after intravenous administration.
- a further aspect of the present invention provides a method of producing the antibody preparation of the present invention from human plasma comprising the steps of:
- the present applicants have surprisingly found that the use of a vibrating agitator during the step where the immunoglobulin solution is mixed with the carboxylic acid is extremely advantageous.
- This method step provides a more efficient removal of unwanted proteins (including proteases) and produces an intermediate product which is better suited to downstream processing steps utilised to produce an immunoglobulin medicament; the intermediate product allows these downstream processing steps to be more efficient. Accordingly, the downstream processing steps can be less harsh, helping to achieve the antibody preparation of the present invention which is capable of specific complement activation and substantially no unspecific complement activation.
- the IgM immunoglobulin containing composition obtained from step (c) can be combined with further treatment steps, such as treatment with mild acid conditions and treatment with UVC irradiation, to produce an IgM containing immunoglobulin product or antibody preparation which is suitable for intravenous administration and which has the following advantageous properties: having low anti-complementary activity; retaining a high level of native and active IgM; and being virus safe and thus suitable for intravenous administration in humans.
- the level of virus safety achieved with the methods described herein has not previously been obtaininable. Additional advantages are having low proteolytic activity (and therefore being stable during long term storage) and being chemically unmodified.
- the present invention provides an antibody preparation of the present invention for use in medicine.
- the antibody preparation is for use in the treatment of immunological disorders and bacterial infections.
- a further aspect of the present invention provides a method of treatment comprising administering the antibody preparation of the present invention to a patient.
- FIGURE 1 provides an overview of the steps that can be utilised to form an antibody preparation suitable for intravenous admininstration according to the present invention.
- the octanoic acid treatment step employing a vibromixer device, the pH4 treatment and the UVC treatment are highlighted
- the starting material is generated from a standard cold ethanol precipitation process of human plasma.
- FIGURE 2 provides a graph showing time dependent mean C5a concentrations found in human serum after incubation with IgM preparations.
- FIGURE 3 provides a graph showing time dependent mean C3a concentrations found in human serum after incubation with IgM preparations.
- the present invention provides an antibody preparation suitable for intravenous administration in humans comprising IgG, IgA and at least 5% IgM antibodies by weight of the total amount of antibodies, wherein the preparation is prepared from human plasma, wherein the antibody preparation has specific complement activating activity, and wherein in an in vitro assay with human serum suitable to determine the ability of the antibody preparation to activate complement unspecifically the antibody preparation generates substantially no C5a and/or substantially no C3a.
- the antibody preparation of the present invention comprises human plasma proteins of which at least 90%, preferably at least 95% is made up of immunoglobulins (polyclonal antibodies).
- the preparation comprises the immunoglobulins IgG, IgA and IgM wherein at least 5% of the immunoglobulins are IgM.
- the amount of IgG, IgA and IgM immunoglobulins can be determined by nephelometry or by immunoprecipitation according to Ph. Eur. 2.7. 1 .
- the antibody preparation comprises at least 10% Ig and most preferably at least 15% IgM.
- the antibody preparation comprises more than 5% IgA and/or more than 40% IgG. All percentages are percentage of total amount of antibodies (for example, g of IgM / (g of IgG + g of IgA + g of IgM) x 100).
- the antibody preparation causes substantially no unspecific complement activation (i.e. activation of the complement cascade by immunoglobulins in the absence of antigen) in in vitro assays suitable to determine unspecific complement activation in normal human serum (i.e. serum from healthy humans).
- the assay can determine the amount of C5a and/or C3a generated in the assay in the absence of antigen.
- complement activation results in the production of C5a and C3a. Since both of these proteins are involved in the terminal pathway of the complement system (rather than in either the classical/lectin pathway or the alternative pathway) they are particularly useful to determine complement activation.
- the antibody preparation generates substantially no C5a and/or substantially no C3a when used in an appropriate in vitro assay with human serum in the absence of antigen.
- the antibody preparation adjusted to an IgM concentration of 1.72 mg/ml generates less than 200 ng/ml C5a after 60 minutes of the assay, and/or the antibody preparation adjusted to an IgM concentration of 1.72 mg/ml generates less than 6000 ng/ml C3a after 60 minutes of the assay.
- the amount of C5a and/or C3a generated by the antibody preparation in the assay is the same as the amount of C5a and/or C3a generated in the same assay by human serum alone ⁇ 70%. Preferably this is after 60 minutes of the assay.
- the assay comprises the steps of: (a) adding an amount of the antibody preparation to 100 ⁇ human serum to create a reaction mixture containing 1.72mg/ml IgM and incubating the reaction mixture for 60 minutes at 37 °C with constant agitation;
- the set of dilutions are contacted with wells of an assay plate coated with the primary antibody. After incubation the wells are washed to remove the dilution sample, The second antibody is then incubated and binds to any C3a/C5a bound to the primary antibody in the wells, since it has a different epitope on the C3a/C5a to the primary antibody. After further washing to remove unbound secondary antibody the chromogen is incubated and reacts with the enzyme conjugated to the second antibody. The resulting colour change can be measured via optical density determinations with a photometer, being proportional to the concentration of C5a/C3a present in the set of dilutions.
- the amount of the antibody preparation added in step (a) is that appropriate to create a concentration of 1.72mg/ml IgM in the reaction mixture.
- Steps (c) and (d) can comprise: (i) applying the set of dilutions of the reaction mixture to the wells of an assay plate which are coated with a primary antibody to C3a/C5a (i.e.
- the capture antibody incubating the plate to allow any C3a/C5a to bind the primary antibody; (iii) washing the plate to remove any material in the dilutions not bound to the primary antibody; (iv) applying a secondary enzyme linked antibody (the detection antibody) that also binds to C3a/C5a; (v) incubating the plate to allow any secondary antibody to bind to C3a/C5a; (vi) washing the plate to remove unbound secondary antibody; (vii) applying a chemical that is converted by the enzyme into a colour signal; and (viii) measuring the absorbency of the plate wells to determine the presence and quantity of C3a/C5a.
- a secondary enzyme linked antibody the detection antibody
- the sandwich ELISA is performed according to methods known in the art, and/or with commercially available kits according to manufacturer's instructions. Suitable, and particularly preferred, commercially available enzyme linked immunosorbent assay (ELISA) kits are Quidel Micro Vue C5a Plus EIA Kit; A025, and Quidel Micro Vue C3a Plus EIA Kit; A032.
- ELISA enzyme linked immunosorbent assay
- the antibody preparation comprises less than 2% aggregates of 1200 kDa or above, preferably less than 1.5%. This refers to the % of the immunoglobulin content.
- the amount of aggregates can be determined by high performance size exclusion chromatography (HPSEC). This can be performed by methods known in the art.
- the ability of the antibody preparation to generate substantially no unspecific complement activation can be defined as the anti-complementary activity of the preparation being less than 1 .0 CH50/mg protein, more preferably less than 0.75 CH50/mg protein.
- the assay to determine the anti-complementary activity on this scale can be carried out according to the method described in the European Pharmacopoeia (method 2.6.17, Ph. Eur. 6. Edition, 2008). Further details of this assay are provided in the assay section below.
- the antibody preparation has been prepared from human serum in the absence of a step involving chemical or enzymatic modification of the antibodies, i.e. the process of production of the antibody preparation from human serum does not comprise a step of contacting the antibodies with a reagent which would cause their enzymatic or chemical modification.
- the process does not comprise contacting the antibodies with ⁇ -propiolactone, which causes chemical modification of the antibodies, or comprise contacting the antibodies with pepsin, which would cause enzymatic cleavage of the antibodies.
- the antibody preparation has been prepared from human serum in the absence of a step involving heating of the antibodies to a temperature of 40°C or more for 10 minutes or more.
- heating steps can denature the immunoglobulins and causes immunoglobulin aggregation.
- the antibody preparation is prepared by a process which is capable of a more than 31ogio , preferably more than 4 logio, and most preferably by more than 5 login, removal of non-
- the antibody preparation is therefore safer than the antibody preparations of the prior art, particularly with respect to active non enveloped viruses like, for example, parvoviruses.
- the method of the present invention is able to achieve this level of viral particle removal/inactivation without a significant impact on the amount of active IgM or on the anticomplementary activity of the antibody preparation.
- the antibody preparation can be prepared from human plasma by a process comprising the steps of:
- the process further comprises subjecting the incubated solution obtained from step (d) to nanofiltration prior irradiation in step (e). Further details and preferred aspects of the method of production are described in the section below.
- the antibody preparation is capable of administration to cynomolgus monkeys at 1 15 mg IgM/kg body weight/hour in the absence of a 10% or greater reduction in arterial pressure from pretreatment level.
- unspecific complement activation causes hypotension and therefore the lack of a significant change in arterial pressure indicates that substantially no unspecific activation of complement is occurring in healthy
- Arterial pressure can be measured by inserting a pressure catheter into the lower abdominal aorta via the right lcrmoral artery.
- the antibody preparation also comprises antibodies against one or more of Pneumococcus saccharide, Escherichia coli, Enterococcus faecalis, Candida albicans, and Chlamydia.
- the antibodies in the antibody preparation are biologically active.
- biologically active means that the antibodies in the preparation are in native form and in particular are capable of activation of the complement cascade as a result of specific binding to an antigen.
- the biological activity of an antibody preparation can be assessed based on assays to determine antibody titre/binding activity and Fc integrity/function known in the art.
- an in vitro Rubella antigen based assay suitable to determine Fc function the activity of the Fc part of the antibodies of the antibody preparation is the same as that of a biological reference preparation ⁇ 10%, more preferably ⁇ 5%.
- Biological reference preparations are utilised by the international medical and healthcare community and help to ensure consistency in medical products.
- suitable biological reference preparations for the assay are known and are available in the art (e.g. Immunoglobulin Biological Reference Preparation (Batch No. 3).
- the assay can be performed according to the Internationally recognised Eur. Ph. 2.7.9 Test for Fc Function of Immunoglobulin (current edition April 201 1) which utilises Human Immunoglobulin Biological Reference Preparation (Batch No. 3) as a control, against which the % activity of the antibody preparation is determined.
- This test comprises the steps of (i) loading tanned group O human red blood cells with rubella virus antigen to create antigen coated blood cells; (ii) incubating an amount of the antibody preparation with the blood cells; adding guinea pig complement to start complement initiated lyses of blood cells; (iii) measuring the kinetic of haemolysis via time-dependent changes of absorbance at 541 nm; (iv) evaluating the function of the antibodies of the antibody preparation using the maximal change of absorbance per time.
- the antibody preparation preferably also has a lower proteolytic activity than the antibody preparations described in the prior art.
- no proteolytic activity is detectable in the preparation when it is stored at between 2 to 8°C.
- the proteolytic activity can be measured by standardized test methods known in the art, such as that using the chromogenic substrate which is described in the assay section below, and in Example 6.
- the antibody preparation of the present invention may further comprise a stabilizing agent, such as glycine.
- the antibody preparation of the present invention can be stored at 5 ⁇ 3°C.
- the final product is stable in liquid form for at least 3 months, preferably at least 6 months and most preferably at least two years at 2 to 8°C, which means that there is no fragmentation or polymerization of IgM above 1.5% measured in HPSEC, no increase of proteolytic activity, no decrease of IgM antibody activity against Escherichia coli and IgM antibody activity against Pneumococcus saccharide of more than 25 % and no increase in anticomplementary activity of more than 25 %, staying below 1 CH50/mg protein.
- the final product produced by the method of the present invention is stable in liquid form for at least 3 months, preferably at least 6 months, and most preferably at least one year at room temperature (between 23 and 27°C) as assessed by the same criteria.
- the present invention provides a preparation of an IgM containing antibody preparation from a plasma fraction comprising immunoglobulins.
- the present invention provides a method of producing the antibody preparation described herein from human plasma comprising the steps of:
- Plasma fractions suitable for the preparation of pharmaceutical immunoglobulin compositions, and methods for their production are well known in the art.
- the plasma fraction is preferably a precipitated plasma fraction and most preferably a precipitated plasma fraction obtained by the process of Cohn fractionation or its well known modifications (e.g. Kistler-Nitschmann).
- Most preferably the fraction is fraction I/III or fraction III (also known as fraction B+I or fraction B) out of cold ethanol fractionation. It is preferred that the immunoglobulins of the plasma fraction comprise at least 5% IgM.
- Step (a) comprises providing a plasma fraction as a solution containing the immunoglobulins.
- the plasma fraction containing the immunoglobulins will be in solid or semi-solid form.
- This step may comprise mixing the plasma fraction with a suitable buffer.
- the buffer is of low molarity (i.e. less than 1M) and has a pH between 4.5 and 5.5 e.g. 0.1 M sodium acetate buffer pH 5.05 ⁇ 0.1.
- Mixing can be completed using a blade mixer or a vibrating agitator.
- step (b) the solution formed in step (a) is mixed using a vibrating agitator with a C 7 to C 9 carboxylic acid to precitipate contaminating proteins (e.g. proteases, viruses etc).
- the carboxylic acid may be branched and/or may include substituents which do not substantially alter the effect of step (b).
- the carboxylic acid is preferably octanoic acid.
- the carboxylic acid is preferably added at a concentration of at least 0.075 kg/kg of plasma fraction, up to a concentration of 0.2 kg/kg. More preferably the carboxylic acid is added at 0.8 to 0.15 kg/kg of plasma fraction, and most preferably between 0.09 kg/kg and 0.13 kg/kg.
- Acid of any convenient molarity may be used to provide the correct concentration.
- Any type of commercially available vibrating agitator suitable for use in the chemical/pharmaceutical industry, may be used.
- suitable vibrating agitators are available from Graber + Pfenninger GmbH.
- the "Labormodell Typ 1 " vibromixer can be used for lab scale experiments, and the "Industriemixer Typ 4" can be used for production scale preparations.
- the vibrating mixers can be used according to manufacturer's instructions, and in particular at settings which are described by the manufacturers as suitable for mixing solutions containing proteins.
- the vibrating mixers can usually be operated at less than 100 Hz with an amplitude less than 10 mm, e.g.
- the vibration mixing using the "Labormodell Typ 1" at lab scale was carried out by the present inventors at 50 Hz, when 230 V power supply is used.
- the vibration amplitude of the mixing process was varied between 0 and 3 mm, and for the IgM preparation preferably 3 mm was used.
- Stirrer plates with a diameter between 23 mm and 65 mm were used for lab scale experiments.
- For production scale a stirrer plate diameter of 395 mm was used (hole diameters of 13.5 mm and 16 mm).
- step (b) the pH of the mixed solution is preferably between 4.5 to 5.5, and more preferably between pH 4.8 and pH 5.3.
- the step can be carried out in sodium acetate buffer, and, for example, with approximately 0. 1 M sodium acetate buffer.
- the temperature at which step (b) is conducted is preferably between 10°C and 35°C, and more preferably 14 to 30 °C.
- the mixing time using the vibrating agitator is not particularly limited but is preferably at least 30 minutes and not more than 3 hours, and more preferably from 40 - 1 10 minutes. Incubation times of less than 30 minutes can reduce the level of virus inactivation.
- tri-calcium phosphate is mixed with the solution in step (b). Preferably this is added at 0.01 to 0.02 kg/kg plasma fraction (as it is in solid or semi-solid form).
- the tri-calcium phosphate can be added simultaneously, separately or sequentially to the carboxylic acid. In a preferred embodiment the tri-calcium phosphate is added at least 20 minutes after the carboxylic acid.
- step (c) the contaminating proteins precipitated in step (b) are separated off from the solution to yield the IgM containing immunoglobulin composition (i.e. an immunoglobulin containing solution).
- This step of separation is not particularly limited by can be performed by any suitable method known in the art. However, the separating step is preferably performed using filtration, and more preferably ultrafiltration, and the result of step (c) is therefore a filtered solution.
- step (c) is easier to perform.
- a transparently clear solution i.e. the IgM containing immunoglobulin composition. Filtration is therefore quicker and easier.
- Step (d) comprises treating the IgM containing immunoglobulin composition obtained from step (c) with mild acid conditions
- step (e) comprises subjecting the acid treated composition to UVC irradiation to form a UVC irradiated solution
- step (f) comprises filtering the UVC irradiated solution under sterile conditions to form the antibody preparation suitable for intravenous administration in humans.
- the IgM containing immunoglobulin composition obtained from step (c) is incubated at between pH 3.5 to pH 4.5, and preferably between pH 3.8 and pH 4.2, to form an incubated solution.
- the mild acid conditions can be created by adding a suitable acid to the IgM containing immunoglobulin composition, for example the pH can be adjusted by adding 0.2M HCl.
- This incubation step is preferably carried out at between 32 and 42°C, and more preferably at between 35 and 39°C.
- the incubation time is preferably at least 2 hours and not greater than 24 hours, and more preferably at least 9 hours but not greater than 16 hours.
- the incubated solution obtained from the mild acid treatment described above is treated with UVC light to form a UVC irradiated solution.
- This step can be performed using devices which are commercially available, such as the UVivatec® device (Bayer Technology Services). It is preferred that the incubated solution is treated at 254 ⁇ 10 nm between 200 and 500 J/m 2 , more particularly between 200 and 300 J/m 2 , in order to further inactivate viruses and proteases which are potentially present.
- UVC treatment under gentle conditions than would normally be required is only possible with the water-clear filtrate which is obtained by the present invention after the octanoic acid treatment with vibromixing. More opalescent or opaque solutions normally received by standard stirring techniques would necessitate longer irradiation times which would lead to more denaturation of the IgM activity and lower virus inactivation rates.
- step (f) the irradiated solution is filtering under sterile conditions to form the antibody preparation suitable for intravenous administration in humans.
- the filtration is nanofiltration, more preferably through a filter having a 40 to 50 nm pore size.
- additional steps to achieve an immunoglobulin preparation for intravenous administration can optionally also comprise one or more further filtration steps.
- the protein solution being processed can be adsorbed onto DEAE-Sephadex and then separated from the Sephadex by depth filtration. For example, it may further be subjected to a batch adsorption with 75 mg per kg protein DEAE Sephadex at pH 5.8, in order to remove the unwanted accompanying protein Ceruloplasmin.
- the incubated solution obtained from the mild acid treatment is subjected to adsorption onto DEAE-Sephadex and then separated from the Sephadex by depth filtration, before being treated to UVC irradiation.
- the immunoglobulin solution being processed may be filtered through a nanometer filter.
- Filters of 75 ⁇ 5 nm to 35 ⁇ 5 nm pore size, or filters having a nominal pore size of 75 to 35 nm (for example Pall Ultipor DV50) can be used at various stages during the process.
- a nominal pore size of e.g. 50 nm means retention rate of > 4 logl O for virus with size of 50 nm or larger).
- the solution obtained from the DEAE-Sephadex step described in the above paragraph is filtered through a 0.2 ⁇ filter prior to UVC irradiation.
- the final antibody preparation (i.e. the processed IgM containing immunoglobulin solution) obtained from the process defined above may be directly filled into a container under sterile conditions.
- the antibody preparation may be formulated in a glycine-containing buffer at a pH between 4 and 5.5, and preferably between 4. 1 to 4.5.
- the antibody preparation may also be diluted to a protein concentration between 40 and 80 g/L and preferably between 55 and 70 g/L. It is noted that it is also possible to enrich the IgM content of the antibody preparation by well known methods like e.g. anion exchange chromatography.
- the method described above leads to a higher inactivation and removal of virus particles, especially very resistant, non-enveloped viruses such as Parvo viruses, which are usually not very susceptible to octanoic acid treatment. Furthermore, an improved removal of proteolytic activity is achieved in comparison to conventional stirring. These features are achieved while keeping a high yield of IgM that is chemically unmodified. This finding contrasts with the conventional view that the treatment with octanoic acid is not an effective step against non- enveloped viruses and improved viral safety must be achieved through inactivation of virus through harsher methods such as ⁇ -Propiolactone treatment. Also it was well known that increasing e.g. octanoic acid concentration to completely remove proteolytic activity results in a massive loss of IgM.
- the results of the method are achieved through the use of mixing devices using a vibrating mode in combination with the octanoic acid treatment. This is particularly surprising since it is known that IgM is very susceptible to shear stress, which may lead to an undesired high anticomplementary activity. Accordingly, one would not consider using a vibrating mixer to prepare an Ig composition and would not expect such a favorable impact when using a vibrating mixing during processing o an IgM containing solution.
- step (c) such as clarification by filtration of the octanoic acid treated solution resulting from step (b), is enhanced when a vibrating mixing device is used. Separation is more easily achieved, reducing processing time and manufacturing costs, and step (c) leads to a limpid solution which creates advantages for downstream processing.
- the resulting IgM containing composition obtained from step (c) is preferably subjected to treatment with mild acid conditions (e.g. pH 4) and an UVC-irradiation step to further improve virus safety and stabilize the final product.
- the IgM containing immunoglobulin composition obtained from step (c) it is possible to lower the necessary irradiation time with UVC to achieve a virus inactivation of non enveloped viruses of more than 3 or 4 logio. This results in a higher yield of native and active IgM during UVC treatment.
- a chemically and enzymatically unmodified IgM containing solution which has higher yields of native and active IgM, having low anticomplementary activity and low proteolytic activity and having high antibacterial and antiviral activity, with an outstanding virus safety concerning enveloped and non enveloped viruses; a key feature for pharmaceuticals which are for intravenous administration.
- a treated IgM containing solution has improved long term stability being very stable in liquid solution for more than 12 months at 2 - 8°C.
- the antibody preparation of the present invention is suitable for use in medicine and can be used in the treatment of immunological disorders and infections, particularly IgM deficiency disorder and bacterial infections.
- Human IgM-enriched polyvalent immunoglobulin preparation for intravenous administration contain higher antibody titres against clinically relevant Gram-negative and Gram- positive bacteria as well as higher antibody titres against endotoxins of Gram-negative bacteria and exotoxins of Gram-negative and Gram-positive bacteria compared with polyvalent immunoglobulin G preparations.
- the antibody preparations of the present invention are suitable for intravenous administration to patients.
- the invention also provides a method of treatment of a patient comprising a step of administering the antibody preparation of the present invention to the patient.
- the patient can be suffering from an immunological disorder or a bacterial infection.
- the antibody preparations are administered intravenously.
- the below method can be utilized to determine the % aggregates in an antibody preparation (as used in Example 8).
- Test solution Samples are injected undiluted at approx. 50 g/L with an injection volume of 10 ⁇ (approx. 500 ⁇ g protein load).
- Mobile phase dissolve 4.873 g of disodium hydrogen phosphate dihydrate, 1.741 g of sodium dihydrogen phosphate monohydrate, 1 1.688 g of sodium chloride and 50 mg of sodium azide in 1 litre of water.
- Detection spectrophotometer at 280 nm.
- the chromatogram is integrated according to the following scheme and the peaks are identified:
- Hemolysin pre-treated sheep erythrocytes are hemolysed by complement.
- complement-binding antibodies in the sample the hemolysis is suppressed.
- the amount of complement is determined, which is bound (inactivated) by 1 mg immunoglobulin.
- a certain amount of immunoglobulin (10 mg) is mixed with complement of guinea pig and the free complement is titrated.
- the anti-complementary activity is expressed a used complement in respect to the used complement of a reference solution.
- the hemolytic unit of complement activity (CH 50 ) is the amount of complement leading to hemolysis of 2.5 x 10 8 optimally prepared erythrocytes of a total amount of 5 x 10 8 erythrocytes in optimal buffer conditions.
- erythrocytes 8ml stabilized erythrocytes from sheep, washed three times with gelatine-barbital-buffer, finally 1 ml erythrocyte sediment are suspended in 24 ml gelatine-barbital- buffer) are prepared by mixing 20 ml erythrocytes suspension with 20 ml hemolysine (adjusted to 2 MHE/ml - minimal hemolytic unit) and incubation for 15 min at 37°C.
- Proteolytic activity can be assessed by mixing a chromogenic substrate (in particular those sensitive to at least one serine protease) and a sample of the antibody preparation (usually diluted in buffer to meet the linear range of the assay) at 37°C and monitoring the absorption kinetics using a spectrophotometer.
- Use of the substrate is according to manufacturer's instructions.
- the proteolytic activity can in particular be assessed via the following steps:
- a sample of the antibody preparation is diluted into buffer (lOOmM Tris.HCl pH 8.4, 106 mM NaCl) to meet the linear range of the assay and temperature is adjusted to 37°C;
- the limit of quantitation of this method is 8 U/l, and using a sample of the antibody preparation of the present invention proteolytic activity is undetectable. As such the level of the proteolytic activity in the final product of the present invention is below 8 U/l.
- the solution is treated by addition of a 19.8 kg octanoic acid (0.1 10 kg per kg paste I/I I I used) at room temperature and the protein solution is further mixed for 80 minutes, using a vibrating mixer (Vibromixer ® , Size 4, Graber+Pfenniger GmbH, Vibromixer adjusted to level 2 - 3).
- the octanoic acid is added slowly over 30 min.
- the protein solution is treated at pH 4.0 ⁇ 0.1 after dilution 1+1 with water for injection. pH adjustment is carried out by using 1 M HC1 and the protein solution is incubated for 9 h at 37 °C ⁇ 2°C. After the pH 4 incubation the protein solution is adjusted to pH 5.8, using 1 M NaOH.
- the resulting protein solution is further purified by adding DEAE Sephadex in a batch mode (75 g DEAE Sephadex per kg protein). The protein solution is incubated under stirring for > 60 min at room temperature. The DEAE Sephadex is removed by clarifying filtration. The protein solution is subjected to a 0.2 ⁇ filtration.
- the protein solution is filtered through a 0.1 ⁇ filter and a Pall, Ultipor VF DV50, 20" filter.
- the filtrate is further processed by UVC light treatment at 254 nm, using a flow-through UVivatec® process device (Bayer Technology Services / Sartorius Stedim) at a UVC dose of 240 J/m 2 .
- the flow velocity through the UVC reactor is calculated using the manufactures instructions.
- the irradiated protein solution is concentrated to a protein concentration of 50 - 70 g/1 by ultrafiltration and is subjected to diafiltration (10 kD membrane, using 0.32 M glycine buffer pH 4.3).
- the final product is filtered through a 0.2 ⁇ filter and is stored at 2 to 8°C.
- Octanoic acid amount 0.09 kg/kg to 0.13 kg/kg (Amount octanoic acid per kg used fraction
- Example 3 Virus Reduction Through Use of Vibromixer - Determination of virus removal factors for the octanoic acid treatment with and without use of a vibromixer.
- Virus titres from samples taken prior to addition of octanoic acid and after filtration were determined on appropriate indicator cells for SV40, Reo and PPV (CV-1 , CCL.7.1 and PK13). Finally, the removal factor was calculated in compliance with the current guidelines for virus validation studies.
- non-enveloped viruses such as SV40 and Reo were effectively removed in the order of more than 4 logio and more than 5 log ] 0 , respectively.
- PPV was removed by more than 3 logui. These values are more than 10 times and up to 1000 times higher than with the same octanoic acid treatment under standard stirring conditions without vibromixing.
- Table 1 Comparison of the virus reduction factors (Iog ] 0 ) for the octanoic acid treatment with and without the use of a vibromixer.
- the optimal range for the dosage of UVC radiation has been evaluated. There is a balance between the minimal necessary dosage to achieve at least 4 logio inactivation for non enveloped viruses and the maximum tolerable dosage to avoid denaturation of the IgM molecules leading to an impaired Fab function to bind antigens and impaired Fc function influencing complement activation. In the range of 200 to 400 J/m 2 one could observe only a slight increase of immunoglobulin aggregates and no significant impact on fragment content.
- the optical density (OD) of the original protein solution is used to calculate the flow rate in the UVivatec lab system with the vendor provided Excel-Sheet from BTS (customer Master Calculation Sheet UVivatec Lab I I Version 3.0).
- the flow rate is calculated by taking into account the lamp performance, the set point of the UV signal lamp sensor and the desired UVC irradiation dose.
- IgM containing solution with a protein content of about 55 g/1 (Batch 86GB005BE07) was pumped at a flow rate of 5.8 l/h through the UVivatec system in order to achieve a dose of 200 J/m 2 for a single flow-through.
- a dose of 300 J/m 2 was achieved by pumping the protein solution at a flow rate of 3.9 L/nr through the system.
- 400 J/m 2 were achieved by pumping the protein solution at a flow rate of 2.9 L/m 2 through the system.
- Table 2 Analytical results for the activity and titre determinations before and after UVC treatment in the concentrated final product
- the preferred range for the dosage was set between 200 and 300 J/m 2 because 200 J/m 2 are well enough to inactivate non enveloped viruses and at 300 J/m 2 no significant impact could be seen on aggregate formation and antibody titres.
- the preferred dosage is 225 J/m2
- UVC UVC: UVC:
- the distribution between the immunoglobulin classes remains unaffected by the UV irradiation within this dosage range procedure.
- the molecular weight distribution pattern analyzed by HPSEC is also not changed.
- the level of purity analyzed by CZE remains unchanged.
- Proteolytic activity (PA), prekallikrein activator (PKA) and anti-complementary activity (ACA) are unchanged.
- the anti bacterial activity measured by an Elisa method are not significantly altered for all immunoglobulin classes.
- Example 5 Overall Virus Reduction Through Use of Vibromixer/pH4 treatment and UVC treatment - Determination of virus removal factors
- BVDV Bovine Viral Diarrhea Virus
- PRV Pseudorabies Virus
- HAV Human Immunodeficiency virus
- EAV Equine Arteritis Virus
- Parvovirus as model virus for human Parvovirus B 19.
- the results of these studies with the three steps octanoic acid treatment, pi 14 treatment and UVC treatment are listed in the following Tabic 2.
- the optional nano filtration with filters with a nominal pore size of about 50 nm adds additional safety by increasing the total reduction up to more than 17 log 10 depending on the size of the virus. E.g > 17.5 logio are then reached for HIV-1 whereas PPV was not further removed by nano filtration.
- the purification procedure according to the invention leads to an outstanding virus safe IgM preparation with up to now for such an IgM containing preparation unreached virus inactivation / reduction rates of more than 8 logio. This is especially important for the non enveloped viruses like MEV, Reo and PPV which are generally more resistant against virus inactivation and removal procedures due to their small size and the lack of a lipid envelope.
- Example 6 Determination of residual proteolytic activity for the octanoic acid treatment with and without use of a vibromixer.
- the octanoic acid treatment was performed like in example 1 and in a parallel experiment without a vibromixer but with vigorous standard stirring with a blade stirrer.
- the proteolytic activity in samples after octanoic acid / tricalcium phosphate treatment and ultra-/diafiltration were determined using the chromogenic substrate S-2288 (Chromogenix), following the manufacturers instructions. 25 mg of the substrate S-2288 (Chromogenix) are dissolved in 7,2 ml water-for-injection. Samples are diluted into buffer (100 raM Tris/HCI pH 8.4, 106 niM NaCl) to meet the linear range of the assay, e.g.
- 200 ⁇ buffer are mixed with 200 ⁇ sample (mixing and temperature adjustment to 37 °C) and 200 ⁇ chromogenic substrate solution.
- the absorption kinetics are measured at 405 nm (1-3 min) at 37 °C, using a spectrophotometer.
- Example 7 Anti-bacterial titres in an IgM preparation according to the invention
- the anti -bacterial activities were analyzed in three batches of this well established drug and compared to a preparation according to the invention.
- the determination of antibodies of the IgA or IgM class in the IgM preparation versus antibacterial or antifungal antigens was carried out by ELISA. Microtitre plates were coated with a corresponding antigen and incubated with a standard or the IgM preparation. Antibodies bound to the antigen were detected with an anti- human-IgA or anti-human-IgM conjugate. The detection was carried out by using an enzyme substrate. The resulting colour change is corresponding to the amount of antibodies present in IgM preparation.
- the IgM and IgA mediated activities in the new preparation were typically at least 1.5 times as high as in Pentaglobin which can be explained by the fact that IgM and IgA in Pentaglobin is chemically modified with ⁇ -Propiolactone This step is replaced by the more gentle procedures according to this invention.
- factor C5a as a marker for activation of the terminal complement pathway.
- human serum was incubated with immunoglobulin products or buffer for 120 min. Samples were taken after 0, 5, 15, 60 and 120 minutes of incubation. In order to demonstrate appropriate function of the in vitro system complete inhibition as well as full activation of the complement system was shown.
- the complement factor concentration was measured via optical density determinations with a photometer using a commercial available enzyme linked immunosorbent assay (ELISA) kit (Quidel MicroVue C5a Plus EIA Kit; A025).
- ELISA enzyme linked immunosorbent assay
- Human serum (Quidel NHS; Al 13) was thawed quickly at 37°C and immediately put on ice. Every single sample consisted of a reaction batch containing serum (100 ⁇ ). Additives were first pipetted followed by the addition of human serum to start the reaction in every reaction batch.
- the concentration of C5a in serum treated with the IgM preparation according to this invention is comparable to the C5a concentration measured in serum without additives (blank) or in serum treated with the formulation buffers (300 mM Glycin, pH 4.3 or 0.45 % NaCl/2.5% Glucose, pH 6.8).
- the immunoglobulins in the IgM preparation according to this invention substantially do not unspecifically activate complement in human serum in the in vitro test system.
- factor C3a As a marker for activation of the complement pathway.
- human serum was incubated with immunoglobulin products or buffer for 120 min. Samples were taken after 0, 5, 15, 60 and 120 minutes of incubation. In order to demonstrate appropriate function of the in vitro system complete inhibition as well as full activation of the complement system was shown.
- the complement factor concentration was measured via optical density determinations with a photometer using a commercial available enzyme linked immunosorbent assay (ELISA) kit (Quidel Micro Vue C3a Plus EIA Kit; A032).
- ELISA enzyme linked immunosorbent assay
- Human serum (Quidel NHS; A113) was thawed quickly at 37°C and immediately put on ice. Every single sample consisted of a reaction batch containing serum (100 ⁇ ). Additives were first pipetted followed by the addition of human serum to start the reaction in every reaction batch.
- the concentration of C3a in serum treated with the IgM preparation according to this invention is comparable to the C3a concentration measured in serum without additives (blank) or in serum treated with the formulation buffers (300 mM Glycin, pH 4.3 or 0.45 % NaCl/2.5% Glucose, pH 6.8).
- the immunoglobulines in the IgM preparation according to this invention substantially do not unspecifically activate complement in remarkable amounts in human serum in the in vitro test system.
- the administration of the IgM preparation (15 ml/kg/day) had only minor effects on arterial blood pressure (mean, systolic and diastolic).
- the differences up to 4 hours after every infusion compared to pretest values did not exceed 4 mmHg. These differences can be considered not biologically relevant.
- C3a levels were determined in plasma samples taken after injection as a marker for unspecific activation of the complement pathway. C3a levels [ng/ml] were only slightly increased by the administration of the IgM preparation (15 mL/kgBW) and were even lower than with the commercially available reference preparation Pentaglobin at equal amounts of IgM. Blood samplings were performed approximately 6 hours after treatment.
- the good tolerability and safety of the IgM preparation was also verified in a human Phase I study in 24 healthy male and female volunteers. Systolic blood pressure in the first 4 hours after administration in the mean decreased only about 9 % (1 1.9 mmHg) after infusion of 91 to 274 mg of the IgM preparation per kg BW/d at 0.5 ml/min.
- tanned group O human red blood cells were loaded with rubella virus antigen.
- Specific volumes of the antibody preparations were incubated with antigen coated blood cells.
- the complement-initiated lysis of the blood cells was started by adding guinea pig complement.
- the kinetics of subsequent haemolysis was measured via time-dependent changes of absorbance at 541 nm.
- the evaluation was carried out using the maximal change of absorbance per time.
- Human Immunoglobulin Biological Reference Preparation; BRP Batch no. 3 was used as the comparison.
- the activity of the Fc part of the antibody molecule was determined in 7 batches of the IgM containing antibody preparation and was in all batches between 96.5 and 103.3 % compared to the biological reference preparation (BRP), therefore proving the functionality of the IgM containing antibody preparation.
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Abstract
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AU2011244241A AU2011244241B2 (en) | 2010-04-22 | 2011-04-21 | Antibody preparations |
RU2012149741A RU2617532C2 (en) | 2010-04-22 | 2011-04-21 | Preparations of antibodies |
BR112012026937A BR112012026937A2 (en) | 2010-04-22 | 2011-04-21 | antibody preparation suitable for intravenous administration to humans, method of producing it, use of it, and method of treating a patient |
CA2796263A CA2796263C (en) | 2010-04-22 | 2011-04-21 | Igm antibody preparations |
JP2013511592A JP6283517B2 (en) | 2010-04-22 | 2011-04-21 | Antibody preparation |
PL11715567.1T PL2560682T5 (en) | 2010-04-22 | 2011-04-21 | Antibody preparations |
EP11715567.1A EP2560682B2 (en) | 2010-04-22 | 2011-04-21 | Antibody preparations |
SG2012076063A SG184844A1 (en) | 2010-04-22 | 2011-04-21 | Antibody preparations |
MX2012012263A MX338195B (en) | 2010-04-22 | 2011-04-21 | Antibody preparations. |
ES11715567T ES2551605T5 (en) | 2010-04-22 | 2011-04-21 | Antibody preparations |
CN201180029337.XA CN102939107B (en) | 2010-04-22 | 2011-04-21 | Antibody preparation |
KR1020127030528A KR101860459B1 (en) | 2010-04-22 | 2011-04-21 | Antibody preparations |
IL222374A IL222374A (en) | 2010-04-22 | 2012-10-11 | Virus-safe antibody preparation |
US13/655,686 US8900806B2 (en) | 2010-04-22 | 2012-10-19 | Antibody preparations |
ZA2012/08541A ZA201208541B (en) | 2010-04-22 | 2012-11-13 | Antibody preparations |
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US14/529,400 US9518110B2 (en) | 2010-04-22 | 2014-10-31 | Antibody preparations |
US15/348,121 US10059759B2 (en) | 2010-04-22 | 2016-11-10 | Antibody preparations |
US16/029,781 US10954290B2 (en) | 2010-04-22 | 2018-07-09 | IgG, IgA and IgM antibody preparations, method of making and method of use in treatment |
US17/168,848 US11780909B2 (en) | 2010-04-22 | 2021-02-05 | Methods of treating viral infections by administering an antibody preparation comprising IGG, IGA and IGM |
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