WO2012069654A1 - Designed repeat proteins binding to serum albumin - Google Patents
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- WO2012069654A1 WO2012069654A1 PCT/EP2011/071083 EP2011071083W WO2012069654A1 WO 2012069654 A1 WO2012069654 A1 WO 2012069654A1 EP 2011071083 W EP2011071083 W EP 2011071083W WO 2012069654 A1 WO2012069654 A1 WO 2012069654A1
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Classifications
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- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/001—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof by chemical synthesis
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- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/50—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates
- A61K47/51—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent
- A61K47/62—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient the non-active ingredient being chemically bound to the active ingredient, e.g. polymer-drug conjugates the non-active ingredient being a modifying agent the modifying agent being a protein, peptide or polyamino acid
- A61K47/64—Drug-peptide, drug-protein or drug-polyamino acid conjugates, i.e. the modifying agent being a peptide, protein or polyamino acid which is covalently bonded or complexed to a therapeutically active agent
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- B01D15/00—Separating processes involving the treatment of liquids with solid sorbents; Apparatus therefor
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/46—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
- C07K14/47—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/46—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
- C07K14/47—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
- C07K14/4701—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals not used
- C07K14/4702—Regulators; Modulating activity
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
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- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2318/00—Antibody mimetics or scaffolds
- C07K2318/20—Antigen-binding scaffold molecules wherein the scaffold is not an immunoglobulin variable region or antibody mimetics
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/20—Fusion polypeptide containing a tag with affinity for a non-protein ligand
- C07K2319/21—Fusion polypeptide containing a tag with affinity for a non-protein ligand containing a His-tag
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/20—Fusion polypeptide containing a tag with affinity for a non-protein ligand
- C07K2319/22—Fusion polypeptide containing a tag with affinity for a non-protein ligand containing a Strep-tag
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/30—Non-immunoglobulin-derived peptide or protein having an immunoglobulin constant or Fc region, or a fragment thereof, attached thereto
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/31—Fusion polypeptide fusions, other than Fc, for prolonged plasma life, e.g. albumin
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/55—Fusion polypeptide containing a fusion with a toxin, e.g. diphteria toxin
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
- C07K2319/60—Fusion polypeptide containing spectroscopic/fluorescent detection, e.g. green fluorescent protein [GFP]
Definitions
- the present invention relates to designed repeat proteins with binding specificity for serum albumin, as well as nucleic acids encoding such serum albumin binding proteins, pharmaceutical compositions comprising such proteins, the use of such proteins to modify the pharmacokinetics of bioactive compounds and the use of such proteins in the treatment of diseases.
- bioactive compounds such as protein therapeutics
- PK pharmacokinetic
- the kidney generally filters out molecules from circulation that have an apparent molecular weight below 60 kDa.
- One strategy to improve the pharmacokinetic properties of such small bioactive compounds is to simply increase their apparent molecular size (i.e. to increase their hydrodynamic radius), e.g.
- Serum albumin having a molecular weight of 67 kDa is the most abundant protein in plasma, present at about 50 mg/ml (0.6 mM), and has a serum half-life of 19 days in humans. Serum albumin helps to maintain plasma pH, contributes to colloidal blood pressure, functions as carrier of many metabolites and fatty acids, and serves as a major drug transport protein in the plasma. There are several major small molecule binding sites in albumin that have been described.
- polypeptides that are specifically binding to serum albumin, and that thereby can extend the in vivo half-life of other molecules coupled to them, include variants of bacterial albumin binding domains (e.g. WO 2005/097202 and WO 2009/016043), small peptides (e.g. Dennis, M.S., et al., J. Biol. Chem. 277(3), 35035-43, 2002 and WO 2001/045746) and fragments of
- immunoglobulins e.g. WO 2008/043822, WO 2004/003019; WO 2008/043821 ; WO 2006/040153; WO 2006/122787 and WO 2004/041865).
- WO 2008/043822 refers to other binding proteins than fragments of immunoglobulins, such as molecules based on protein A domains, tendamistat, fibronectin, lipocalin, CTLA-4, T-cell receptors, designed ankyrin repeats and PDZ domains, which might be generated to specifically bind to serum albumin. Nevertheless, WO 2008/043822 does neither disclose the selection of designed ankyrin repeat domains with binding specificity for serum albumin (SA) nor concrete repeat sequence motifs of repeat domains that specifically bind to SA.
- SA serum albumin
- novel binding proteins or binding domains that can be used to specifically bind a target molecule (e.g. Binz, H.K., Amstutz, P. and Pluckthun, A., Nat. Biotechnol. 23, 1257-1268, 2005).
- One such novel class of binding proteins or binding domains are based on designed repeat proteins or designed repeat domains (WO
- WO 2002/020565 describes how large libraries of repeat proteins can be constructed and their general application. Nevertheless, WO 2002/020565 does neither disclose the selection of repeat domains with binding specificity for SA nor concrete repeat sequence motifs of repeat domains that specifically bind to SA.
- the present invention relates to a binding protein comprising at least one ankyrin repeat domain, wherein said ankyrin repeat domain has binding specificity for a mammalian serum albumin and wherein said ankyrin repeat domain comprises an ankyrin repeat module having an amino acid sequence selected from the group consisting of SEQ ID NO:49, 50, 51 and 52 and sequences, wherein up to 9 amino acids in SEQ ID NO:49, 50,51 and 52 are exchanged by any amino acid.
- the invention relates to a binding protein comprising at least one ankyrin repeat domain, wherein said repeat domain has binding specificity for a mammalian serum albumin and wherein said ankyrin repeat domain comprises an amino acid sequence that has at least 70% amino acid sequence identity with one ankyrin repeat domain selected from the group consisting of SEQ ID NOs: 17 to 31 and 43 to 48, wherein G at position 1 and/or S at position 2 of said ankyrin repeat domain are optionally missing.
- the invention relates to a binding protein as defined herein above, wherein the ankyrin repeat domain competes for binding to a mammalian serum albumin with an ankyrin repeat domain selected from the group consisting of SEQ ID NOs: 17 to 31 and 43 to 48.
- the invention relates to such a binding protein comprising a bioactive compound, in particular a binding protein comprising a bioactive compound having an at least 2-fold higher terminal plasma half-life in a mammal compared to the terminal plasma half-life of said unmodified bioactive compound.
- xSA mammalian serum albumin, A, absorbance at 280 nm; t, retention time in minutes; DARPin #19 (SEQ ID NO:19 with a His-tag (SEQ ID NO: 15) fused to its N-terminus); DARPin #20 (SEQ ID NO:20 with a His-tag (SEQ ID NO: 15) fused to its N-terminus); DARPin #21 (SEQ ID NO 21 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus);
- DARPin #28 (SEQ ID NO 28 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus);
- DARPin #29 (SEQ ID NO 29 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus);
- DARPin #30 (SEQ ID NO 30 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus).
- DARPin #44 (SEQ ID NO 44 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus).
- DARPin #46 (SEQ ID NO 46 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus).
- DARPin #47 (SEQ ID NO 47 with a His ⁇ tag (SEQ ID NO 15) fused to its N -terminus).
- F relative fluorescence units
- mice The clearance from blood plasma of DARPins with specificity for MSA (mouse serum albumin) and control DARPins were assessed in mice.
- DARPins comprising just one repeat domain with binding specificity for MSA compared to DARPin #32 (see below) having no binding specificity for MSA.
- DARPins comprising two protein domains (one of which is a repeat domain with binding specificity for MSA) compared to DARPin #32 having no binding specificity for MSA.
- DARPins were labeled via the His-Tag with a 99m Tc-carbonyl compound and injected intravenously in mice.
- the radioactivity of the blood of injected mice was measured at different time points after injection and shown as a ratio of the injected dose corrected for the radioactive decay of 99m Tc (%ID).
- the fitted curves show the result of non-linear regressions of the radioactivity measured at different time points - two phase decay (Graphpad Prism). Each data point indicates the average of two mice per group.
- DARPin #18 SEQ ID NO:18 with a His-tag (SEQ ID NO: 15) fused to its N-terminus
- DARPin #23 SEQ ID NO:23 with a His-tag (SEQ ID NO: 15) fused to its N-terminus
- DARPin #25 SEQ ID NO:25 with a His-tag (SEQ ID NO: 15) fused to its N-terminus
- DARPin #32 (a negative control DARPin with no binding specificity to xSA, SEQ ID NO:32 with a His-tag (SEQ ID NO: 15) fused to its N-terminus);
- DARPin #33 (a DARPin comprising two repeat domains, one with binding specificity for xSA, SEQ ID NO:33 with a His-tag (SEQ ID NO:15) fused to its N-terminus);
- DARPin #35 (a DARPin comprising two repeat domains, one with binding specificity for xSA, SEQ ID NO:35 with a His-tag (SEQ ID NO:15) fused to its N-terminus);
- Figure 4 Plasma clearance of selected DARPins in cynomolgus monkeys.
- DARPins with specificity for CSA (cynomolgus monkey serum albumin) and control DARPins from blood plasma was assessed in cynomolgus monkeys.
- DARPin #26 was compared to DARPin #32 having no binding specificity to CSA.
- DARPins #24, 34 and 17 were compared to DARPin #32 having no binding specificity to CSA.
- the curves show the result of non-linear regressions of the concentrations measured at different time points - two phase decay (Graphpad Prism). From the second phase, the terminal plasma half-life of a DARPin can be determined. Each single data point indicates the average of two independent ELISA measurements of the same serum sample.
- DARPin #34 (a DARPin comprising two repeat domains, one with binding specificity for xSA, SEQ ID NO:34 with a His-tag (SEQ ID NO:15) fused to its N-terminus).
- protein refers to a polypeptide, wherein at least part of the polypeptide has, or is able to acquire a defined three-dimensional arrangement by forming secondary, tertiary, or quaternary structures within and/or between its polypeptide chain(s). If a protein comprises two or more polypeptides, the individual polypeptide chains may be linked non- covalently or covalently, e.g. by a disulfide bond between two polypeptides. A part of a protein, which individually has, or is able to acquire, a defined three-dimensional arrangement by forming secondary or tertiary structures, is termed "protein domain". Such protein domains are well known to the practitioner skilled in the art.
- recombinant as used in recombinant protein, recombinant protein domain, recombinant binding protein and the like, means that said polypeptides are produced by the use of recombinant DNA technologies well known by the practitioner skilled in the relevant art.
- a recombinant DNA molecule e.g. produced by gene synthesis
- a bacterial expression plasmid e.g. pQE30, Qiagen
- yeast expression plasmid e.g. pQE30, Qiagen
- mammalian expression plasmid e.g. pQE30, Qiagen
- yeast expression plasmid e.g. pQE30, Qiagen
- mammalian expression plasmid e.g. pQE30, Qiagen
- yeast expression plasmid e.g. pQE30, Qiagen
- mammalian expression plasmid e.g. pQE
- polypeptide relates to a molecule consisting of one or more chains of multiple, i.e. two or more, amino acids linked via peptide bonds.
- a polypeptide consists of more than eight amino acids linked via peptide bonds.
- polypeptide tag refers to an amino acid sequence attached to a
- polypeptide/protein wherein said amino acid sequence is useful for the purification, detection, or targeting of said polypeptide/protein, or wherein said amino acid sequence improves the physicochemical behavior of the polypeptide/protein, or wherein said amino acid sequence possesses an effector function.
- the individual polypeptide tags, moieties and/or domains of a binding protein may be connected to each other directly or via polypeptide linkers. These polypeptide tags are all well known in the art and are fully available to the person skilled in the art. Examples of polypeptide tags are small polypeptide sequences, for example, His (e.g. the His-tag of SEQ ID NO: 15), myc, FLAG, or Strep-tags or moieties such as enzymes (for example enzymes like alkaline
- phosphatase which allow the detection of said polypeptide/protein, or moieties which can be used for targeting (such as immunoglobulins or fragments thereof) and/or as effector molecules.
- polypeptide linker refers to an amino acid sequence, which is able to link, for example, two protein domains, a polypeptide tag and a protein domain, a protein domain and a non-polypeptide moiety such as polyethylene glycol or two sequence tags.
- additional domains, tags, non-polypeptide moieties and linkers are known to the person skilled in the relevant art.
- linkers are glycine-serine- linkers and proline-threonine-linkers of variable lengths; preferably, said linkers have a length between 2 and 24 amino acids; more preferably, said linkers have a length between 2 and 16 amino acids.
- An example of a glycine-serine-linker is provided in SEQ ID NO: 16.
- polymer moiety refers to either a proteinaceous polymer moiety or a non- proteinaceous polymer moiety.
- a “proteinaceous polymer moiety” preferably is a polypeptide that does not form a stable tertiary structure while not forming more than 10%, preferably, not more than 5%; also preferred, not more than 2%; even more preferably, not more than 1 %; and most preferably, no detectable amounts, as determined by size exclusion chromatography (SEC) of oligomers or aggregates when stored at a
- Such proteinaceous polymer moieties run at an apparent molecular weight in SEC that is higher than their effective molecular weight when using globular proteins as molecular weight standards for the SEC.
- the apparent molecular weight of said proteinaceous polymer moieties determined by SEC is 1.5x, 2x or 2.5x higher than their effective molecular weight calculated from their amino acid sequence.
- the apparent molecular weights of said non-proteinaceous polymer moieties determined by SEC is 2x, 4x or 8x higher than their effective molecular weight calculated from their molecular composition.
- proteinaceous polymer shows a typical near UV CD-spectra of a random coil conformation.
- CD analyses are well known to the person skilled in the art.
- proteinaceous polymer moieties that consist of more than 50, preferably more than 100, 200, 300, 400, 500, 600, 700, or most preferably more than 800 amino acids.
- proteinaceous polymer moieties are XTEN® (a registered trademark of Amunix; WO 2007/103515) polypeptides, or polypeptides comprising proline, alanine and serine residues as described in WO 2008/155134.
- XTEN® a registered trademark of Amunix; WO 2007/103515
- Such proteinaceous polymer moieties can be covalently attached to, for example, a binding domain of the invention by the generation of genetic fusion
- a polymer moiety of the invention may vary widely in molecular weight (i.e. from about 1 kDa to about 150 kDa).
- the polymer moiety has a molecular weight of at least 2, more preferably at least 5, 10, 20, 30, 50, 70, or most preferably at least 100 kDa.
- said polymer moiety is connected by a polypeptide linker to a binding domain.
- non-proteinaceous polymer moieties are hydroxyethyl starch (HES), polyethylene glycol (PEG), polypropylene glycol, or polyoxyalkylene.
- PEGylated means that a PEG moiety is covalently attached to, for example, a polypeptide of the invention.
- a PEG moiety or any other non-proteinaceous polymer can, e.g., be coupled to a cysteine thiol via a maleimide linker with the cysteine being coupled via a peptide linker to the N- or C-terminus of a binding domain as described herein.
- binding protein refers to a protein comprising one or more binding domains, one or more bioactive compounds and one or more polymer moieties as further explained below.
- said binding protein comprises up to four binding domains. More preferably, said binding protein comprises up to two binding domains. Most preferably, said binding protein comprises only one binding domain.
- any such binding protein may comprise additional protein domains that are not binding domains, multimerization moieties, polypeptide tags, polypeptide linkers and/or a single Cys residue.
- the diverse collection of protein domains may be provided by several methods in accordance with the screening and/or selection system being used, and may comprise the use of methods well known to the person skilled in the art, such as phage display or ribosome display.
- said binding domain is a recombinant binding domain.
- protein scaffold means a protein with exposed surface areas in which amino acid insertions, substitutions or deletions are highly tolerable.
- protein scaffolds that can be used to generate binding domains of the present invention are antibodies or fragments thereof such as single-chain Fv or Fab fragments, protein A from Staphylococcus aureus, the bilin binding protein from Pieris brassicae or other lipocalins, ankyrin repeat proteins or other repeat proteins, and human fibronectin. Protein scaffolds are known to the person skilled in the art (Binz et al., 2005, loc. cit.; Binz et al., 2004, loc. cit.).
- repeat proteins are based on those in patent application WO 2002/020565.
- Patent application WO 2002/020565 further contains a general description of repeat protein features, techniques and applications.
- a designed ankyrin repeat protein corresponds to a binding protein of the invention comprising at least one ankyrin repeat domain.
- structural unit refers to a locally ordered part of a polypeptide, formed by three- dimensional interactions between two or more segments of secondary structure that are near one another along the polypeptide chain. Such a structural unit exhibits a structural motif.
- structural motif refers to a three-dimensional arrangement of secondary structure elements present in at least one structural unit. Structural motifs are well known to the person skilled in the art. Structural units alone are not able to acquire a defined three-dimensional arrangement; however, their consecutive arrangement, for example as repeat modules in a repeat domain, leads to a mutual stabilization of neighboring units resulting in a superhelical structure.
- repeat unit refers to amino acid sequences comprising repeat sequence motifs of one or more naturally occurring repeat proteins, wherein said “repeat units” are found in multiple copies, and which exhibit a defined folding topology common to all said motifs determining the fold of the protein.
- Such repeat units correspond to the "repeating structural units (repeats)" of repeat proteins as described by Forrer et al., 2003, loc. cit. or the “consecutive homologous structural units (repeats)” of repeat proteins as described by Binz et al, 2004, loc. cit..
- Such repeat units comprise framework residues and interaction residues.
- repeat units examples include armadillo repeat units, leucine-rich repeat units, ankyrin repeat units, tetratricopeptide repeat units, HEAT repeat units, and leucine- rich variant repeat units.
- Naturally occurring proteins containing two or more such repeat units are referred to as "naturally occurring repeat proteins".
- the amino acid sequences of the individual repeat units of a repeat protein may have a significant number of mutations, substitutions, additions and/or deletions when compared to each other, while still substantially retaining the general pattern, or motif, of the repeat units.
- ankyrin repeat unit shall mean a repeat unit, which is an ankyrin repeat as described, for example, by Forrer et al., 2003, loc. cit.. Ankyrin repeats are well known to the person skilled in the art.
- frame residues relates to amino acid residues of the repeat units, or the corresponding amino acid residues of the repeat modules, which contribute to the folding topology, i.e. which contribute to the fold of said repeat unit (or module) or which contribute to the interaction with a neighboring unit (or module). Such contribution might be the interaction with other residues in the repeat unit (or module), or the influence on the polypeptide backbone conformation as found in a-helices or ⁇ -sheets, or amino acid stretches forming linear polypeptides or loops.
- target interaction residues refers to amino acid residues of the repeat units, or the corresponding amino acid residues of the repeat modules, which contribute to the interaction with target substances. Such contribution might be the direct interaction with the target substances, or the influence on other directly interacting residues, e.g. by stabilizing the conformation of the polypeptide of a repeat unit (or module) to allow or enhance the interaction of directly interacting residues with said target.
- framework and target interaction residues may be identified by analysis of the structural data obtained by physicochemical methods, such as X-ray crystallography, NMR and/or CD spectroscopy, or by comparison with known and related structural information well known to practitioners in structural biology and/or bioinformatics.
- the repeat units used for the deduction of a repeat sequence motif are homologous repeat units, wherein the repeat units comprise the same structural motif and wherein more than 70% of the framework residues of said repeat units are homologous to each other.
- more than 80% of the framework residues of said repeat units are homologous.
- more than 90% of the framework residues of said repeat units are homologous.
- Computer programs to determine the percentage of homology between polypeptides, such as Fasta, Blast or Gap are known to the person skilled in the art.
- the repeat units used for the deduction of a repeat sequence motif are homologous repeat units obtained from repeat domains selected on a target, for example as described in Example 1 and having the same target specificity.
- randomized position refers to an amino acid position in a repeat sequence motif, wherein two or more amino acids are allowed at said amino acid position, for example, wherein any of the usual twenty naturally occurring amino acids are allowed, or wherein most of the twenty naturally occurring amino acids are allowed, such as amino acids other than cysteine, or amino acids other than glycine, cysteine and proline. Most often, such randomized positions correspond to the positions of target interaction residues. However, some positions of framework residues may also be randomized.
- folding topology refers to the tertiary structure of said repeat units or repeat modules.
- the folding topology will be determined by stretches of amino acids forming at least parts of a-helices or ⁇ -sheets, or amino acid stretches forming linear polypeptides or loops, or any combination of a-helices, ⁇ -sheets and/or linear polypeptides/loops.
- repeat units refers to an arrangement, wherein the repeat units or repeat modules are arranged in tandem.
- repeat proteins there are at least 2, usually about 2 to 6, in particular at least about 6, frequently 20 or more repeat units (or modules).
- repeat units (or modules) of a repeat domain will exhibit a high degree of sequence identity (same amino acid residues at corresponding positions) or sequence similarity (amino acid residues being different, but having similar physicochemical properties), and some of the amino acid residues might be key residues being strongly conserved.
- a high degree of sequence variability by amino acid insertions and/or deletions, and/or substitutions between the different repeat units (or modules) of a repeat domain may be possible as long as the common folding topology of the repeat units (or modules) is maintained.
- repeat modules refers to the repeated amino acid sequences of the designed repeat domains, which are originally derived from the repeat units of naturally occurring repeat proteins. Each repeat module comprised in a repeat domain is derived from one or more repeat units of the family or subfamily of naturally occurring repeat proteins, e.g. the family of armadillo repeat proteins or ankyrin repeat proteins. "Repeat modules” may comprise positions with amino acid residues present in all copies of corresponding repeat modules ("fixed positions") and positions with differing or
- a binding protein according to the invention comprises at least one ankyrin repeat domain, wherein said repeat domain has binding specificity for mammalian serum albumin (xSA).
- xSA mammalian serum albumin
- the term "has binding specificity for a target”, “specifically binding to a target” or “target specificity” and the like means that a binding protein or binding domain binds in PBS to a target with a lower dissociation constant than to an unrelated protein such as the E. coli maltose binding protein (MBP).
- the dissociation constant in PBS for the target is at least 10, more preferably 10 2 , even more preferably 10 3 , or most preferably 10 4 times lower than the corresponding dissociation constant for MBP.
- the binding protein of the invention is not an antibody or a fragment thereof, such as Fab or scFv fragments. Antibodies and fragments thereof are well known to the person skilled in the art.
- the invention relates to a binding protein comprising at least one ankyrin repeat domain, wherein said ankyrin repeat domain has binding specificity for a
- said ankyrin repeat domain comprises an ankyrin repeat module having an amino acid sequence selected from the group consisting of SEQ ID NO:49, 50, 51 and 52 and sequences, wherein up to 9 amino acids in SEQ ID NO:49, 50, 51 and 52 are exchanged by any amino acid.
- up to 8 amino acids in SEQ ID NO:49, 50, 51 and 52 are exchanged by other amino acid, more preferably up to 7 amino acids, more preferably up to 6 amino acids, more preferably up to 5 amino acids, even more preferably up to 4 amino acids, more preferably up to 3 amino acids, more preferably up to 2 amino acids, more preferably up to 1 amino acid, and most preferably no amino acid in SEQ ID NO:49, 50, 51 and 52 is exchanged.
- the negative charged amino acid D may be replaced by the negative charged amino acid E, or a hydrophobic amino acid such as L may be replaced by A, I or V.
- a hydrophobic amino acid such as L
- A, I or V The replacement of an amino acid by a homologous amino acid is well known to the person skilled in the art.
- Binding proteins comprising an ankyrin repeat domain binding xSA with a Kd in PBS below 10 "4 M are shown in the Examples.
- An ankyrin repeat domain of a binding protein of the invention binds xSA.
- Preferred is a binding protein comprising an ankyrin repeat domain that binds human serum albumin (HSA).
- HSA human serum albumin
- such an ankyrin repeat domain in a binding protein of the invention comprises an amino acid sequence with at least 75%, more preferably at least 80%, more preferably at least 85%, more preferably at least 90%, or most preferred at least 95% amino acid sequence identity.
- the binding protein with binding specificity for mammalian serum albumin defined by replacement of up to 9 amino acids in ankyrin repeat modules of SEQ ID NO:49, 50, 51 and 52, or defined by at least 70% amino acid sequence identity with one ankyrin repeat domain selected from the group consisting of SEQ ID NOs: 17 to 31 and 43 to 48, has at least a 5-fold higher terminal plasma half-life in a mammal compared to a corresponding binding protein not binding to mammalian serum albumin, for example the ankyrin repeat domain of SEQ ID NO:32.
- the minimum terminal plasma half-life in human is at least 1 day, more preferably at least 3 days, even more preferably at least 5 days.
- the invention relates to a binding protein, wherein said ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif X 1 DX 2 X 3 X4X5TPLHLAAX 6 X 7 GHLX 8 lVEVLLKX 9 GADVNA (SEQ ID NO:53)
- X ⁇ X 2 , X 3 , X 4 , X5, ⁇ , X 7 , Xs and X 9 represent, independently of each other, an amino acid residue selected from the group consisting of A, D, E, F, H, I, K, L, M, N, Q, R, S, T, V, W and Y;
- X ! represents an amino acid residue selected from the group consisting of A, D, M, F, S, I, T, N, Y and K; more preferably of K and A;
- X 2 represents an amino acid residue selected from the group consisting of E, K, D, F, M, N, I and Y; more preferably of I, E and Y;
- X 3 represents an amino acid residue selected from the group consisting of W, R, N, T, H, K, A and F; more preferably of W, R and F;
- X 4 represents an amino acid residue selected from the group consisting of G and S;
- X 5 represents an amino acid residue selected from the group consisting of N, T and H;
- X 7 represents an amino acid residue selected from the group consisting of E, Y, N, D, H, S, A, Q, T and G; more preferably of E, Y and N;
- X 8 represents an amino acid residue selected from the group consisting of E and K;
- X 9 represents an amino acid residue selected from the group consisting of S, A, Y, H and
- N more preferably of Y and H;
- the invention relates to a binding protein, wherein the ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif
- X ! represents an amino acid residue selected from the group consisting of A, D, M, F, S, I, T, N, Y, and K; preferably of K and A;
- X 3 represents an amino acid residue selected from the group consisting of W, R, N, T, H, K, A and F; preferably of W, R and F;
- X 4 represents an amino acid residue selected from the group consisting of N, T and H
- X 5 represents an amino acid residue selected from the group consisting of N, V and R
- X 6 represents an amino acid residue selected from the group consisting of E, Y, N, D, H, S, A, Q, T and G; preferably of E, Y and N;
- X 7 represent an amino acid residue selected from the group consisting of S, A, Y, H and N; preferably of Y and H; and
- the invention relates to a binding protein, wherein the ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif X 1 DYFX 2 HTPLHLAARX 3 X 4 HLX 5 IVEVLLKX 6 GADVNA (SEQ ID NO: 11)
- X ! represents an amino acid residue selected from the group consisting of D, K and A; preferably K and A;
- X 2 represents an amino acid residue selected from the group consisting of D, G and S; preferably G and S;
- X 3 represents an amino acid residue selected from the group consisting of E, N, D, H, S, A, Q, T and G; preferably Q, D and N; more preferably of Q and N;
- X 4 represents an amino acid residue selected from the group consisting of G and D;
- X 5 represents an amino acid residue selected from the group consisting of E, K and G; preferably E and K;
- X 6 represents an amino acid residue selected from the group consisting of H, Y, A and N; preferably H, A and Y; more preferably of A and Y; and
- the invention relates to a binding protein, wherein the ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif X 1 DFX 2 G X 3 TPLHLAAX 4 X 5 GHLEIVEVLLKX 6 GADVNA (SEQ ID NO:54) wherein
- X ! represents an amino acid residue selected from the group consisting of F, S, L and K; preferably of S and K;
- X 2 represents an amino acid residue selected from the group consisting of V and A;
- X 3 represents an amino acid residue selected from the group consisting of R and K;
- X 4 represents an amino acid residue selected from the group consisting S and N;
- X 5 represents an amino acid residue selected from the group consisting of N, D, Q, S, A, T and E; preferably D and Q;
- X 6 represents an amino acid residue selected from the group consisting of A, H, Y, S and N; preferably of A and H; and
- the invention relates to a binding protein, wherein the ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif
- X ! represents an amino acid residue selected from the group consisting of F, S, L and K; preferably S and K;
- X 2 represents an amino acid residue selected from the group consisting of V and A;
- X 3 represents an amino acid residue selected from the group consisting of R and K;
- X 4 represents an amino acid residue selected from the group consisting of S and N;
- X 5 represents an amino acid residue selected from the group consisting of A, H, Y, S and
- N preferably A and H;
- NO: 12 are exchanged by any amino acid.
- said ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif of SEQ ID NO: 12, preceded by a repeat module with the ankyrin repeat sequence motif of SEQ ID NO:1 1.
- X 2 represents an amino acid residue selected from the group consisting of E, K, D, F, M, N and Y; preferably E, D and Y;
- X 3 represents an amino acid residue selected from the group consisting of R, N, T, H, K, A and F; preferably R and F;
- X 4 represents an amino acid residue selected from the group consisting of I and M;
- the invention relates to a binding protein, wherein the ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif X 1 NETGYTPLHLADSSGHX 2 EIVEVLLKX 3 X 4 X 5 DX 6 NA (SEQ ID NO: 14)
- X ! represents an amino acid residue selected from the group consisting of Q and K;
- X 2 represents an amino acid residue selected from the group consisting of L and P;
- X 3 represents an amino acid residue selected from the group consisting of H, N, Y and A; preferably H and A;
- X 4 represents an amino acid residue selected from the group consisting of G and S;
- X 5 represents an amino acid residue selected from the group consisting of A, V, T and S; preferably S and A;
- X 6 represents an amino acid residue selected from the group consisting of V and F; and wherein optionally up to 5 amino acids in other than in positions denoted with X in SEQ ID NO: 14 are exchanged by any amino acid.
- said ankyrin repeat domain comprises a repeat module with the ankyrin repeat sequence motif of SEQ ID NO: 14, preceded by a repeat module with the ankyrin repeat sequence motif of SEQ ID NO: 13.
- capping module refers to a polypeptide fused to the N- or C-terminal repeat module of a repeat domain, wherein said capping module forms tight tertiary interactions (i.e. tertiary structure interactions) with said repeat module thereby providing a cap that shields the hydrophobic core of said repeat module at the side not in contact with the consecutive repeat module from the solvent.
- Said N- and/or C-terminal capping module may be, or may be derived from, a capping unit or other structural unit found in a naturally occurring repeat protein adjacent to a repeat unit.
- capping unit refers to a naturally occurring folded polypeptide, wherein said polypeptide defines a particular structural unit which is N- or C-terminally fused to a repeat unit, wherein said polypeptide forms tight tertiary structure interactions with said repeat unit thereby providing a cap that shields the hydrophobic core of said repeat unit at one side from the solvent.
- capping modules or capping units are capping repeats.
- capping repeat refers to capping module or capping unit having a similar or the same fold as said adjacent repeat unit (or module) and/or sequence similarities to said adjacent repeat unit (or module). Capping modules and capping repeats are described in WO 2002/020565 and by Interlandi et al., 2008 (loc. cit.). For example, WO 2002/020565 describes the N- terminal capping module (i.e. a capping repeat) having the amino acid sequence
- the C-terminal capping module i.e. a capping repeat having the amino acid sequence QDKFGKTAFDISIDNGNEDLAEILQKLN (SEQ ID NO:2).
- N-terminal capping module of SEQ ID NO:17 is encoded by the amino acids from position 1 to 32 and the C-terminal capping module of SEQ ID NO:17 is encoded by the amino acids form position 99 to 126.
- a preferred N-terminal capping module comprises the sequence motif
- X ! represents an amino acid residue G, A or D;
- X 2 represents an amino acid residue G or D
- a preferred C-terminal capping module comprises the sequence motif X 1 DKX 2 GKTX 3 X4D X5X 6 X7DX 8 GX 9 EDX 10 AEX 11 LQKAA (SEQ ID NO:6) wherein X ! represents an amino acid residue Q or K;
- X 2 represents an amino acid residue A, S or F; preferably, S or F;
- X 3 represents an amino acid residue A or P
- X 4 represents an amino acid residue A or F
- X 5 represents an amino acid residue I or L
- X 8 represents an amino acid residue A, E or N; preferably, A or N;
- X 9 represents an amino acid residue N or H
- Xn represents an amino acid residue I or V
- a further preferred C-terminal capping module comprises the sequence motif
- X 2 represents an amino acid residue A, S or F; preferably, S or F;
- X 3 represents an amino acid residue A or P
- X 4 represents an amino acid residue I or L
- X 5 represents an amino acid residue S or A
- X 6 represents an amino acid residue I or A
- X 7 represents an amino acid residue A, E or N; preferably, A or N;
- X 9 represents an amino acid residue L or I
- a further preferred C-terminal capping module comprises the sequence motif
- X ! represents an amino acid residue Q or K
- X 2 represents an amino acid residue A, S or F; preferably, S or F;
- X 3 represents an amino acid residue A or P
- X 5 represents an amino acid residue S or A
- X 6 represents an amino acid residue A, E or N; preferably, A or N; wherein X 7 represents an amino acid residue N or H;
- X 8 represents an amino acid residue L or I
- X 9 represents an amino acid residue I or V.
- a C-terminal capping module comprising the sequence motif of SEQ ID NO:6, 7 or 8 has an amino acid residue A, I or K; preferably, I or K; at the position corresponding to position 3 of said sequence motif.
- such a C-terminal capping module comprising the sequence motif of SEQ ID NO:6, 7 or 8 has an amino acid residue R or D at the position corresponding to position 14 of said sequence motif.
- a preferred C-terminal capping module is a C-terminal capping module having the amino acid sequence QDKSGKTPADLAADAGHEDIAEVLQKAA (SEQ ID NO:9).
- C-terminal capping module having the amino acid sequence of SEQ ID NO:9, wherein
- amino acid residue at position 1 is Q or K;
- amino acid residue at position 4 is S or F;
- amino acid residue at position 15 is A, E or N;
- said C-terminal capping module has not the amino acid sequence of SEQ ID NO:2, 3 or 4.
- a C-terminal capping module having an amino acid sequence comprising at least 70%, preferably at least 75%, 80%, 85%, 90%, or most preferred at least 95% amino acid sequence identity on alignment with SEQ ID NO:9 or 2.
- the amino acid residue of said C-terminal capping module at the position corresponding to position 4 of SEQ ID:9 on alignment is S
- the amino acid residue of said C-terminal capping module at the position corresponding to position 9 of SEQ ID:9 on alignment is A
- the amino acid residue of said C-terminal capping module at the position corresponding to position 13 of SEQ ID:9 on alignment is A
- the amino acid residue of said C- terminal capping module at the position corresponding to position 15 of SEQ ID:9 on alignment is A.
- the amino acid residue of said C-terminal capping module at the position corresponding to position 9 of SEQ ID:9 on alignment is A and/or the amino acid residue of said C-terminal capping module at the position corresponding to position 13 of SEQ ID:9 on alignment is A.
- said C-terminal capping module comprises 28 amino acids. Further preferred is a C-terminal capping module having the amino acid sequence of SEQ ID NO:2 or 9, wherein
- one or more of the amino acid residues of said C-terminal capping module are exchanged by an amino acid found at the corresponding position on alignment of a corresponding C- terminal capping repeat or capping unit and wherein
- amino acid residue at position 4 is S;
- the amino acid residue at position 15 is A.
- up to 30% of the amino acid residues of said C-terminal capping module are exchanged, more preferably, up to 20% and even more preferably, up to 10% of the amino acid residues are exchanged.
- such a C-terminal capping module is a naturally occurring C-terminal capping repeat.
- a C-terminal capping module comprising the amino acids from position 1 to 25 or from position 1 to 26 of any of the above C-terminal capping modules based on SEQ ID NO:9.
- Such a C-terminal capping module having an amino acid sequence not comprising the amino acid N followed by G.
- C-terminal capping module having an at least 70%, preferably at least 75%, 80%, 85%, 90%, or most preferred at least 95% amino acid sequence identity with any of the above C-terminal capping modules based on SEQ ID NO:9 or with SEQ ID NO:9 itself.
- a C-terminal capping module having an at least 70%, preferably at least 75%, 80%, 85%, 90%, or most preferred at least 95% amino acid sequence identity with SEQ ID NO:2 or 9 and wherein said C-terminal capping module has amino acid A at position 9; preferably, said C-terminal capping module has amino acid A at positions 9 and 13; more preferably, said C-terminal capping module has amino acid A at positions 9, 13 and 15; and most preferably, said C-terminal capping module has amino acid A at positions 9, 13 and 15 and S at position 4.
- Such a C-terminal capping module not having the amino acid R at position 14 and/or not having the amino acid E at position 15.
- an C-terminal capping module not having an amino acid sequence identical to SEQ ID NO:2, 3 or 4. Further preferred is such a C-terminal capping module having an amino acid sequence based on SEQ ID NO:9, wherein said C-terminal capping module has amino acids at positions 26, 27 and 28 selected from the group consisting of A, L, R, M, K and N; more preferably, A, L, R and K; and most preferably, K, A and L.
- a capping module of a repeat domain can be exchanged by a capping module of the invention by combining techniques, such as alignment of amino acid sequences, mutagenesis and gene synthesis, known to the person skilled in the art.
- the C-terminal capping repeat of SEQ ID NO: 17 can be replaced by C-terminal capping repeat of SEQ ID NO:9 by (i) determination of the C-terminal capping repeat of SEQ ID NO: 17 (i.e. sequence position 99 to 126) by sequence alignment with SEQ ID NO:9, (ii) replacing the sequence of the determined C-terminal capping repeat of SEQ ID NO: 17 with the sequence of SEQ ID NO:9, (iii) generation of a gene encoding the repeat domain encoding the exchanged C-terminal capping module, (iv) expressing of the modified repeat domain in the cytoplasm of E. coli and (v) purification of the modified repeat domain by standard means.
- binding protein wherein the ankyrin repeat domain or designed ankyrin repeat domain comprises a C-terminal capping module with the sequence motif of SEQ ID NO:6, 7 or 8, wherein said capping module has the amino acid I at position 3 and wherein said repeat module is preceded by a repeat module with the ankyrin repeat sequence motif of SEQ ID NO: 12.
- a binding protein, a repeat domain, an N-terminal capping module or a C-terminal capping module having an amino acid sequence devoid of amino acids C, M or N.
- binding protein a repeat domain, an N-terminal capping module or a C-terminal capping module having an amino acid sequence devoid of amino acid N followed by G.
- any such C-terminal capping module comprising a C-terminal capping repeat, wherein one or more of the amino acids residues in said capping repeat are replaced by an amino acid residue found at the corresponding position on alignment of a corresponding capping unit or repeat unit.
- binding protein comprising any such N-terminal or C-terminal capping module.
- Examples of amino acid sequences of such C-terminal capping modules are the amino acid sequences from position 99 to 126 in SEQ ID NOs: 19, 21 , 27, 28, 38, 40 and 42.
- Example 6 demonstrates that the thermal stability of a repeat domain can be increased by replacing their C-terminal capping modules by a capping module of the invention.
- target refers to an individual molecule such as a nucleic acid molecule, a polypeptide or protein, a carbohydrate, or any other naturally occurring molecule, including any part of such individual molecule, or complexes of two or more of such molecules.
- the target may be a whole cell or a tissue sample, or it may be any non- natural molecule or moiety.
- the target is a naturally occurring or non-natural polypeptide or a polypeptide containing chemical modifications, for example modified by natural or non-natural phosphorylation, acetylation, or methylation.
- the target is xSA.
- xSA refers to a mammalian serum albumin, such as a serum albumin from mouse, rat, rabbit, dog, pig, monkey or human.
- MSA refers to a mouse serum albumin (UniProtKB/Swiss-Prot primary accession number P07724)
- CSA refers to a cynomolgus monkey (i.e. macaca fascicularis) serum albumin
- HSA human serum albumin
- consensus sequence refers to an amino acid sequence, wherein said consensus sequence is obtained by structural and/or sequence aligning of multiple repeat units. Using two or more structural and/or sequence aligned repeat units, and allowing for gaps in the alignment, it is possible to determine the most frequent amino acid residue at each position.
- the consensus sequence is that sequence which comprises the amino acids which are most frequently represented at each position. In the event that two or more amino acids are represented above-average at a single position, the consensus sequence may include a subset of those amino acids. Said two or more repeat units may be taken from the repeat units comprised in a single repeat protein, or from two or more different repeat proteins.
- Consensus sequences and methods to determine them are well known to the person skilled in the art.
- a "consensus amino acid residue” is the amino acid found at a certain position in a consensus sequence. If two or more, e.g. three, four or five, amino acid residues are found with a similar probability in said two or more repeat units, the consensus amino acid may be one of the most frequently found amino acids or a combination of said two or more amino acid residues.
- non-naturally occurring capping modules are non-naturally occurring capping modules, repeat modules, binding proteins or binding domains.
- non-naturally occurring means synthetic or not from nature, more specifically, the term means made from the hand of man.
- non-naturally occurring binding protein or “non-naturally occurring binding domain” means that said binding protein or said binding domain is synthetic (i.e. produced by chemical synthesis from amino acids) or recombinant and not from nature.
- Non-naturally occurring binding protein or “non- naturally occurring binding domain” is a man-made protein or domain, respectively, obtained by expression of correspondingly designed nucleic acids. Preferably, the expression is done in eukaryotic or bacterial cells, or by using a cell-free in vitro expression system.
- sequence of said binding protein or said binding domain is not present as a non-artificial sequence entry in a sequence database, for example in GenBank, EMBL-Bank or Swiss-Prot. These databases and other similar sequence databases are well known to the person skilled in the art.
- the invention relates to a binding protein comprising a binding domain, wherein said binding domain is an ankyrin repeat domain and specifically binds to xSA and wherein said binding protein and/or binding domain has a midpoint denaturation temperature (Tm) above 40°C upon thermal unfolding in PBS and forms less than 5% (w/w) insoluble aggregates at concentrations up to 10 g/L when incubated at 37°C for 1 day in PBS.
- Tm midpoint denaturation temperature
- PBS means a phosphate buffered water solution containing 137 mM NaCI, 10 mM phosphate and 2.7 mM KCI and having a pH of 7.4.
- the binding protein and/or binding domain has a midpoint denaturation temperature (Tm) above 45°C, more preferably above 50°C, more preferably above 55°C, and most preferably above 60°C upon thermal unfolding in PBS at pH 7.4 or in MES buffer at pH 5.8.
- Tm midpoint denaturation temperature
- a binding protein or a binding domain of the invention possesses a defined secondary and tertiary structure under physiological conditions.
- Thermal unfolding of such a polypeptide results in a loss of its tertiary and secondary structure, which can be followed, for example, by circular dichroism (CD) measurements.
- CD circular dichroism
- a binding protein and/or binding domain forming less than 5% (w/w) insoluble aggregates at concentrations up to 20 g/L, preferably up 40 g/L, more preferably up to 60 g/L, even more preferably up to 80 g/L, and most preferably up to 100 g/L when incubated for over 5 days, preferably over 10 days, more preferably over 20 days, more preferably over 40 days, and most preferably over 100 days at 37°C in PBS.
- the formation of insoluble aggregates can be detected by the appearance of visual precipitations, gel filtration or dynamic light scattering, which strongly increases upon formation of insoluble aggregates. Insoluble aggregates can be removed from a protein sample by centrifugation at 10 ⁇ 00 x g for 10 minutes.
- a binding protein and/or binding domain forms less than 2%, more preferably less than 1 %, 0.5%, 0.2%, 0.1 %, or most preferably less than 0.05% (w/w) insoluble aggregates under the mentioned incubation conditions at 37°C in PBS. Percentages of insoluble aggregates can be determined by separation of the insoluble aggregates from soluble protein, followed by determination of the protein amounts in the soluble and insoluble fraction by standard quantification methods. Also preferred is a binding protein and/or binding domain that does not lose its native three-dimensional structure upon incubation in PBS containing 100 mM dithiothreitol (DTT) for 1 or 10 hours at 37°C.
- DTT dithiothreitol
- the invention relates to a binding protein comprising a binding domain being an ankyrin repeat domain, specifically binding to xSA and having the indicated or preferred midpoint denaturation temperature and non-aggregating properties as defined above, wherein said binding protein has an at least 5-fold higher terminal plasma half-life in a mammal compared to a binding domain not binding to a serum protein such as xSA.
- said binding domain has an at least 10-fold, more preferably at least 20-fold, 40-fold, 100-fold, 300-fold, or most preferably at least 10 3 -fold higher terminal plasma half- life in a mammal compared to a binding domain not binding to a serum protein such as xSA.
- said binding domain does not bind xSA indicated by a Kd above 10 "4 M, more preferably above 10 "3 M or most preferably above 10 "2 M for binding of xSA.
- An example of a binding domain that does not bind xSA is the repeat domain of SEQ ID NO:32.
- said binding domain is a repeat domain and has an at least 5-fold, more preferably at least 10-fold, 20-fold, 40-fold, 100-fold, 300-fold, or most preferably at least 10 3 -fold higher (i.e. longer) terminal plasma half-life in a mammal compared to the repeat domain of SEQ ID NO:32 or compared to DARPin #32, DARPin #41 or DARPin #42.
- a preferred binding protein comprises a binding domain with binding specificity for HSA having a terminal plasma half-life of above 1 , more preferably above 3, 5, 7, 10, 15, or most preferably above 20 days in humans.
- terminal plasma half-life of a binding domain can be determined by assays well know to the person skilled in the art (Toutain, P.L., and Bousquet-Melou, A., J. Vet. Pharmacol. Ther. 27(5), 427-439, 2004). Examples on the determination of terminal plasma half-life are given in the Examples.
- the term "terminal plasma half-life" of a drug such as a binding protein or binding domain of the invention refers to the time required to reach half the plasma concentration of the drug applied to a mammal after reaching pseudo-equilibrium. This half-life is not defined as the time required to eliminate half the dose of the drug administered to the mammal.
- the invention relates to a binding protein comprising a binding domain being an ankyrin repeat domain, specifically binding to xSA and comprising a bioactive compound.
- bioactive compound refers to a compound that is disease modifying when applied to a mammal having said disease.
- a bioactive compound may have antagonistic or agonistic properties and can be a proteinaceous bioactive compound or a non- proteinaceous bioactive compound.
- Such proteinaceous bioactive compounds can be covalently attached to, for example, a binding domain of the invention by the generation of genetic fusion polypeptides using standard DNA cloning technologies, followed by their standard expression and
- DARPin #36 comprises a repeat domain with binding specificity for a human growth factor (i.e. a bioactive compound) followed by a repeat domain with binding specificity for HSA.
- non-proteinaceous bioactive compounds can be covalently attached to, for example, a binding domain of the invention by chemical means, e.g., by coupling to a cysteine thiol via a maleimide linker with a cysteine being coupled via a peptide linker to the N- or C- terminus of a binding domain as described herein.
- proteinaceous bioactive compounds are binding domains having a distinct target specificity (e.g. neutralizing a growth factor by binding to it), cytokines (e.g.
- growth factors e.g. human growth hormone
- antibodies and fragments thereof e.g. GLP-1
- any possible proteinaceous drug e.g. GLP-1
- non-proteinaceous bioactive compounds examples include, toxins (e.g. DM1 from
- the invention relates to a binding protein comprising an ankyrin repeat domain specifically binding to xSA and further comprising a bioactive compound, wherein said binding protein has an at least 2-fold higher terminal half-life in a mammal compared to the terminal half-life of said unmodified bioactive compound, wherein said higher terminal half-life is conferred to said binding protein by said repeat domain.
- said binding protein has an at least 5-fold, more preferably at least 10-fold, 20- fold, 40-fold, 100-fold, 300-fold, or most preferably at least 10 3 -fold higher terminal plasma half-life in a mammal compared to said unmodified bioactive compound.
- Another preferred embodiment is a recombinant binding protein comprising a binding domain specifically binding to xSA and wherein said binding domain is an ankyrin repeat domain or a designed ankyrin repeat domain.
- an ankyrin repeat domain may comprise one, two, three or more internal repeat modules that will participate in binding to xSA.
- such an ankyrin repeat domain comprises an N-terminal capping module, two to four internal repeat modules, and a C-terminal capping module.
- said binding domain is an ankyrin repeat domain or designed ankyrin repeat domain.
- said capping modules are capping repeats.
- said repeat domain competes for binding to xSA with a binding protein selected from the group of DARPins #17 to 31 and 43 to 48.
- said repeat domain competes for binding to xSA with a binding protein from the group of DARPins #19, 21 , 27, 28, 45, 46, 47 and 48. More preferably, said repeat domain competes for binding to xSA with binding protein DARPin #19, 45, 46, 48 or 27; even more preferably, said repeat domain competes for binding to xSA with the binding protein DARPin #46 or 27.
- Another preferred embodiment is a binding protein comprising a repeat domain with binding specificity for xSA selected from the group consisting of the repeat domains of SEQ ID NO: 17 to 31.
- said repeat domain is the repeat domain of SEQ ID NO: 19, 21 , 27 or 28. More preferably, said repeat domain is the repeat domain of SEQ ID NO: 19. Also more preferably, said repeat domain is the repeat domain of SEQ ID NO:21. Also more preferably, said repeat domain is the repeat domain of SEQ ID NO:27. Also more preferably, said repeat domain is the repeat domain of SEQ ID NO:28.
- a binding protein wherein said repeat domain with binding specificity for xSA comprises an amino acid sequence that has at least 70% amino acid sequence identity with a repeat domain of said group of repeat domains.
- said amino acid sequence identity is at least 75%, more preferably at least 80%, more preferably at least 85%, more preferably at least 90%, and most preferably at least 95%.
- said repeat domain with binding specificity for xSA comprises a repeat module that has at least 70% amino acid sequence identity with a repeat module of a repeat domain of said group of repeat domains.
- said amino acid sequence identity is at least 75%, more preferably at least 80%, more preferably at least 85%, more preferably at least 90%, and most preferably at least 95%.
- one or more of the amino acid residues of the N- terminal capping module of said repeat domain is exchanged by an amino acid residue found at the corresponding position on alignment of an N-terminal capping unit.
- one or more of the amino acid residues of the C- terminal capping module of said repeat domain is exchanged by an amino acid residue found at the corresponding position on alignment of a C-terminal capping unit.
- an amino acid residue found at the corresponding position on alignment of a C-terminal capping unit Preferably, up to 30% of the amino acid residues are exchanged, more preferably, up to 20%, and even more preferably, up to 10% of the amino acid residues are exchanged.
- a C-terminal capping unit is a naturally occurring C-terminal capping unit.
- up to 30% of the amino acid residues are exchanged with amino acids which are not found in the corresponding positions of repeat units, N-terminal capping units or C-terminal capping units.
- any of the xSA binding proteins or domains described herein may be covalently bound to one or more additional moieties, including, for example, a moiety that binds to a different target to create a dual-specificity binding agent, a bioactive compound, a labeling moiety (e.g. a fluorescent label such as fluorescein, or a radioactive tracer), a moiety that facilitates protein purification (e.g. a small peptide tag, such as a His- or strep-tag), a moiety that provides effector functions for improved therapeutic efficacy (e.g.
- a labeling moiety e.g. a fluorescent label such as fluorescein, or a radioactive tracer
- a moiety that facilitates protein purification e.g. a small peptide tag, such as a His- or strep-tag
- a moiety that provides effector functions for improved therapeutic efficacy e.g.
- a toxic protein moiety such as Pseudomonas aeruginosa exotoxin A (ETA) or a small molecular toxic agent such as maytansinoids or DNA alkylating agents) or a moiety that provides improved pharmacokinetics. Improved pharmacokinetics may be assessed according to the perceived therapeutic need. Often it is desirable to increase a toxic protein moiety.
- ETA Pseudomonas aeruginosa exotoxin A
- maytansinoids or DNA alkylating agents a moiety that provides improved pharmacokinetics.
- Improved pharmacokinetics may be assessed according to the perceived therapeutic need. Often it is desirable to increase
- bioavailability and/or increase the time between doses possibly by increasing the time that a protein remains available in the serum after dosing.
- it is desirable to improve the continuity of the serum concentration of the protein over time e.g., decrease the difference in serum concentration of the protein between the concentration shortly after administration and the concentration shortly before the next administration).
- the invention relates to nucleic acid molecules encoding the particular binding proteins, the particular N-terminal capping modules or the particular C- terminal capping modules. Further, a vector comprising said nucleic acid molecule is considered.
- a pharmaceutical composition comprising one or more of the above mentioned binding proteins, in particular binding proteins comprising repeat domains, or nucleic acid molecules encoding the particular binding proteins, and optionally a pharmaceutical acceptable carrier and/or diluent is considered.
- Pharmaceutical acceptable carriers and/or diluents are known to the person skilled in the art and are explained in more detail below.
- a diagnostic composition comprising one or more of the above mentioned binding proteins, in particular binding proteins comprising repeat domains, is considered.
- a pharmaceutical composition comprises binding proteins as described above and a pharmaceutically acceptable carrier, excipient or stabilizer, for example as described in Remington's Pharmaceutical Sciences 16 th edition, Osol, A. Ed. [1980].
- Suitable carriers, excipients or stabilizers known to the skilled man are saline, Ringer's solution, dextrose solution, Hank's solution, fixed oils, ethyl oleate, 5% dextrose in saline, substances that enhance isotonicity and chemical stability, buffers and preservatives.
- Other suitable carriers include any carrier that does not itself induce the production of antibodies harmful to the individual receiving the composition such as proteins, polysaccharides, polylactic acids, polyglycolic acids, polymeric amino acids and amino acid copolymers.
- composition may also be a combination formulation, comprising an additional active agent, such as an anti-cancer agent or an anti-angiogenic agent.
- an additional active agent such as an anti-cancer agent or an anti-angiogenic agent.
- the formulations to be used for in vivo administration must be aseptic or sterile. This is readily accomplished by filtration through sterile filtration membranes.
- the pharmaceutical composition may be administered by any suitable method within the knowledge of the skilled man.
- the preferred route of administration is parenterally.
- the medicament of this invention will be formulated in a unit dosage injectable form such as a solution, suspension or emulsion, in association with the pharmaceutically acceptable excipients as defined above.
- the dosage and mode of administration will depend on the individual to be treated and the particular disease.
- the pharmaceutical composition is administered so that the binding protein of the present invention is given at a dose between 1 ⁇ g/kg and 20 mg/kg, more preferably between 10 ⁇ g/kg and 5 mg/kg, most preferably between 0.1 and 2 mg/kg. Preferably, it is given as a bolus dose.
- Continuous infusion may also be used and includes continuous subcutaneous delivery via an osmotic minipump. If so, the pharmaceutical composition may be infused at a dose between 5 and 20 ⁇ g/kg/minute, more preferably between 7 and 15 ⁇ g/kg/minute. Further, any of the above mentioned pharmaceutical composition is considered for the treatment of a disorder.
- the invention further provides methods of treatment.
- the method comprises
- binding protein according to the invention may be obtained and/or further evolved by several methods such as display on the surface of bacteriophages (WO 1990/002809, WO 2007/006665) or bacterial cells (WO 1993/010214), ribosomal display
- a library of ankyrin repeat proteins used for the selection/screening of a binding protein according to the invention may be obtained according to protocols known to the person skilled in the art (WO 2002/020565, Binz, H.K., et al., J. Mol. Biol., 332, 489-503, 2003, and Binz et al., 2004, loc. cit).
- the use of such a library for the selection xSA specific DARPins is given in Example 1.
- the ankyrin repeat sequence motifs as presented above can be used to build libraries of ankyrin repeat proteins that may be used for the selection or screening of xSA specific DARPins.
- repeat domains of the present invention may be modularly assembled from repeat modules according to the current invention and appropriate capping modules or capping repeats (Forrer, P., et al., FEBS letters 539, 2-6, 2003) using standard recombinant DNA technologies (e.g. WO 2002/020565, Binz et al., 2003, loc. cit. and Binz et al., 2004, loc. cit).
- N2C and N3C describes the number of randomized repeat modules present between the N-terminal and C-terminal capping modules.
- the nomenclature used to define the positions inside the repeat units and modules is based on Binz et al. 2004, loc. cit. with the modification that borders of the ankyrin repeat modules and ankyrin repeat units are shifted by one amino acid position. For example, position 1 of an ankyrin repeat module of Binz et al. 2004 (loc.
- Example 1 Selection of binding proteins comprising a repeat domain with binding specificity for xSA Using ribosome display (Hanes, J.
- ankyrin repeat proteins with binding specificity for xSA were selected from the N2C or N3C DARPin libraries described by Binz et al. 2004 (loc. cit.).
- the repeat domains of SEQ ID NO: 17 to 31 constitute amino acid sequences of selected binding proteins comprising a repeat domain with binding specificity for xSA. Sequence analysis of selected binders revealed specific ankyrin repeat sequence motifs inherent to certain selected families of binders. Such ankyrin repeat sequence motifs present in repeat domains with binding specificity for xSA are provided in SEQ ID NO: 1 1 to 14.
- serum albumin specific ankyrin repeat proteins was performed by ribosome display (Hanes and Pluckthun, loc. cit.) using HSA, CSA or MSA as target proteins, the library of designed ankyrin repeat proteins as described (WO 2002/020565, Binz et al., 2003, loc. cit. and Binz et al., 2004, loc. cit) and established protocols (Zahnd, C, Amstutz, P. and Pluckthun, A., Nat. Methods 4, 69-79, 2007).
- Selected clones bind specifically to serum albumin as shown by crude extract ELISA
- Individual selected DARPins specifically binding xSA were identified by an enzyme-linked immunosorbent assay (ELISA) using crude Escherichia coli extracts of DARPin expression cells using standard protocols.
- ELISA enzyme-linked immunosorbent assay
- ribosome display selected clones were cloned into the pQE30 (Qiagen) expression vector, transformed into E. co// ' XL1-Blue (Stratagene) and then grown overnight at 37°C in a 96-deep-well plate (each clone in a single well) containing 1 ml growth medium (2YT containing 1 % glucose and 100 ⁇ g/ml ampicillin).
- the selected clones showing specific xSA binding in the crude cell extract ELISA as described above were expressed in E. coli BL21 or XL1-Blue cells and purified using their His-tag using standard protocols. 25 ml of stationary overnight cultures (LB, 1 % glucose, 100 mg/l of ampicillin; 37°C) were used to inoculate 1 I cultures (same medium). At an absorbance of 0.7 at 600 nm, the cultures were induced with 0.5 mM IPTG and incubated at 37°C for 4 h.
- the cultures were centrifuged and the resulting pellets were resuspended in 40 ml of TBS500 (50 mM Tris-HCI, 500 mM NaCI, pH 8) and sonicated.
- the lysate was recentrifuged, and glycerol (10% (v/v) final concentration) and imidazole (20 mM final concentration) were added to the resulting supernatant. Proteins were purified over a Ni-nitrilotriacetic acid column (2.5 ml column volume) according to the manufacturer's instructions (QIAgen, Germany).
- DARPins or selected repeat domains devoid of a 6xHis-tag were purified by anion exchange chromatography followed by size exclusion chromatography according to standard resins and protocols known to the person skilled in the art.
- Up to 200 mg of highly soluble DARPins with binding specificity to serum albumin can be purified from one liter of E. coli culture with a purity > 95% as estimated from SDS-15% PAGE.
- Such purified DARPins are used for further characterizations.
- DARPins #19 to 22 and DARPins #27 to 30 with binding specificity for xSA were purified to near homogeneity using their His-tag as described above and stored in PBS for 28 days at 30 mg/ml ( ⁇ 2 mM) at 40°C (stability study).
- samples were taken, diluted to 500 ⁇ and analyzed by size exclusion chromatography (SEC) to assess their apparent molecular weight and stability (i.e. their aggregation, multimerization or degradation tendency) over time.
- SEC size exclusion chromatography
- DARPins #19 and 43 to 48 with binding specificity for xSA were purified to near homogeneity using their His-tag as described above and stored in PBS for 28 days at around 100 mg/ml at -80°C, diluted to 500 ⁇ and analyzed by size exclusion chromatography (SEC) for characterization (i.e. their aggregation,
- Analytical SEC was carried out using a HPLC system (Agilent 1200 series) using either a Superdex 200 5/150 column (Fig 1 a and Fig. 1 b) or Superdex 200 10/300GL column (Fig 1 c) (GE Healthcare) at 20°C.
- the Superdex 200 5/150 column has a bed volume of
- the Superdex 200 10/300GL column has a bed volume of 24 ml, and a void volume of about 8 ml.
- the measurements were performed according to standard procedures known to the person skilled in the art. Runs were done at a flow rate of 0.2 ml/min and a maximum pressure of 15 bar (Superdex 200 5/150) or 0.6 ml/min and a maximum pressure of 18 bar (Superdex 200 10/300GL) in PBS. Samples of proteins were diluted in PBS to about 20- 500 ⁇ , filtered (0.22 ⁇ ), and 20-100 ⁇ of the diluted samples were injected on the column for separation.
- Elution profiles of protein samples were recorded by reading the absorbance at 280 nm.
- Aprotinin (AP) with a molecular weight of 6.5 kDa, Carbonic Anhydrase (CA) with a molecular weight of 29 kDa and Conalbumin (CO) with a molecular weight of 75 kDa were used as standard proteins to obtain a calibration curve from which the apparent molecular weights of the sample proteins can be determined.
- DARPins #19-22 and 27-30 show indistinguishable SEC chromatograms (i.e. indistinguishable elution profiles) at day 0 and day 28 of the stability study. Conclusively, all DARPins elute as monomer under the assay conditions and DARPins #19-23 and 27-30 are stable for at least 1 month at 40°C in PBS (i.e. their elution profiles did not reveal any aggregation, multimerization or degradation tendency).
- Example 3 Thermal stability of DARPins with binding specificity ofxSA
- DARPins Fluorescence-based thermal stability assay Thermal denaturation of DARPins using SYPRO orange as a fluorescence dye was measured using a real time PCR instrument (i.e. the C1000 thermal cycler (BioRad) in combination with a CFX96 optical system (BioRad)).
- DARPins were prepared at 80 ⁇ concentration in either PBS at pH 7.4 or MES buffer at pH 5.8 containing 1x SYPRO Orange (diluted from a 5'000x SYPRO Orange stock solution, Invitrogen) and 50 ⁇ of such protein solutions or buffer only was added in a white 96-well PCR plate (Bio-Rad).
- the plates were sealed with Microseal 'B' Adhesive Seals (Bio-Rad) and heated in the real time PCR instrument from 20°C to 95°C in increments of 0.5°C including a 25 sec hold step after each temperature increment, and the thermal denaturation of the DARPins was followed by measurement of the relative fluorescence units of the samples at each temperature increment.
- Relative fluorescence units in the wells of the plate were measured using channel 2 of the real time PCR instruments (i.e. excitation was at 515- 535 nm and detection was at 560-580 nm), and the corresponding values obtained for buffer only were subtracted. From the thereby obtained thermal denaturation transition midpoints, Tm values for the analyzed DARPins can be determined.
- DARPins with binding specificity for xSA were immobilized in a flow cell via their His-tag to coated a-RGS-His antibody (Qiagen, cat. no. 34650), and the interaction of human, cynomolgus monkey (cyno), mouse, rat, rabbit and dog serum albumin with the
- SPR was measured using a ProteOn instrument (BioRad) and measurement was performed according standard procedures known to the person skilled in the art.
- the running buffer was PBS, pH 7.4, containing 0.01 % Tween 20®.
- the signals i.e. resonance unit (RU) values
- RU reference injection of running buffer only
- Dissociation constants were calculated from the estimated on- and off-rates using standard procedures known to the person skilled in the art and found to be in the range from about 3 to about 300 nM. While human and cynomolgus monkey serum albumin are bound by all DARPins analyzed, rabbit, mouse, rat and dog serum albumin is only bound by a subset of these DARPins.
- Table 2 Dissociation constants of DARPin serum albumin interactions
- the terminal plasma half-life of DARPins in mice and cynomolgus monkeys was determined according to standard procedures known to the person skilled in the art (Toutain, et al., loc. cit.).
- a certain amount of DARPin was intravenously injected into a mammal and the DARPin clearance from the blood plasma was followed over time by following its plasma concentration.
- the DARPin concentration initially decreases until a pseudo-equilibrium is reached (alpha- phase) followed by an exponential further decrease of the DARPin concentration in the plasma (beta-phase). From this beta-phase the DARPin terminal plasma half-life can then be calculated.
- DARPins were radiolabeled with a 99m Tc-carbonyl complex as described previously (Waibel, R., et al., Nature Biotechnol. 77(9;, 897-901 , 1999).
- DARPins (40 ⁇ ) were incubated with Tc-carbonyl (0.8-1.6 m Ci) for 1 h before being diluted to 400 ⁇ in PBS (pH 7.4).
- Each mouse was injected intravenously with 100 ⁇ of the thereby obtained labeled DARPin solution (equivalent to 10 protein and 0.2 - 0.4 m Ci). Blood samples of the mice were collected at 1 h, 4 h, 24 h, and 48 h after the initial injection and the radioactivity of the samples was measured.
- the level of radioactivity measured at a certain time point is a direct measure for the amount of DARPin still present in the blood plasma at that time point.
- the % injected dose is the percentage of the total radioactivity of the whole blood of the mouse (1.6 ml for a 18 g mouse) measured at a certain time point in relation to the total radioactivity of the injected sample corrected for the radioactive decay of 99m Tc.
- DARPin#44, DARPin#45, DARPin#46, DARPin#47 and DARPin#48 had a terminal plasma half-life in mice of about 2 - 2.5 days.
- DARPin diluted in PBS were injected as a bolus injection in the cephalic vein of cynomolgus monkeys.
- the following DARPins were injected: DARPin #26 (0,5 mg/kg), DARPin #24 (0.5 mg/kg), DARPin #17 (0.5 mg/kg), DARPin #34 (1 mg/kg), and DARPin #32 (0.5 mg/kg).
- plasma was generated from the blood collected from the femoral vein of the animals.
- concentration of the DARPins in the plasma samples was then determined by a sandwich ELISA using standard protocols known to the person skilled in the art and an appropriate DARPin standard curve with known DARPin concentrations.
- Plasma samples of cynomolgus monkeys were serially diluted in PBS-C (PBS containing 0.25% casein, pH 7.4) on MaxiSorp ELISA plates that were coated with an anti-DARPin specific rabbit monoclonal antibody. After extensive washing with PBS-T (PBS
- the plasma terminal half-life of the DARPins was calculated by performing nonlinear regressions (two-phase decay) on the determined concentration values up to 240 h after injection.
- the half-life of the second (beta) phase corresponds to the terminal plasma half-life.
- DARPin with binding specificity for xSA have an increased terminal plasma half-life in cynomolgus monkey if compared to the DARPin #32 having no binding specificity for xSA ( Figure 5, Table 3).
- DARPin#19, DARPin#21 , DARPin #43, DARPin#44, DARPin#45, DARPin#46, DARPin#47 and DARPin#48 had a terminal plasma half-life in cynomolgus monkey of about 10 to 15 days.
- Example 6 Higher thermal stability of DARPins with improved C-terminal capping modules
- Thermal stability of DARPins was analyzed with a fluorescence-based thermal stability assay as described in Example 3.
- the thermal stability of a DARPin was analyzed by CD spectrometry; i.e. by measurement of its heat denaturation by following its circular dichroism (CD) signal at 222 nm by techniques well known to the person skilled in the art.
- CD circular dichroism
- the CD signal of the sample was recorded at 222 nm in a Jasco J-715 instrument (Jasco, Japan) while slowly heating the protein at a concentration of 0.02 mM in PBS pH 7.4 from 20°C to 95°C using a temperature ramp of 1 °C per min.
- the thermal stability of DARPin #39 (SEQ ID NO:39 with a His-tag (SEQ ID NO:15) fused to its N-terminus) was compared to the thermal stability of DARPin #40 (SEQ ID NO:40 with a His-tag (SEQ ID NO: 15) fused to its N-terminus) using the fluorescence-based thermal stability assay.
- These two DARPins posses an identical amino acid sequence except for the C-terminal capping module of their repeat domains.
- the repeat domain of DARPin #40, but not DARPin #39, comprises an improved C-capping module as described herein.
- the Tm values in MES buffer pH 5.8 determined for DARPin #39 and DARPin #40 were about 51 °C and about 55°C, respectively.
- the thermal stability of DARPin #41 (SEQ ID NO:41) was compared to the thermal stability of DARPin #42 (SEQ ID NO:42) using CD spectroscopy. These two DARPins posses an identical amino acid sequence except for the C-terminal capping module of their repeat domains.
- the repeat domain of DARPin #42, but not DARPin #41 comprises an improved C-capping module as described herein.
- the Tm values in PBS pH 7.4 determined for DARPin #41 and DARPin #42 were about 59.5°C and about 73°C, respectively.
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