WO2003050542A2 - Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assaykit - Google Patents

Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assaykit Download PDF

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Publication number
WO2003050542A2
WO2003050542A2 PCT/NL2002/000815 NL0200815W WO03050542A2 WO 2003050542 A2 WO2003050542 A2 WO 2003050542A2 NL 0200815 W NL0200815 W NL 0200815W WO 03050542 A2 WO03050542 A2 WO 03050542A2
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Prior art keywords
cit
peptide
amino acid
peptides
xnong
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PCT/NL2002/000815
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French (fr)
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WO2003050542A3 (en
Inventor
Waltherus Jacobus Wilhelmus Van Venrooij
Jan Wouter Drijfhout
Martinus Adrianus Maria Van Boekel
Gerardus Jozef Maria Pruijn
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Stichting Voor De Technische Wetenschappen
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Priority to AU2002354397A priority Critical patent/AU2002354397B2/en
Priority to EP02786237A priority patent/EP1456662B1/en
Priority to SI200230389T priority patent/SI1456662T1/en
Priority to JP2003551544A priority patent/JP4098718B2/en
Priority to US10/497,667 priority patent/US7888133B2/en
Priority to CA2489167A priority patent/CA2489167C/en
Priority to DE60212186T priority patent/DE60212186T2/en
Priority to BRPI0214872A priority patent/BRPI0214872B8/en
Application filed by Stichting Voor De Technische Wetenschappen filed Critical Stichting Voor De Technische Wetenschappen
Publication of WO2003050542A2 publication Critical patent/WO2003050542A2/en
Publication of WO2003050542A3 publication Critical patent/WO2003050542A3/en
Priority to HK05102287A priority patent/HK1072805A1/en
Priority to CY20061101278T priority patent/CY1105537T1/en
Priority to AU2006230702A priority patent/AU2006230702A1/en
Priority to AU2010200648A priority patent/AU2010200648B2/en
Priority to US13/012,739 priority patent/US8481332B2/en
Priority to US13/920,017 priority patent/US8759114B2/en
Priority to US14/286,878 priority patent/US9689871B2/en
Priority to US15/610,398 priority patent/US10119966B2/en
Priority to US16/178,848 priority patent/US20190056393A1/en

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/48Biological material, e.g. blood, urine; Haemocytometers
    • G01N33/50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
    • G01N33/53Immunoassay; Biospecific binding assay; Materials therefor
    • G01N33/564Immunoassay; Biospecific binding assay; Materials therefor for pre-existing immune complex or autoimmune disease, i.e. systemic lupus erythematosus, rheumatoid arthritis, multiple sclerosis, rheumatoid factors or complement components C1-C9
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K14/00Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
    • C07K14/435Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
    • C07K14/46Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
    • C07K14/47Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
    • C07K14/4701Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals not used
    • C07K14/4713Autoimmune diseases, e.g. Insulin-dependent diabetes mellitus, multiple sclerosis, rheumathoid arthritis, systemic lupus erythematosus; Autoantigens
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K7/00Peptides having 5 to 20 amino acids in a fully defined sequence; Derivatives thereof
    • C07K7/04Linear peptides containing only normal peptide links
    • C07K7/08Linear peptides containing only normal peptide links having 12 to 20 amino acids
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K7/00Peptides having 5 to 20 amino acids in a fully defined sequence; Derivatives thereof
    • C07K7/50Cyclic peptides containing at least one abnormal peptide link
    • C07K7/52Cyclic peptides containing at least one abnormal peptide link with only normal peptide links in the ring
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K7/00Peptides having 5 to 20 amino acids in a fully defined sequence; Derivatives thereof
    • C07K7/64Cyclic peptides containing only normal peptide links
    • CCHEMISTRY; METALLURGY
    • C40COMBINATORIAL TECHNOLOGY
    • C40BCOMBINATORIAL CHEMISTRY; LIBRARIES, e.g. CHEMICAL LIBRARIES
    • C40B30/00Methods of screening libraries
    • C40B30/04Methods of screening libraries by measuring the ability to specifically bind a target molecule, e.g. antibody-antigen binding, receptor-ligand binding
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/48Biological material, e.g. blood, urine; Haemocytometers
    • G01N33/50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
    • G01N33/68Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving proteins, peptides or amino acids
    • G01N33/6878Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving proteins, peptides or amino acids in eptitope analysis
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N2410/00Assays, e.g. immunoassays or enzyme assays, involving peptides of less than 20 animo acids
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N2800/00Detection or diagnosis of diseases
    • G01N2800/10Musculoskeletal or connective tissue disorders
    • G01N2800/101Diffuse connective tissue disease, e.g. Sjögren, Wegener's granulomatosis
    • G01N2800/102Arthritis; Rheumatoid arthritis, i.e. inflammation of peripheral joints
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S435/00Chemistry: molecular biology and microbiology
    • Y10S435/973Simultaneous determination of more than one analyte
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S435/00Chemistry: molecular biology and microbiology
    • Y10S435/975Kit
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S530/00Chemistry: natural resins or derivatives; peptides or proteins; lignins or reaction products thereof
    • Y10S530/806Antigenic peptides or proteins

Definitions

  • the present invention relates to a method of detecting autoantibodies from patients suffering from rheumatoid arthritis, using a peptide comprising a citrullin residue or analogue thereof.
  • a method is known from the international patent application PCT/NL97/00624.
  • This publication describes the use of peptides derived from filaggrin, and which comprise citrullin or an analogue thereof for the detection of autoantibodies from patients suffering from rheumatoid arthritis.
  • the peptides used are therefore suitable for diagnostic applications, and compared with up to then, make a more reliable detection possible. More in particular this concerns a decrease in false-positives, i.e. a higher specificity.
  • the sensitivity is relatively high.
  • One peptide, indicated as cfcl was recognized by 36% of the sera from patients suffering from rheumatoid arthritis. The cyclic variant of the peptide appeared to be recognized even better (63%) .
  • a method according to the preamble is also known from the international patent application PCT/FR00/01857.
  • This publication describes the use of peptides derived from fibrin or fibrinogen, and which comprise citrullin or an analogue thereof for the detection of autoantibodies from patients suffering from rheumatoid arthritis.
  • PCT/EP98/07714 describes the use of synthetic peptides derived from (pro) fillagrin for the diagnosis of rheumatoid arthritis.
  • This application also describes synthetic peptides derived from human vimentin, cytokeratin 1, cytokeratin 9 and other intermediary filament proteins.
  • the above-mentioned methods still only detect a limited number of all the patients suffering from rheumatoid arthritis. Therefore there is a strong need for a method by which an increased sensitivity can be achieved wile maintaining a substantially equal or even improved specificity.
  • the present invention provides a method as mentioned in the preamble, which method is characterized in that said autoantibodies are contacted with a peptide unit comprising the motif XG, and a peptide unit comprising the motif XnonG, wherein X is a citrullin residue or an analogue thereof, G is the amino acid glycine and nonG is an amino acid other than glycine.
  • X is a citrullin residue or an analogue thereof
  • G is the amino acid glycine
  • nonG is an amino acid other than glycine.
  • the population can in part be detected with the pre- published XG peptide units and for a still larger part when using the peptide units according to the present invention.
  • the other population of antibodies reacts with XnonG peptide units.
  • this population of antibodies has not yet been observed as such in the pre-published literature.
  • the majority of sera from patients suffering from rheumatoid arthritis comprise both populations of antibodies. Consequently these sera can be detected by means of a diagnostic test comprising an XG or an XnonG peptide unit. It appears however, that a significant part of the sera from patients suffering from rheumatoid arthritis comprises only one of the two populations.
  • an improved diagnostic method according to the present invention therefore comprises at least one XG and one XnonG peptide.
  • the diagnostic test according to the invention may be 20% more sensitive than a test according to the published literature.
  • the peptide unit with the XnonG motif comprised a part not derived from natural proteins such as human (pro) fillaggrin, fibrin, or fibrinogen as well as the related proteins vimentin, and cytokeratin 1 and cytokeratin 9 or other re- lated intermediary filament proteins.
  • PCT/EP98/07714 describes a filaggrin-derived XnonG peptide (IPG1249) . It is cross-reactive with 3.3% of the sera from SLE patients and has a homology of 82% with filaggrine.
  • the peptide unit with the XnonG motif comprises a tripeptide, in which the central amino acid is citrullin or an analogue thereof, and that a selection is preferably made from XXK, XXY, KXI, MXR, RXY, WXK, MXH, VXK, NXR, XS, RXW,YXM, IXX, XXF, RXH, TXV, PXH, AXF, FXR, YXF, LXM, LXY, YXP, HXS and PX .
  • nonG is an amino acid selected from H, I, , S, R, K, Y, M, F, V, P, Cit or an analogue thereof. As shown in the experiments below, such XnonG peptide units are very effective.
  • the peptide unit comprising the XG motif may or may not be derived from (pro) filaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 or cytokeratin 9, and effectively the cfcl known from PCT/NL97/00624.
  • amino acid includes both natural and non-natural amino acids, as well as amino acids having a D-configuration or L-configuration.
  • a non-natural amino acid is understood to be an amino acid of the kind occurring in an retro-inverso peptide, retro-peptide, a peptide wherein the side chain is located on the amide nitrogen atom of the pep- tide skelet, and a peptide wherein a CO of the peptide skelet is replaced by .2, 3 or preferably a single -CH 2 - group (pseudo-peptide) .
  • Amino acids may also be modified.
  • carboxylic acid groups may be esterified or may be converted to an amide, and an aminogroup may be alkylated, for example methylated.
  • functional groups on the peptide may be provided with a protective group or a label (for example a fluorescent or radioactive label) .
  • Aminogroups and carboxylic acid groups in the peptides may be present in the form of a salt formed by using an acid or a base. If synthetic peptides are used, it is very simple to make all kinds of variants falling within the scope of the invention that can be used.
  • aromatic side groups such as from fenylalanine and tyrosine may be halogenated with one or more halogen atoms.
  • Peptidomimetic and organomimetic embodiments also fall within the scope of the invention and their application in the method according to the invention.
  • an analogue thereof such as those represented in Fig. 1 in the form of the amino acid.
  • Such analogues and their preparation are known to the person skilled in the art. For example, Sonke et al., in Stereoselective Biocatalysis (2000), pp. 23-58, and Greene: Protective groups in Organic synthesis (Wiley, New York 1999.
  • the side chains of the citrullin analogues have the formula (I) :
  • a peptide unit is understood to be a peptide that is at least 7 amino acids long.
  • Peptide units may have one or more side chains.
  • peptide units or terminal ends of the peptide unit may be acetylated, glycosyl- ated, alkylated, or phosphorylated independently of each other.
  • a peptide unit in this context is indicated as not derived from (pro) filaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 or cytokeratin 9 and other intermediary filament proteins if the homology (the similarity of the amino acid sequence) to these proteins is less than 80%, more preferably less than 75% such as less than 70% or 65%, and most preferably less than 60%, such as less than 55% or 50%.
  • the peptide units shown in Table 5, which are not derived from (pro) filaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 and cytokeratine 9, have a homology between 15 and 45%. On examination of the homology arginine, citrullin and analogues of citrullin are considered to be equivalent (identical) .
  • the peptide units comprising XG and XnonG may or may not part of the same molecule. This will be entered into later on.
  • the peptide units may be bound to a carrier and optionally provided with a label.
  • the complex may be detected in any manner well-known to the ordinary person skilled in the art.
  • the complex may be detected indirectly, for example in the case of a competition assay, in which the complex itself is not labelled.
  • the reaction with the two peptide units may take place simultaneously or successively and in the same container (such as a well of a microtitre plate) or in different containers.
  • the peptide units are recognized by at least 2 of 100 random sera from recognized RA patients. Obviously it is preferred to use peptide units that are recognized by a considerably higher percentage, preferably at least 30%.
  • the number of peptide units in a method according to the invention is preferably 2 or greater than 2.
  • the invention relates to a method as mentioned above, wherein the peptide unit with the XG motif and peptide unit with the XnonG motif are recognized together by at least 10% of the series of sera from patients.
  • the peptide unit with the XG motif and peptide unit with the XnonG motif are recognized together by at least 10% of the series of sera from patients.
  • combinations of peptide units resulting in higher sensitivities are preferred.
  • diagnostic tests can be carried out with sensitivities of 40, 60, 70, 80 or even 85 and more than 90%. It has been shown that the sensitivity of the detection can be further increased if at least one of the peptide units is a cyclic peptide unit.
  • the peptide unit with XG motif and the peptide unit with XnonG motif are preferably part of a multipeptide.
  • a multipeptide is a' molecule comprised of at least two antigenic peptide units, i.e. combinations of peptide units that may or may not be linked by a covalent bond.
  • Such multipeptides may be comprised of linear, branched, cyclic peptide units or a combi- nation of these.
  • Multipeptides may be comprised both of peptide units having the same amino acid sequence, and of peptide units having different amino acid sequences.
  • a multipeptide according to the invention comprises at least 7, preferably at least 10 amino acids, i.e. the peptide units may overlap. It goes without saying that the XG and XnonG motif can not overlap.
  • the invention also relates to a XnonG peptide unit, very useful for the method according to the present inven- tion, comprising a sequence with the formula (II) :
  • - A1-A2-A3-A4-A5 is an amino acid sequence selected from - RHGRQ
  • the invention also relates to a XnonG peptide unit, very useful for the method according to the present inven- tion, comprising a sequence with the formula (III) :
  • B1-B2-B3-B4-B5-B6 is an amino acid sequence selected from INCitRAS - . ICitKRLY
  • B7 is an amino acid other than glycine
  • B8-B9-B10-B11 an amino acid sequence selected from - CitHRR
  • homologous sequence as used in connection with A1-A2-A3-A4-A5, A7-A8-A9-A10-A11, B1-B2-B3-B4-B5-B6 and B8-B9-B10-B11, means that at most two amino acids of each amino acid sequence may be replaced by as many other amino acids (including citrullin and/or an analogue thereof) , at most two amino acids (including or an analogue thereof) may be introduced and at most two amino acids may be absent.
  • - one or more side chains (other than that of citrullin or an analogue thereof) or terminal ends of the peptide may be acetylated, glycosylated, alkylated, or phosphorylated independently of each other, and - one or more amino acids may be replaced by non-natural amino acids.
  • A6 and B7 are preferably selected from Cit, H, I, K, R, S, W, Y, M, F, V and P.
  • Specific preferred peptides to be used in the method according to the invention are characterized in that they comprise at least one peptide sequence selected from R H G R Q Cit Cit K Y I I Y I R Cit Y K Cit I T N R K F R H G R Q Cit Cit Cit Y I I Y A R F Q M Cit H Cit R L I R Q Cit Y K W Cit K I E R K R K P Y T V Cit K F M R K P K P Y T V Cit K F M R R P R N L R L Cit R E R N H A R R R R Cit Y Cit R A V I T A
  • Suitable XG peptides to be used in the method according to the invention preferably comprise the sequence with the formula (IV)
  • C1-C2 is HQ, GF, EG or GV;
  • C3-C4-C5 represents 3 amino acids of which at least 1, and preferably 2 independently of each other are basic, aromatic or V;
  • C6 is equal to a basic or aromatic amino acid, or equal to A, G, E, P, V, S or Cit or analogue thereof;
  • C7-C8-C9-C10 is SRAA, SCitAA, RPLD, RVVE or PGLD; as well as analogues of the peptide with the formula (IV) .
  • 'analogue' as used in connection with the peptide of the formula (IV) means that optionally - one or more amino acids may have the D-configuration, one or more side chains (other than that of citrullin or an analogue thereof) or terminal ends of the peptide independently of each other may be acetylated, glycosylated, alkyl- ated, or phosphorylated; and one or more amino acids may be replaced by non-natural amino acids .
  • XG peptides suitable to be used in the method according to the invention comprise a sequence selected from H Q R K W Cit G A S R A A
  • the peptides according to the invention are preferably cyclic peptides of which the ring comprises at least 10 amino acids, and more preferably at least 11 amino acids.
  • the person skilled in the art is acquainted with various methods for the preparation of cyclic peptides and a further explanation is not required.
  • an XG peptide is used in combination with at least one XnonG peptide, wherein the XG peptide is selected from the group comprised of:
  • XnonG peptide is chosen from the group comprised of:
  • XG and XnonG peptide units are selected from the group comprised of:
  • 0002-31 and 0107-45 0002-31 and 0113-30 0002-31 and 0218-36 0002-32 and 0107-32 0002-32 and 0107-35 0002-32 and 0107-45
  • 0002-36 and 0218-36 0002-37 and 0107-32 0002-37 and 0107-35 0002-37 and 0107-45 0002-37 and 0113-30; 0002-37 and 0218-36; 0002-63 and 0107-32 0002-63 and 0107-35; 0002-63 and 0107-45; 0002-63 and 0113-30 0002-63 and 0218-36.
  • the invention also relates to a multipeptide, characterized in that it is a linear or branched multipeptide, comprising at least two linear or cyclic peptide sequences selected independently of each other from a peptide unit selected from peptide units with the formula (II) and (III) and analogues thereof; a peptide unit with the formula (IV) and analogues thereof.
  • a multipeptide is very suitable for use in the method according to the invention. It makes it possible to carry out the method more simply and more reliably since peptides are used in the same known ratio, and extra operations during the assay or during the preliminary work (e.g. coating a microtitre plate with multipeptide) is avoided.
  • the invention further relates to a diagnostic kit for determining the presence of autoantibodies from patients suffering from rheumatoid arthritis, wherein the diagnostic kit comprises a peptide according to one of the claims 5 to 13, or a multipeptide according to claim 14, or a mixture thereof, together with at least one further reagent.
  • the invention also relates to a peptide or an antibody of an immunotoxin molecule as described above, or a composition thereof for use as a pharmaceutical composition.
  • the present invention further relates to a peptide or an antibody of an immunotoxin molecule as described above or a composition thereof for preparing a pharmaceutical composition or a diagnostic agent for rheumatoid arthritis.
  • the present invention also relates to the application of a peptide or a composition thereof as described above for preparing a pharmaceutical composition for the treatment of autoimmune diseases by increasing the size of antigen immune complexes, which improves the clarification of the im- mune complexes formed.
  • the present invention therefore also relates to a method for the treatment of rheumatoid arthritis by introducing into the body of a patient requiring such treatment, at least one peptide according to the invention.
  • the invention further relates to a method for the selection of a peptide suitable for the diagnosis of RA, wherein a peptide library is screened with antibodies obtained from patients with RA and wherein the " peptide library is selected from a group comprised of:
  • X any amino acid except cysteine and tryptophane
  • X any amino acid except cysteine but including Cit- rulline
  • X any amino acid except cysteine but including Cit- rulline
  • the invention relates to a peptide that can be obtained with the aid of the afore-mentioned method to be used in a diagnostic assay.
  • a pharmaceutical composition for the treatment or "a drug for the treatment” or “the use of proteins for the preparation of a drug for the treatment” relate to a composition comprising a peptide as described above or an antibody binding specifically to the peptide and a pharmaceutically acceptable carrier or excipient (the two terms are interchangeable) for the treatment of diseases as described above.
  • Suitable carriers or excipients with which the ordinary person skilled in the art is familiar are saline, Ringer's solution, dextrose solution, Hank's solution, oils, ethyloleate, 5% dextrose in saline, substances improving iso- tonicity and chemical stability, buffers and preservatives.
  • suitable carriers include any carrier that does not itself induce the production of antibodies harmful to the individual receiving the composition, such as proteins, polysac- charides, polylactic acids, polyglycol acids, polymeric amino acids and amino acid polymers.
  • the "drug” may be administered in any manner known to the ordinary person skilled in the art.
  • the peptides according to the invention may be labelled (radioactive, fluorescent or otherwise, as well known in the art) or may be provided with a carrier. In this form also such peptides fall within the scope of the invention.
  • a peptide may be coupled to a carrier protein, such as Keyhole Limpet Haemocyanin or bovine serum albumin.
  • the peptide according to the invention may be non- covalently or covalently coupled to a solid carrier, such as a microsphere (gold, polystyrene etc.), slides, chips, or a wall of a reactor vessel or of a well of a microtitre plate.
  • the peptide may be labelled with a direct or an indirect label. Examples include biotin, fluorescein and an enzyme, such as horseradish peroxidase. All this is generally known to the ordinary person skilled in the art and requires no further explanation. EXAMPLES
  • Citrullinated peptides were synthesised as described by De Koster H.S. et al. (J. Immunol. Methods, 187, pp. 177- 188, (1995) ) . Beads were used to which the peptide molecules were attached via an amide bond so that after the removal of protective groups, peptide molecules were still attached to the bead. For the synthesis of peptides an automated multiple peptide synthesiser was used (Abi ed AMS422, Abimed, Langen- feld, Germany) .
  • the incorporated amino acids and the peptide linker 6-aminohexane acid were protected by a Fmoc-group, and to facilitate coupling, the protected amino acids were activated with PyBOP and N-methylmorpholine. Where necessary, the side chains were protected with groups protecting acid- sensitive side chains.
  • the beads used had a diameter of approximately 100 ⁇ m and comprised approximately 100 pmol peptide each. It is estimated that approximately 0.5% of this amount is bound to the outside and is in principle accessible to antibodies. For the synthesis in larger quantities, beads were used that were provided with an acid-sensitive linker. The chemistry of peptide synthesis was largely comparable with the one already described above.
  • the peptides were split off with trifluoroacetic acid and isolated by means of ether pre- cipitation, all in accordance with methods well-known in the art and for which the ordinary person skilled in the art requires no further explanation. It is of course also possible to acquire peptides with a desired sequence commercially. The purity and identity of the individual peptides were checked by means of analytical RP-HPLC and time-of-flight mass spec- trometry (MALDI-TOF) .
  • MALDI-TOF time-of-flight mass spec- trometry
  • X any amino acid except cysteine and tryptophane Lib (2) : H Q X X X Cit G X S R/Cit A A
  • X any amino acid except cysteine but including Cit- rulline
  • X any amino acid except cysteine but including Cit- rulline
  • X any amino acid except cysteine but including Cit- rulline.
  • Example 2 Reaction of the bead-coupled peptides with sera from patients suffering from rheumatoid arthritis (RA)
  • IgG was isolated from serum from patients clinically diagnosed to be suffering from RA.
  • the beads were incubated with a solution comprising i) total serum from the patient, or ii) IgG from a patient conjugated to a reporter enzyme (alkaline phosphatase labelling kit; Roche/Boehringer, Mannheim, Germany) .
  • a reporter enzyme alkaline phosphatase labelling kit; Roche/Boehringer, Mannheim, Germany
  • serum i
  • a second incubation was carried out with an alkaline phosphatase conjugated anti-human IgG antibody (Dako D0336; Dako Im- munoglobulins, Glostrup, Denmark) .
  • Tris-HCl buffer pH 8.9 50 mM Tris pH 8.9, 150 mM NaCl, 0.5% Tween® 20).
  • the beads with peptides that had bound the most human IgG (after dying with a substrate of alkaline phosphatase that is converted into an insoluble coloured product, these become the most intensely coloured beads) were selected with the aid of a microscope.
  • An XG peptide unit being preferably recognized by RA sera may therefore be represented by: -3 -2 -1 0 +1 +2
  • peptides described below were cyclisized in ac- cordance with the cysteine-bromoacetic acid method.
  • Several cyclic variants were tested, with in particular the cyclic variants of peptides 0002-27, 0002-29, 0002-31, 0002-36, and 0002-63 proving to be of interest.
  • Ring size a number of adequately reacting peptides were used to synthesise additional cyclic peptides that each had a different ring size. Of these the 8, 9, 10, 11 and 12- mers were eventually tested. All these peptides were tested in ELISA with 48 RA sera and 8 normal sera respectively. The 8- and 9-mers reacted with some of the sera (with 22% (titre 0,47) and 28% (titre 0,5), respectively, but the titres (the OD-values found) were much lower than when larger rings were used (10-mer 33% with a titre van 0.60; 11- and 12-mer 50% with an average titre of 0.74. Table 2: Results from serum- analyses using cyclic peptide 0002-36.
  • the above table represents ELISAs with sera obtained from patients suffering from RA and from patients suffering from various other autoimmune diseases. This shows the high specificity of RA sera for a peptide such as 0002-36. Practically none of the cases showed sera obtained from other autoimmune diseases and material from normal healthy persons to be positive.
  • the arginine variant of peptide 0002-36 (R on position 0 and +2, i.e. instead of Cit in the formula) was also tested and shown to be negative with all tested RA and normal sera.
  • the cyclic variant was shown to react more frequently (and better) than the linear variant. Better, because the OD-values found with the cyclic variant were also much higher than with the linear composition.
  • the cyclic variant was created via -S-S-bonds between two cysteins, or via a thioether formed, for example, by reacting a cysteine and a bromoacetyl group (formed by reacting a thiol in the side chain of a cysteine with an N-terminal bromoacetyl group, forming a thioether), is immaterial.
  • the N-terminal bromoacetyl group is formed, after the synthesis of the peptide, by allowing the bead-bound peptide (peptidyl-resin) to react with the N- hydroxy succinimide ester of bromoacetic acid) in the same peptide.
  • XnonG peptides mentioned all reacted with one or more XG-negative sera For example, peptides 0107-32, 0107- 35, and 0107-45 react with approximately 15-18% of the XG negative sera.
  • a XnonG peptide unit preferably recognized by RA sera may be represented by:
  • peptide 0107-35 in the cyclic form reacts with 18% of the sera that are not reactive with cyclic 0002-36.
  • This sensitivity may be further increased by other peptides.
  • a further 8% may be added by cyclic peptide 0107-32.
  • a similar value was found for the peptide 0107-45.
  • XG- negative sera were shown to react with one or more XnonG peptides. This means that with combinations of more than 2 XG and XnonG peptides, a preferred embodiment of the invention, a sensitivity of above 80% can be achieved.
  • Example 7 Sensitivity and specificity of diagnostic tes ' ts comprising XG and XnonG peptide units

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Abstract

The invention relates to method of detecting autoantibodies from patients suffering from rheumatoid arthritis. To this end, according to the invention, at least two peptide units are used of which at least one peptide unit comprises a part not derived from (pro)fillaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 and cytokeratin 9, and which peptide unit comprises the motif XG, and a peptide unit comprising the motif XnonG, wherein X is a citrullin or an analogue thereof, and nonG is an amino acid other than glycine.

Description

Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assaykit
The present invention relates to a method of detecting autoantibodies from patients suffering from rheumatoid arthritis, using a peptide comprising a citrullin residue or analogue thereof. Such a method is known from the international patent application PCT/NL97/00624. This publication describes the use of peptides derived from filaggrin, and which comprise citrullin or an analogue thereof for the detection of autoantibodies from patients suffering from rheumatoid arthritis. The peptides used are therefore suitable for diagnostic applications, and compared with up to then, make a more reliable detection possible. More in particular this concerns a decrease in false-positives, i.e. a higher specificity. In addition, the sensitivity is relatively high. One peptide, indicated as cfcl, was recognized by 36% of the sera from patients suffering from rheumatoid arthritis. The cyclic variant of the peptide appeared to be recognized even better (63%) .
A method according to the preamble is also known from the international patent application PCT/FR00/01857. This publication describes the use of peptides derived from fibrin or fibrinogen, and which comprise citrullin or an analogue thereof for the detection of autoantibodies from patients suffering from rheumatoid arthritis. PCT/EP98/07714 describes the use of synthetic peptides derived from (pro) fillagrin for the diagnosis of rheumatoid arthritis. This application also describes synthetic peptides derived from human vimentin, cytokeratin 1, cytokeratin 9 and other intermediary filament proteins. However, the above-mentioned methods still only detect a limited number of all the patients suffering from rheumatoid arthritis. Therefore there is a strong need for a method by which an increased sensitivity can be achieved wile maintaining a substantially equal or even improved specificity.
In order to achieve this objective, the present invention provides a method as mentioned in the preamble, which method is characterized in that said autoantibodies are contacted with a peptide unit comprising the motif XG, and a peptide unit comprising the motif XnonG, wherein X is a citrullin residue or an analogue thereof, G is the amino acid glycine and nonG is an amino acid other than glycine. The experiments described below have shown that sera obtained from patients suffering from rheumatoid arthritis contain two different populations of antibodies. The one population is reactive with XG peptide units such as have been described in the above-mentioned pre-published literature. The population can in part be detected with the pre- published XG peptide units and for a still larger part when using the peptide units according to the present invention. The other population of antibodies reacts with XnonG peptide units. Until now, this population of antibodies has not yet been observed as such in the pre-published literature. As described below in more detail, the majority of sera from patients suffering from rheumatoid arthritis comprise both populations of antibodies. Consequently these sera can be detected by means of a diagnostic test comprising an XG or an XnonG peptide unit. It appears however, that a significant part of the sera from patients suffering from rheumatoid arthritis comprises only one of the two populations. Therefore, sera that comprise antibodies to the XnonG peptide unit only are not or only for a very small part detected with the diag- nostic tests as described in the above-mentioned published literature. A large part of these sera can now be detected if the diagnostic test comprises a XnonG peptide unit. An improved diagnostic method according to the present invention therefore comprises at least one XG and one XnonG peptide. Thus the diagnostic test according to the invention may be 20% more sensitive than a test according to the published literature.
Particularly good results were obtained when the peptide unit with the XnonG motif comprised a part not derived from natural proteins such as human (pro) fillaggrin, fibrin, or fibrinogen as well as the related proteins vimentin, and cytokeratin 1 and cytokeratin 9 or other re- lated intermediary filament proteins.
Surprisingly it was shown, that when combining such XnonG peptides not derived from natural proteins with XG peptides according to the invention, a further improved diagnostic method was obtained. More in particular, the use of such a combination of peptide units in the method according to the present invention provides a diagnostic method of a very great sensitivity, while maintaining an excellent specificity. This is all the more surprising, since the above- mentioned published literature is still based on the idea that autoantibodies from patients with RA reacted especially well with peptides derived from naturally-occurring protein such as (pro) filaggrine, fibrine, fibrinogen, vimentine, cytokeratin 1 or cytokeratin 9. PCT/EP98/07714, for example, describes a filaggrin-derived XnonG peptide (IPG1249) . It is cross-reactive with 3.3% of the sera from SLE patients and has a homology of 82% with filaggrine.
Good results are obtained when the peptide unit with the XnonG motif comprises a tripeptide, in which the central amino acid is citrullin or an analogue thereof, and that a selection is preferably made from XXK, XXY, KXI, MXR, RXY, WXK, MXH, VXK, NXR, XS, RXW,YXM, IXX, XXF, RXH, TXV, PXH, AXF, FXR, YXF, LXM, LXY, YXP, HXS and PX .
Preferably nonG is an amino acid selected from H, I, , S, R, K, Y, M, F, V, P, Cit or an analogue thereof. As shown in the experiments below, such XnonG peptide units are very effective.
The peptide unit comprising the XG motif, may or may not be derived from (pro) filaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 or cytokeratin 9, and effectively the cfcl known from PCT/NL97/00624.
In this context the term amino acid includes both natural and non-natural amino acids, as well as amino acids having a D-configuration or L-configuration. In the present application a non-natural amino acid is understood to be an amino acid of the kind occurring in an retro-inverso peptide, retro-peptide, a peptide wherein the side chain is located on the amide nitrogen atom of the pep- tide skelet, and a peptide wherein a CO of the peptide skelet is replaced by .2, 3 or preferably a single -CH2- group (pseudo-peptide) .
Amino acids may also be modified. For example, carboxylic acid groups may be esterified or may be converted to an amide, and an aminogroup may be alkylated, for example methylated. Alternatively, functional groups on the peptide may be provided with a protective group or a label (for example a fluorescent or radioactive label) . Aminogroups and carboxylic acid groups in the peptides may be present in the form of a salt formed by using an acid or a base. If synthetic peptides are used, it is very simple to make all kinds of variants falling within the scope of the invention that can be used. For example, aromatic side groups such as from fenylalanine and tyrosine may be halogenated with one or more halogen atoms. Peptidomimetic and organomimetic embodiments also fall within the scope of the invention and their application in the method according to the invention. Instead of a Cit residue it is also possible to use an analogue thereof, such as those represented in Fig. 1 in the form of the amino acid. Such analogues and their preparation are known to the person skilled in the art. For example, Sonke et al., in Stereoselective Biocatalysis (2000), pp. 23-58, and Greene: Protective groups in Organic synthesis (Wiley, New York 1999. In accordance with a favourable embodiment, the side chains of the citrullin analogues have the formula (I) :
Q Y \ // C
:D
(CH2) wherein
Q = NH2, CH3, NHCH3 or N(CH3)2; Y = 0, NH, or NCH3; Z = 0, NH or CH2; and n = 2, 3 or 4; on the condition that if Q = NH2 and Z = NH, Y is not NH.
In this context, a peptide unit is understood to be a peptide that is at least 7 amino acids long. Peptide units may have one or more side chains. Also, peptide units or terminal ends of the peptide unit may be acetylated, glycosyl- ated, alkylated, or phosphorylated independently of each other.
A peptide unit in this context is indicated as not derived from (pro) filaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 or cytokeratin 9 and other intermediary filament proteins if the homology (the similarity of the amino acid sequence) to these proteins is less than 80%, more preferably less than 75% such as less than 70% or 65%, and most preferably less than 60%, such as less than 55% or 50%. The peptide units shown in Table 5, which are not derived from (pro) filaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 and cytokeratine 9, have a homology between 15 and 45%. On examination of the homology arginine, citrullin and analogues of citrullin are considered to be equivalent (identical) .
The peptide units comprising XG and XnonG may or may not part of the same molecule. This will be entered into later on. For carrying out a detection assay, the peptide units may be bound to a carrier and optionally provided with a label. The complex may be detected in any manner well-known to the ordinary person skilled in the art. The complex may be detected indirectly, for example in the case of a competition assay, in which the complex itself is not labelled. The reaction with the two peptide units may take place simultaneously or successively and in the same container (such as a well of a microtitre plate) or in different containers.
This application is not intended as an educational publication on how to become a person skilled in the art. It is therefore limited to providing sufficient information to enable the ordinary person skilled in the art to understand the invention, and to work it, and to understand the scope of protection. Preferably the peptide units are recognized by at least 2 of 100 random sera from recognized RA patients. Obviously it is preferred to use peptide units that are recognized by a considerably higher percentage, preferably at least 30%. The number of peptide units in a method according to the invention is preferably 2 or greater than 2.
Preferably the invention relates to a method as mentioned above, wherein the peptide unit with the XG motif and peptide unit with the XnonG motif are recognized together by at least 10% of the series of sera from patients. Of course, combinations of peptide units resulting in higher sensitivities are preferred. With some combinations of peptide units as described in this document, diagnostic tests can be carried out with sensitivities of 40, 60, 70, 80 or even 85 and more than 90%. It has been shown that the sensitivity of the detection can be further increased if at least one of the peptide units is a cyclic peptide unit.
The peptide unit with XG motif and the peptide unit with XnonG motif are preferably part of a multipeptide. J« - the context of the present invention, a multipeptide is a' molecule comprised of at least two antigenic peptide units, i.e. combinations of peptide units that may or may not be linked by a covalent bond. Such multipeptides may be comprised of linear, branched, cyclic peptide units or a combi- nation of these. Multipeptides may be comprised both of peptide units having the same amino acid sequence, and of peptide units having different amino acid sequences. A multipeptide according to the invention comprises at least 7, preferably at least 10 amino acids, i.e. the peptide units may overlap. It goes without saying that the XG and XnonG motif can not overlap.
The invention also relates to a XnonG peptide unit, very useful for the method according to the present inven- tion, comprising a sequence with the formula (II) :
(A1-A2-A3-A4-A5) -Cit- (A6) - (A7-A8-A9-A10-A11) (II] wherein
- A1-A2-A3-A4-A5 is an amino acid sequence selected from - RHGRQ
- IRCitYK
- HGRQCit
- GRQCitCit
- FQMCitH - CitWRGM
- ARFQM
- QCitYKW
- KPYTV
- RNLRL - RRRCitY
- RFKSN
- RGKSN
- RWVSQ
- MKPRY - KSFVW
- YSFVW
- FQMRH
- RNMNR
- RMGRP and homologous sequences thereof;
- A7 an amino acid other than glycine;
- A7-A8-A9-A10-A11 an amino acid sequence selected from
- KYIIY
- TNRKF - KWCitKI
- CitRAVI
- RCitGHS
- CitGRSR
- CitYIIY - CitRLIR
- IERKR
- FMRKP
- FMRRP - ERNHA
- AVITA
- TPNRW
- TYNRW - RTPTR
- RIVVV
- HARPR
- RGMCitR
- IRFPV and homologous sequences thereof; as well as functional analogues of the peptide with the formula (II) .
The invention also relates to a XnonG peptide unit, very useful for the method according to the present inven- tion, comprising a sequence with the formula (III) :
(B1-B2-B3-B4-B5-B6) -Cit- (B7) - (B8-B9-B10-B11) (III) wherein
B1-B2-B3-B4-B5-B6 is an amino acid sequence selected from INCitRAS - . ICitKRLY
- KCitCitYNI
- RLYFICit IRQGAR
- CitERCitVQ - CitHQRIT
- RICitRVCit
- GRNQRY
- RCitRQHP
- CitCitRCitVA - RPKQHV
- RKCitGCitR
- RCitCitRNT
- RCitQCitFT
- QLVYLQ - QYNRFK
- CitLRHIR PRCitCitCitK RCitQVRY - GRCitHAH
- ARHVIR
- RCitGHMF
- GRNIRV - QIFYLCit
- RQGPIA
- GVYLVR
- NCitCitRRV
- KCitRLCitY - GRRCitCitL
- RMPHCitH and homologous sequences thereof;
B7 is an amino acid other than glycine; B8-B9-B10-B11 an amino acid sequence selected from - CitHRR
- CitIRR
- FRRN
- AQTT
- GYPK - RPPQ
- GCitRK
- PIPR
- YTIH
- RIKA - CitRVR
- TRRP
- TIRP
- IKCitR
- RNVV - CitRRY
- CitRPR
- TRCitCit
- CitCitGR
- LCitRCit - RVRCit
- VPRT
- YCitFR
- ARCitCit - RQCitR
- HIRR
- CitMMR
- CitRICit - VRKS
- PCitCitR
- CitRRK and homologous sequences thereof; as well as functional analogues of the peptide with the for- mula (III) .
The term "homologous sequence", as used in connection with A1-A2-A3-A4-A5, A7-A8-A9-A10-A11, B1-B2-B3-B4-B5-B6 and B8-B9-B10-B11, means that at most two amino acids of each amino acid sequence may be replaced by as many other amino acids (including citrullin and/or an analogue thereof) , at most two amino acids (including or an analogue thereof) may be introduced and at most two amino acids may be absent.
The term 'analogue' as used in connection with the peptide of the formula (II) or (III) means that optionally - one or more amino acids may have the D-configuration,
- one or more side chains (other than that of citrullin or an analogue thereof) or terminal ends of the peptide may be acetylated, glycosylated, alkylated, or phosphorylated independently of each other, and - one or more amino acids may be replaced by non-natural amino acids.
A6 and B7 (independent of each other) are preferably selected from Cit, H, I, K, R, S, W, Y, M, F, V and P.
Specific preferred peptides to be used in the method according to the invention are characterized in that they comprise at least one peptide sequence selected from R H G R Q Cit Cit K Y I I Y I R Cit Y K Cit I T N R K F R H G R Q Cit Cit Cit Y I I Y A R F Q M Cit H Cit R L I R Q Cit Y K W Cit K I E R K R K P Y T V Cit K F M R K P K P Y T V Cit K F M R R P R N L R L Cit R E R N H A R R R Cit Y Cit R A V I T A
R F K S N Cit R T P N R W
R G K S N Cit R T Y N R W R F K S N Cit R T Y N R W
R G K S N Cit R T P N R W
R W V S Q Cit R R T P T R
M K P R Y Cit R R I V V V
K S F V W Cit S H A R P R Y S F V W Cit S H A R P R
R N M N R Cit W R G M Cit R, and
R M G R P Cit W I R F P V as well as
I N Cit R A S Cit K Cit H R R I Cit K R L Y Cit M Cit I R R
K Cit Cit Y N I Cit Cit F R R N
R L Y F I Cit Cit R A Q T T
I R Q G A R Cit R G Y P K
Cit E R Cit V Q Cit R R P P Q Cit H Q R I T Cit V G Cit R K
R I Cit R V Cit Cit T P I P R
G R N Q R Y Cit L Y T I H
R Cit R Q H P Cit H R I K A
Cit Cit R Cit V A Cit F Cit R V R R P K Q H V Cit H T R R P
R K Cit G Cit R Cit Cit T I R P
R Cit Cit R N T Cit H I K Cit R
R Cit Q Cit F T Cit Cit R N V V
Q L V Y L Q Cit Cit Cit R R Y Q Y N R F K Cit Cit Cit R P R *
Cit L R H I R Cit Q T R Cit Cit
P R Cit Cit Cit K Cit R Cit Cit G R
R Cit Q V R Y Cit Cit L Cit R Cit
G R Cit H A H Cit P R V R Cit A R H V I R Cit Cit V P R T
R Cit G H M F Cit V Y Cit F R
G R N I R V Cit Cit A R Cit Cit
Q I F Y L Cit Cit H R Q Cit R R Q G P I A Cit L H I R R G V Y L V R Cit L Cit M M R N Cit Cit R R V Cit M Cit R I Cit K Cit R L Cit Y Cit P V R K S G R R Cit Cit L Cit R P Cit Cit R R M P H Cit H Cit S Cit R R K or an analogue thereof.
Suitable XG peptides to be used in the method according to the invention preferably comprise the sequence with the formula (IV)
(C1-C2) - (C3-C4-C5) -X-G-C6- (C7-C8-C9-C10) (IV)
wherein C1-C2 is HQ, GF, EG or GV;
C3-C4-C5 represents 3 amino acids of which at least 1, and preferably 2 independently of each other are basic, aromatic or V;
C6 is equal to a basic or aromatic amino acid, or equal to A, G, E, P, V, S or Cit or analogue thereof; and
C7-C8-C9-C10 is SRAA, SCitAA, RPLD, RVVE or PGLD; as well as analogues of the peptide with the formula (IV) .
The term 'analogue' as used in connection with the peptide of the formula (IV) means that optionally - one or more amino acids may have the D-configuration, one or more side chains (other than that of citrullin or an analogue thereof) or terminal ends of the peptide independently of each other may be acetylated, glycosylated, alkyl- ated, or phosphorylated; and one or more amino acids may be replaced by non-natural amino acids .
Specific examples of XG peptides suitable to be used in the method according to the invention comprise a sequence selected from H Q R K W Cit G A S R A A
H Q H W R Cit G A S R A A
H Q F R F Cit G Cit S RAA
H Q E R R Cit G E S R A A H Q K W R Cit G F S R A A
H Q R W K Cit G G S R A A
H Q R R T Cit G G S R A A
H Q R R G Cit G G S R A A H Q Cit F R Cit G H S R A A
G F F S A Cit G H R P L D
H Q E R G Cit G K S R A A
H Q E K R Cit G K S R A A
H Q R W L Cit G K S R A A H Q K R N Cit G K S R A A
E G G G V Cit G P R V V E
H Q W R H Cit G R S Cit A A
H Q K W N Cit G R S R A A
H Q K F W Cit G R S R A A H Q K Cit K Cit G R S R A A
H Q K W R Cit G R S Cit A A
H Q A W R Cit G R S Cit A A
H Q N Q W Cit G R S R A A
H Q N S K Cit G R S R A A H Q K R R Cit G R S R A A
H Q K R F Cit G R S R A A H Q K R Y Cit G R S R A A H Q K R H Cit G R S R A A H Q E R A Cit G S S R A A H Q E K M Cit G V S R A A H Q K R G Cit G W S R A A H Q R R V Cit G W S R A A H Q W N R Cit G W S R A A H Q Q R M Cit G W S R A A H Q S H R Cit G W S R A A
H Q F R F Cit G W S R A A H Q K R R Cit G W S R A A G V K G H Cit G Y P G L D or an analogue thereof. The peptides according to the invention are preferably cyclic peptides of which the ring comprises at least 10 amino acids, and more preferably at least 11 amino acids. The person skilled in the art is acquainted with various methods for the preparation of cyclic peptides and a further explanation is not required.
According to a most preferred method of the invention, an XG peptide is used in combination with at least one XnonG peptide, wherein the XG peptide is selected from the group comprised of:
0002-27 H Q K R G Cit G W S R A A 0002-29 H Q R R V Cit G W S R A A 0002-31 H Q R R T Cit G G S R A A 0002-32 H Q R K W Cit G A S R A A 0002-36 H Q F R F Cit G Cit S R A A 0002-37 H Q K W R-Cit G R S Cit A A 0002-63 H Q F R F Cit G W S R A A
and the XnonG peptide is chosen from the group comprised of:
0107-32 K P Y T V Cit K F M R R P 0107-35 A R F Q M Cit H Cit R L I R 0107-45 Y S F V W Cit S H A R P R 0113-30 A R F Q M R H Cit R L I R 0218-36 R N L R L Cit R E R N H A
Depending on the desired specificity and sensitivity of the diagnostic test and the respective population of rheumatoid arthritis sera under examination, a preferred combination of XG and XnonG peptide units is selected from the group comprised of:
0002-27 and 0107-32 0002-27 and 0107-35 0002-27 and 0107-45
0002-27 and 0113-30 0002-27 and 0218-36 0002-29 and 0107-32
0002-29 and 0107-35 0002-29 and 0107-45 0002-29 and 0113-30
0002-29 and 0218-36 0002-31 and 0107-32 0002-31 and 0107-35
0002-31 and 0107-45 0002-31 and 0113-30 0002-31 and 0218-36 0002-32 and 0107-32 0002-32 and 0107-35 0002-32 and 0107-45
0002-32 and 0113-30 0002-32 and 0218-36 0002-36 and 0107-32
0002-36 and 0107-35 0002-36 and 0107-45 0002-36 and 0113-30
0002-36 and 0218-36 0002-37 and 0107-32 0002-37 and 0107-35 0002-37 and 0107-45 0002-37 and 0113-30; 0002-37 and 0218-36; 0002-63 and 0107-32 0002-63 and 0107-35; 0002-63 and 0107-45; 0002-63 and 0113-30 0002-63 and 0218-36.
The above-mentioned combinations were shown to produce an average again in sensitivity of 6%, bringing the total sensitivity of such a combination test of an XG and a XnonG peptide to 75 to 78%.
The results described in the examples below further showed that the various peptide units also detected different cohorts of sera. An additional gain in sensitivity was achieved by adding a third peptide unit or even a fourth or more peptide units. Depending on the combination of peptide units selected from the above-mentioned groups, a diagnostic test according to the invention allowed sensitivities of 88- 92% to be achieved.
The invention also relates to a multipeptide, characterized in that it is a linear or branched multipeptide, comprising at least two linear or cyclic peptide sequences selected independently of each other from a peptide unit selected from peptide units with the formula (II) and (III) and analogues thereof; a peptide unit with the formula (IV) and analogues thereof. Such a multipeptide is very suitable for use in the method according to the invention. It makes it possible to carry out the method more simply and more reliably since peptides are used in the same known ratio, and extra operations during the assay or during the preliminary work (e.g. coating a microtitre plate with multipeptide) is avoided. The invention further relates to a diagnostic kit for determining the presence of autoantibodies from patients suffering from rheumatoid arthritis, wherein the diagnostic kit comprises a peptide according to one of the claims 5 to 13, or a multipeptide according to claim 14, or a mixture thereof, together with at least one further reagent.
The invention also relates to a peptide or an antibody of an immunotoxin molecule as described above, or a composition thereof for use as a pharmaceutical composition. The present invention further relates to a peptide or an antibody of an immunotoxin molecule as described above or a composition thereof for preparing a pharmaceutical composition or a diagnostic agent for rheumatoid arthritis. The present invention also relates to the application of a peptide or a composition thereof as described above for preparing a pharmaceutical composition for the treatment of autoimmune diseases by increasing the size of antigen immune complexes, which improves the clarification of the im- mune complexes formed.
The present invention therefore also relates to a method for the treatment of rheumatoid arthritis by introducing into the body of a patient requiring such treatment, at least one peptide according to the invention. The invention further relates to a method for the selection of a peptide suitable for the diagnosis of RA, wherein a peptide library is screened with antibodies obtained from patients with RA and wherein the" peptide library is selected from a group comprised of:
Lib (1) : H Q E X X Cit X X S R A A
Wherein X = any amino acid except cysteine and tryptophane
Lib (2) : H Q X X X Cit G X S R/Cit A A Wherein X = any amino acid except cysteine but including Cit- rulline
Lib (3) : H Q E X X Cit X X S R/Cit A A
Wherein X = any amino acid except cysteine but including Cit- rulline
Lib (4) : X X X X X X Cit X X X X X
Wherein X = any amino acid except cysteine but including Cit- rulline
or equivalents thereof, Finally, the invention relates to a peptide that can be obtained with the aid of the afore-mentioned method to be used in a diagnostic assay.
The terms "a pharmaceutical composition for the treatment" or "a drug for the treatment" or "the use of proteins for the preparation of a drug for the treatment" relate to a composition comprising a peptide as described above or an antibody binding specifically to the peptide and a pharmaceutically acceptable carrier or excipient (the two terms are interchangeable) for the treatment of diseases as described above. Suitable carriers or excipients with which the ordinary person skilled in the art is familiar are saline, Ringer's solution, dextrose solution, Hank's solution, oils, ethyloleate, 5% dextrose in saline, substances improving iso- tonicity 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, polysac- charides, polylactic acids, polyglycol acids, polymeric amino acids and amino acid polymers. The "drug" may be administered in any manner known to the ordinary person skilled in the art.
The peptides according to the invention may be labelled (radioactive, fluorescent or otherwise, as well known in the art) or may be provided with a carrier. In this form also such peptides fall within the scope of the invention. For example, a peptide may be coupled to a carrier protein, such as Keyhole Limpet Haemocyanin or bovine serum albumin. Also, the peptide according to the invention may be non- covalently or covalently coupled to a solid carrier, such as a microsphere (gold, polystyrene etc.), slides, chips, or a wall of a reactor vessel or of a well of a microtitre plate. The peptide may be labelled with a direct or an indirect label. Examples include biotin, fluorescein and an enzyme, such as horseradish peroxidase. All this is generally known to the ordinary person skilled in the art and requires no further explanation. EXAMPLES
Example 1: Peptide synthesis
Citrullinated peptides were synthesised as described by De Koster H.S. et al. (J. Immunol. Methods, 187, pp. 177- 188, (1995) ) . Beads were used to which the peptide molecules were attached via an amide bond so that after the removal of protective groups, peptide molecules were still attached to the bead. For the synthesis of peptides an automated multiple peptide synthesiser was used (Abi ed AMS422, Abimed, Langen- feld, Germany) . The incorporated amino acids and the peptide linker 6-aminohexane acid were protected by a Fmoc-group, and to facilitate coupling, the protected amino acids were activated with PyBOP and N-methylmorpholine. Where necessary, the side chains were protected with groups protecting acid- sensitive side chains. The beads used had a diameter of approximately 100 μm and comprised approximately 100 pmol peptide each. It is estimated that approximately 0.5% of this amount is bound to the outside and is in principle accessible to antibodies. For the synthesis in larger quantities, beads were used that were provided with an acid-sensitive linker. The chemistry of peptide synthesis was largely comparable with the one already described above. The peptides were split off with trifluoroacetic acid and isolated by means of ether pre- cipitation, all in accordance with methods well-known in the art and for which the ordinary person skilled in the art requires no further explanation. It is of course also possible to acquire peptides with a desired sequence commercially. The purity and identity of the individual peptides were checked by means of analytical RP-HPLC and time-of-flight mass spec- trometry (MALDI-TOF) .
With the aid of the above method 4 peptide libraries were created, each comprising a large number (8xl06) citrullinated peptides. The formulas below show the amino acid se- quence of the peptides in each library:
Lib (1) : H Q E X X Cit X X S R A A
Wherein X = any amino acid except cysteine and tryptophane Lib (2) : H Q X X X Cit G X S R/Cit A A
Wherein X = any amino acid except cysteine but including Cit- rulline
Lib (3) : H Q E X X Cit X X S R/Cit A A
Wherein X = any amino acid except cysteine but including Cit- rulline
Lib (4) : X X X X X X Cit X X X X X
Wherein X = any amino acid except cysteine but including Cit- rulline.
These libraries were screened in accordance with the method described below using sera from patients suffering from rheumatoid arthritis.
Example 2: Reaction of the bead-coupled peptides with sera from patients suffering from rheumatoid arthritis (RA)
With the aid of Protein A-Sepharose, IgG was isolated from serum from patients clinically diagnosed to be suffering from RA. The beads were incubated with a solution comprising i) total serum from the patient, or ii) IgG from a patient conjugated to a reporter enzyme (alkaline phosphatase labelling kit; Roche/Boehringer, Mannheim, Germany) . For serum (i) a second incubation was carried out with an alkaline phosphatase conjugated anti-human IgG antibody (Dako D0336; Dako Im- munoglobulins, Glostrup, Denmark) . After each incubation the beads were thoroughly washed with Tris-HCl buffer pH 8.9 (50 mM Tris pH 8.9, 150 mM NaCl, 0.5% Tween® 20).
The beads with peptides that had bound the most human IgG (after dying with a substrate of alkaline phosphatase that is converted into an insoluble coloured product, these become the most intensely coloured beads) were selected with the aid of a microscope.
Example 3: ELISA
The most interesting peptides were synthesised in a slightly larger quantity to form a linear and a cyclic variant, and in most cases in a citrullin and arginine (=control) variant. These peptides were tested for reactivity with a series of sera from RA patients. The peptides were coated to ELISA plates and incubated with sera from RA patients. Each serum was tested in duplicate. Sera from healthy persons were used as negative control.
Example 4 : The family of XG peptides
By using sera that gave a positive reaction with cfcl (see PCT/NL97/00624, which is herewith included by way of reference) peptides with glycine were found on position +1 (i.e. C-terminal) in relation to the citrullin residue. Replacing G on +1 by, for example, A (alanine) reduces the reactivity by 65%. In certain peptides, the E (glutamic acid) on position - 3 is preferably not replaced by A (47% loss of activity) . Similarly, the Q (glutamine) on -4, the H (histidine) on -5 and the S (serine) on +3 often appeared to be advantageous. Thus a number of peptide sequences with the combination -XG- were selected, all of which reacted with RA sera. Specific examples of preferred members of this XG family are
Table 1: Family of XG peptides:
H Q R K W Cit G A S R A A (0002-32) H Q H W R Cit G A S R A A (0002-42) H Q F R F Cit G Cit S R A A (0002-36)
H Q E R R Cit G E S R A A ;020699-2)
H Q K W R Cit G F S R A A (0102-74)
H Q R W K Cit G G S R A' A (0002-28) H Q R R T Cit G G S R A A (0002-31)
H Q R R G Cit G G S R A A (0002-33)
H Q Cit F R Cit G H S R A A (0002-43)
G F F S A Cit G H R P L D (0101-7) H Q E R G Cit G K S R A A (020699-1)
H Q E K R Cit G K S R A A (020699-4)
H Q R W L Cit G K S R A A (0002-30) H Q K R N Cit G K S R A A (0002-38)
E G G G V Cit G P R V V E (0101-5)
H Q W R H Cit G R S Cit A A (0002-34) H Q K W N Cit G R S R A A (0002-24)
H Q K F W Cit G R S R A A (0002-25)
H Q K Cit K Cit G R S R A A (0002-26)
H Q K W R Cit G R S Cit A A (0002-37)
H Q A W R Cit G R S Cit A A (0002-40) H Q N Q W Cit G R S R A A (0002-44)
H Q N S K Cit G R S R A A (0002-45)
H Q K R R Cit G R S R A A (0102-76)
H Q K R F Cit G R S R A A (0102-77)
H Q K R Y Cit G R S R A A (0102-78) H Q K R H Cit G R S R A A (0102-79)
H Q E R A Cit G S S R A A (020699-3)
H Q E K M Cit G V S R A A (020699-5) H Q K R G Cit G W S R A A (0002-27)
H Q R R V Cit G W S R A A (0002-29)
H Q W N R Cit G W S R A A (0002-35)
H Q Q R M Cit G W S R A A (0002-41)
H Q S H R Cit G W S R A A (0002-39) H Q F R F Cit G W S R A A (0002-63)
H Q K R R Cit G W S R A A (0102-75)
G V K G H Cit G Y P G L D (0101-3)
From the above data a consensus sequence is derived of amino acids that appear to have a preference for a particular position. An XG peptide unit being preferably recognized by RA sera may therefore be represented by: -3 -2 -1 0 +1 +2
K R R X G R
R W W
Ξ K
All these peptides showed good to excellent results. Especially the peptides 0002-35, 0002-36 and 0002-63 were very satisfactory. In most of the cases the cyclic variant of such a peptide reacted even better (see later) . Incidentally, this is not always the case. For example, the linear peptide 0101-7 reacted with 55% of the sera. The cyclic variant of this peptide reacted with "only" 45% of 186 RA-sera. As expected, the arginine variants of these peptides (wherein the citrullin (s) is/are replaced by arginine (s) ) did not react with the RA sera.
Example 5: Cyclic variants of XG peptides
The peptides described below were cyclisized in ac- cordance with the cysteine-bromoacetic acid method. Several cyclic variants were tested, with in particular the cyclic variants of peptides 0002-27, 0002-29, 0002-31, 0002-36, and 0002-63 proving to be of interest.
Ring size: a number of adequately reacting peptides were used to synthesise additional cyclic peptides that each had a different ring size. Of these the 8, 9, 10, 11 and 12- mers were eventually tested. All these peptides were tested in ELISA with 48 RA sera and 8 normal sera respectively. The 8- and 9-mers reacted with some of the sera (with 22% (titre 0,47) and 28% (titre 0,5), respectively, but the titres (the OD-values found) were much lower than when larger rings were used (10-mer 33% with a titre van 0.60; 11- and 12-mer 50% with an average titre of 0.74. Table 2: Results from serum-analyses using cyclic peptide 0002-36.
Figure imgf000024_0001
The above table represents ELISAs with sera obtained from patients suffering from RA and from patients suffering from various other autoimmune diseases. This shows the high specificity of RA sera for a peptide such as 0002-36. Practically none of the cases showed sera obtained from other autoimmune diseases and material from normal healthy persons to be positive. The arginine variant of peptide 0002-36 (R on position 0 and +2, i.e. instead of Cit in the formula) was also tested and shown to be negative with all tested RA and normal sera.
Table 3: ELISA with 132 RA sera with peptide 36 compared with peptide cfcl from [PCT/NL97/00624] :
Figure imgf000024_0002
By using cyclic cfcl as well as cyclic 0002-36 an additional 2% sensitivity may be gained (total 73%, see Table 4), which for this type of application is a welcome improvement as long as it is not accompanied by a declining speci- ficity. The latter does not seem to be the case. Thus within the XG group of peptides there is diversity with regard to their ability to react with RA antibodies.
Table 4: ELISA with 186 RA sera and cyclic variants of cfl, 0002-36, and 0002-63
Comparing the linear and the cyclic variants of 0002-36 in two cohorts of RA sera (in total 318 sera) , the cyclic variant was shown to react more frequently (and better) than the linear variant. Better, because the OD-values found with the cyclic variant were also much higher than with the linear composition. Whether the cyclic variant was created via -S-S-bonds between two cysteins, or via a thioether formed, for example, by reacting a cysteine and a bromoacetyl group (formed by reacting a thiol in the side chain of a cysteine with an N-terminal bromoacetyl group, forming a thioether), is immaterial. The N-terminal bromoacetyl group is formed, after the synthesis of the peptide, by allowing the bead-bound peptide (peptidyl-resin) to react with the N- hydroxy succinimide ester of bromoacetic acid) in the same peptide. The ring closure occurs in a phosphate-buffered aqueous acetonitril solution, pH = 8.
Example 6 The family of XnonG peptides
Surprisingly, there were also peptides found that were not derived from (pro) filaggrine, fibrin, fibrinogen, vimentin, cytokeratin 1 and cytokeratin 9, and that were recognized by RA sera that did not or only slightly react with peptides of the XG family described above. A characteristic of these peptides is that the amino acid and the C-terminal side of the Cit is basic (R, K, H) , aromatic (W, Y, F) aliphatic (M, I, V) or Cit, S or P (see table 5), but not G. Hence the name XnonG family. Remarkably, XnonG peptides comprise relatively many positively charged amino acids on the - 2, -1, +1 and +2 positions. Thus the antibodies in these RA sera react with a citrullin in a different peptide context.
The XnonG peptides mentioned all reacted with one or more XG-negative sera. For example, peptides 0107-32, 0107- 35, and 0107-45 react with approximately 15-18% of the XG negative sera. An ELISA test based on one or more of these peptides induces a sensitivity increase of at least 5% (up from 73% to 78%) compared with the combination of cyclic cfcl and cyclic 0002-36. Very importantly, none of the XnonG peptides mentioned reacted with control sera.
Table 5: Peptides of the XnonG family:
R H G R Q Cit Cit K Y I I Y (0107-33)
R H G R Q Cit Cit Cit Y I I Y (0107-34)
I R Cit Y K Cit I T N R K F (0107-37)
A R F Q M Cit H Cit R L I R (0107-35)
Q Cit Y K W Cit K I E R K R (0107-43)
K P Y T V Cit K F M R K P (0107-31) K P Y T V Cit K F M R R P (0107-32)
R N L R L Cit R E R N H A (0107-36) R R R Cit Y Cit R A V I T A (0107-38) R F K S N Cit R T P N R W (0107-42) R G K S N Cit R T Y N R W (0107-39) R F K S N Cit R T Y N R W (0107-40) R G K S N Cit R T P N R W (0107-41) R W V S Q Cit R R T P T R (0102-71) M K P R Y Cit R R I V V V (0102-73)
K S F V W Cit S H A R P R (0107-44) Y S F V W Cit S H A R P R (0107-45) R N M N R Cit W R G M Cit R (0107-30) R M G R P Cit W I R F P V (0102-72) as well as I N Cit R A S Cit K Cit H R R 0215-46 I Cit K R L Y Cit M Cit I R R 0219-44 K Cit Cit Y N I Cit Cit F R R N 0222-56 R L Y F I Cit Cit R A Q T T 0222-57 I R Q G A R Cit R G Y P K 0223-12 Cit E R Cit V Q Cit R R P P Q 150202RA02 Cit H Q R I T Cit V G Cit R K 150202RA03 R I Cit R V Cit Cit T P I P R 061102RA01 G R N Q R Y Cit L Y T I H 061102RA02 R Cit R Q H P Cit H R I K A 061102RA03 Cit Cit R Cit V A Cit F Cit R V R 061102RA05 R P K Q H V Cit H T R R P 061102RA06 R K Cit G Cit R Cit Cit T I R P 061102RA07 R Cit Cit R N T Cit H I K Cit R 061102RA08 R Cit Q Cit F T Cit Cit R N V V 061102RA09 Q L V Y L Q Cit Cit Cit R R Y 061102RA11 Q Y N R F K Cit Cit Cit R P R 061102RA12 Cit L R H I R Cit Q T R Cit Cit 061102RA14 P R Cit Cit Cit K Cit R Cit Cit G R 061102RA15 R Cit Q V R Y Cit Cit L Cit R Cit 061102RA16 G R Cit H A H Cit P R V R Cit 061102RA17 A R H V I R Cit Cit V P R T 181102RA01 R Cit G H M F Cit V Y Cit F R 181102RA02 G R N I R V Cit Cit A R Cit Cit 181102RA04 Q I F Y L Cit Cit H R Q Cit R 221102RA01 R Q G P I A Cit L H I R R 221102RA02
G V Y L V R Cit L Cit M M R 0218-36
N Cit Cit R R V Cit M Cit R I Cit 271102RA01
K Cit R L Cit Y Cit P V R K S 271102RA02
G R R Cit Cit L Cit R P Cit Cit R 271102RA03 R M P H Cit H Cit S Cit R R K 271102RA04
From the above data it is possible to derive a consensus sequence of amino acids that appear to have a prefer- ence for certain positions. Therefore, a XnonG peptide unit preferably recognized by RA sera may be represented by:
5 -4 3 -2 -1 0 +1 +2 +3 +4 +5
R R R R R X R R R R R
N Y V H T I I K
F I Y Y P P
H s V N
G
Experiments have shown that, for example, peptide 0107-35 in the cyclic form reacts with 18% of the sera that are not reactive with cyclic 0002-36. This sensitivity may be further increased by other peptides. For example, a further 8% may be added by cyclic peptide 0107-32. This allows the sensitivity to be increased to 80%. A similar value was found for the peptide 0107-45. In total 17 of the 52 (32%) XG- negative sera were shown to react with one or more XnonG peptides. This means that with combinations of more than 2 XG and XnonG peptides, a preferred embodiment of the invention, a sensitivity of above 80% can be achieved. This is therefore better than what can be achieved by a combination of the peptides with the formula IV, and those known from PCT/NL97/00624. The sensitivity can be increased even further by using more peptides still. When testing the RA sera with a cyclic XG peptide (for example 0002-63 or 0002-36) together with a linear or cyclic XnonG peptide (for example 0107-35), for 318 RA sera a sensitivity of 78% was obtained. The addi- tion of a 3rd, 4th and possibly 5th peptide increased the sensitivity to 85% (peptides 0107-32, 0107-42 respectively 0107-34) . A mere 48 of the 318 RA sera did not react with one of the peptides mentioned.
Example 7 Sensitivity and specificity of diagnostic tes'ts comprising XG and XnonG peptide units
Using the above-described methods, seven XG peptide units were tested for reactivity with the 318 sera mentioned in Table 2 from patients suffering from rheumatoid arthritis. The specificity was determined with the aid of sera mentioned in Table 2 from control patients and normal donors. Table 6 shows the specificity and sensitivity of the individual peptide units.
Table 6
Figure imgf000029_0001
In accordance with the methods described in this document, five XnonG peptide units were tested for reactivity with the same 318 sera mentioned in table 2 from patients suffering from rheumatoid arthritis. Specificity was again determined with the aid of the sera mentioned in table 2 from control patients and normal donors. Table 7 shows the specificity and sensitivity of the individual peptide units. Table 7
Figure imgf000030_0001
The reactivity of the XnonG peptide units mentioned in table 7 was tested with 80 sera from the panel of 318 sera described above that did not react with any of the XG peptide from table 6. The percentages mentioned in table 8 therefore show the percentage of the sera that did comprise antibodies to XnonG peptide units but comprised no XG reactive antibodies .
Table 8
Figure imgf000030_0002
The above results show that an increased sensitivity may be expected if each of the XG peptide units from Table 6 is combined with each of the peptide units from Table 7. All the combinations of peptide units given below were tested with a representative portion of the above-mentioned panel of 318 sera from patients suffering from rheumatoid arthritis. This experiment does in fact show that an average gain in sensi- tivity of 6% was obtained, bringing the total sensitivity of such a combination test to 75 to 78%.
The tested combinations of peptide units related to: peptide unit 0002-27 with 0107-32; 0002-27 with 0107-35; 0002-27 with 0107-45; 0002-27 with 0113-30; 0002-27 with 0218-36; 0002-29 with 0107-32; 0002-29 with 0107-35; 0002-29 with 0107-45; 0002-29 with 0113-30; 0002-29 with 0218-36; 0002-31 with 0107-32; 0002-31 with 0107-35; 0002-31 with 0107-45; 0002-31 with 0113-30; 0002-31 with 0218-36; 0002-32 with 0107-32; 0002-32 with 0107-35; 0002-32 with 0107-45; 0002-32 with 0113-30; 0002-32 with 0218-36; 0002-36 with 0107-32; 0002-36 with 0107-35; 0002-36 with 0107-45; 0002-36 with 0113-30; 0002-36 with 0218-36; 0002-37 with 0107-32; 0002-37 with 0107-35; 0002-37 with 0107-45; 0002-37 with 0113-30; 0002-37 with 0218-36; 0002-63 with 0107-32; 0002-63 with 0107-35; 0002-63 with 0107-45; 0002-63 with 0113-30 and finally 0002- 63 with 0218-36.
With respect to the results of Table 6 and Table 8 it should also be noted that the various peptide units also detected different cohorts of sera. From this it may be deduced that the above-mentioned combinations of XG and XnonG peptide units also are capable of producing a further gain in sensitivity if a third peptide unit or even a fourth or further peptide units are added. Depending on the selected combination of peptide units, the diagnostic test according to the invention did indeed make it possible to achieve a sensitivity of 88-92%.

Claims

1. A method of detecting autoantibodies from patients suffering from rheumatoid arthritis, wherein at least one reactive peptide comprising a citrullin residue or analogue thereof is contacted with the forementioned autoanti- bodies for a time sufficiently long to allow a complex to be formed between the at least one reactive peptide and the autoantibodies, after which the complex is detected, characterised in that said autoantibodies are contacted with a peptide unit comprising the motif XG, and a peptide unit com- prising the motif XnonG, wherein X is a citrullin residue or an analogue thereof, G is the amino acid glycine and nonG is an amino acid other than glycine.
2. A method according to claim 1, characterised in that nonG is an amino acid selected from H, I, W, S, R, K, Y, M, F, V, P, Cit or an analogue thereof.
3. A method according to claim 1 or 2, characterised in that at least one of the peptide units is a cyclic peptide unit
4. A method according to one of the preceding claims, characterised in that the peptide unit with XG motif and the peptide unit with XnonG motif are part of a multipeptide
5. A method according to one of the preceding claims, characterised in that the XnonG peptide unit is not derived from (pro) fillaggrin, fibrin, fibrinogen, vimentin, cytokeratin 1 and cytokeratin 9.
6. A method according to one of the preceding claims, characterised in that the XG peptide unit XnonG peptide unit is selected from the group comprised of:
0002-27 H Q K R G Cit G W S R A A
0002-29 H Q R R V Cit G W S R A A
0002-31 H Q R R T Cit G G S R A A
0002-32 H Q R K W Cit G A S R A A 0002-36 H Q F R F Cit G Cit S RAA 0002-37 H Q K W R Cit G R S Cit A A 0002-63 H Q F R F Cit G W S R A A
and the XnonG peptide unit is selected from the group com- prised of:
0107-32 K P Y T V Cit K F M R R P
0107-35 A R F Q M Cit H Cit R L I R
0107-45 Y S F V W Cit S H A R P R 0113-30 A R F Q M R H Cit R L I R
0218-36 R N L R L Cit R E R N H A
7. A peptide comprising a sequence with the formula
(ID :
(A1-A2-A3-A4-A5) -Cit- (A6) - (A7-A8-A9-A10-A11] (ID
wherein
- A1-A2-A3-A4-A5 is an -aminoacid sequence selected from - RHGRQ
- IRCitYK
- HGRQCit
- GRQCitCit
- FQMCitH - CitWRGM
- ARFQM
- QCitYKW
- KPYTV
- RNLRL - RRRCitY
- RFKSN
- RGKSN
- RWVSQ
- MKPRY - KSFVW
- YSFVW
- FQMRH
- RNMNR - RMGRP and homologous sequences thereof;
- A6 represents an amino acid other than glycine;
- A7-A8-A9-A10-A11 represents an aminoacid sequence selected from
- KYIIY
- TNRKF
- KWCitKI
- CitRAVI - RCitGHS
- CitGRSR
- CitYIIY
- CitRLIR
- IERKR - FMRKP
- FMRRP
- ERNHA
- AVITA
- TPNRW - TYNRW
- RTPTR
- RIVVV
- HARPR
- RGMCitR - IRFPV and homologous sequences thereof; as well as analogues of the peptides with the formula (II) .
8. A peptide comprising a sequence with the formula (III) : (Bl-B2-B3-B4-B5-B6)-Cit-(B7)-(B8-B9-B10-Bll) (III) wherein
- B1-B2-B3-B4-B5-B6 is an aminoacid sequence selected from INCitRAS
- ICitKRLY - KCitCitYNI
- RLYFICit IRQGAR
- CitERCitVQ - CitHQRIT
- RICitRVCit
- GRNQRY
- RCitRQHP - CitCitRCitVA
- RPKQHV
- RKCitGCitR
- RCitCitRNT
- RCitQCitFT - QLVYLQ
QYNRFK
- CitLRHIR
- PRCitCitCitK
- RCitQVRY - GRCitHAH
- ARHVIR
- RCitGHMF
- GRNIRV QIFYLCit - RQGPIA GVYLVR
- NCitCitRRV KCitRLCitY
- GRRCitCitL - RMPHCitH and a homologous sequence thereof;
- B7 represents an amino acid other than glycine;
B8-B9-B10-B11 represents an aminoacid sequence selected from - CitHRR
- CitIRR
- FRRN
- AQTT
- GYPK - RPPQ
- GCitRK
- PIPR
- YTIH - RIKA
- CitRVR
- TRRP
- TIRP - IKCitR
- RNVV
- CitRRY
- CitRPR
- TRCitCit - CitCitGR
- LCitRCit
- RVRCit
- VPRT
- YCitFR - ARCitCit
- RQCitR
- HIRR
- CitMMR
- CitRICit - VRKS
- PCitCitR
- CitRRK and homologous sequences thereof; as well as functional analogues of the peptides with the for- mula (III) .
9. A peptide according to claim 7 or 8, characterised in that A6 and B7 independent of each other are selected from Cit, H, I, K, R, S, W, Y, M, F, V and P.
10. A peptide according to one of the claims 7 to 9, characterised in that the peptide is a cyclic peptide of which the ring comprises at least 8, 9, 10 or more than 10 amino acids .
11. A peptide according to claim 10, characterised in that the peptide is a cyclic peptide of which the ring comprises at least 11 amino acids.
12. A peptide according to one of the claims 7 to 11, characterised in that it comprises a peptide sequence selected from R H G R Q Cit Cit K Y I I Y
I R Cit Y K Cit I T N R K F
R H G R Q Cit Cit Cit Y I I Y
A R F Q M Cit H Cit R L I R Q Cit Y K W Cit K I E R K R
K P Y T V Cit K F M R K P
K P Y T V Cit K F M R R P
R N L R L Cit R E R N H A
R R R Cit Y Cit R A V I T A R F K S N Cit R T P N R W
R G K S N Cit R T Y N R W
R F K S N Cit R T Y N R W
R G K S N Cit R T P N R W
R W V S Q Cit R R T P T R M K P R Y Cit R R I V V V
K S F V W Cit S H A R P R
Y S F V W Cit S H A R P R
R N M N R Cit W R G M Cit R, and
R M G R P Cit W I R F P V or an analogue thereof
13. A peptide according to one of the claims 8 to
11, characterised in that it comprises a peptide sequence selected from
I N Cit R A S Cit K Cit H R R I Cit K R L Y Cit M Cit I R R
K Cit Cit Y N I Cit Cit F R R N
R L Y F I Cit Cit R A Q T T
I R Q G A R Cit R G Y P K
Cit E R Cit V Q Cit R R P P Q Cit H Q R I T Cit V G Cit R K
R I Cit R V Cit Cit T P I P R
G R N Q R Y Cit L Y T I H
R Cit R Q H P Cit H R I- K A
Cit Cit R Cit V A Cit F Cit R V R R P K Q H V Cit H T R R P
R K Cit G Cit R Cit Cit T I R P
R Cit Cit R N T Cit H I K Cit R
R Cit Q Cit F T Cit Cit R N V V Q L V Y L Q Cit Cit Cit R R Y
Q Y N R F K Cit Cit Cit R P R
Cit L R H I R Cit Q T R Cit Cit
P R Cit Cit Cit K Cit R Cit Cit G R R Cit Q V R Y Cit Cit L Cit R Cit
G R Cit H H Cit P R V R Cit
A R H V I R Cit Cit V P R T
R Cit G H M F Cit V Y Cit F R
G R N I R V Cit Cit A R Cit Cit Q I F Y L Cit Cit H R Q Cit R
R Q G P I A Cit L H I R R
G V Y L V R Cit L Cit M M R
N Cit Cit R R V Cit M Cit R I Cit
K Cit R L Cit Y Cit P V R K S G R R Cit Cit L Cit R P Cit Cit R
R M P H Cit H Cit S Cit R R K or an analogue thereof.
14. A peptide comprising a sequence with the formula
(IV)
(C1-C2) - (C3-C4-C5) -X-G-C6- (C7-C8-C9-C10) (IV)
wherein
C1-C2 is HQ, GF, EG or GV; C3-C4-C5 represents 3 amino acids of which at least 1, and preferably 2 independently of each other are basic, aromatic or V;
C6 is equal to a basic or aromatic amino acid, or equal to A,
G, E, P, V, S or Cit or analogue thereof; and C7-C8-C9-C10 is SRAA, SCitAA, RPLD, RWE or PGLD; as well as analogues of the peptide with the formula (IV).
15. A peptide according to claim 14, characterised in that the peptide is a cyclic peptide of which the ring comprises at least 8, 9, 10 or more than 10 amino acids.
16. A peptide according to claim 15, characterised in that the peptide is a cyclic peptide of which the ring comprises at least 11 amino acids.
17. A peptide according to one of the claims 14 to 16, characterised in that it comprises a sequence selected from
H Q R K W Cit GA S R A A
H Q H W R Cit G A S R A A H Q F R F Cit G Cit S RAA
H Q E R R Cit G E S R A A
H Q K W R Cit G F S R A A
H Q R W K Cit G G S R A A
H Q R R T Cit G G S R A A H Q R R G Cit G G S R A A
H Q Cit F R Cit G H S R A A
G F F S A Cit G H R P L D
H Q E R G Cit G K S R A A
H Q E K R Cit G K S R A A H Q R W L Cit G K S R A A
H Q K R N Cit G K S R A A
E G G G V Cit G P R V V E
H Q W R H Cit G R S Cit A A
H Q K W N Cit G R S R A A H Q K F W Cit G R S R A A
H Q K Cit K Cit G R S R A A
H Q K W R Cit G R S Cit A A
H Q A W R Cit G R S Cit A A
H Q N Q W Cit G R S R A A H Q N S K Cit G R S R A A
H Q K R R Cit G R S R A A
H Q K R F Cit G R S R A A
H Q K R Y Cit G R S R A A
H Q K R H Cit G R S R A A H Q E R A Cit G S S R A A
H Q E K M Cit G V S R A A
H Q K R G Cit G W S R A A
H Q R R V Cit G W S R A A
H Q W N R Cit G W S R A A H Q Q R M Cit G W S R A A
H Q S H R Cit G W S R A A
H Q F R F Cit G W S R A A
H Q K R R Cit G W S R A A G V K G H Cit G Y P G L D or an analogue thereof.
18. A multi-peptide, characterised in that it is a linear or branched multipeptide, comprising at least two lin- ear or cyclic peptide sequences selected independently of each other from - a peptide unit selected from peptide units with the formula
(II) and (III) and analogues thereof; a peptide unit with the formula (IV) and analogues thereof.
19. A diagnostic test kit for determining the presence of autoantibodies to rheumatoid arthritis, characterised in that it comprises a peptide according to the claims 7 to 17, or a multipeptide according to claim 18, or a mixture thereof, together with at least one further reagent.
20. A method method for the selection of a peptide suitable for the diagnosis of RA, wherein a peptide library is screened with antibodies obtained from patients with RA and wherein the peptide library is selected from a group comprised of:
Lib (1) : H Q E X X Cit X X S R A A
Wherein X = any amino acid except cysteine and tryptophane
Lib (2) : H Q X X X Cit G X S R/Cit A A Wherein X = any amino acid except cysteine but including Cit- rulline
Lib (3) : H Q E X X Cit X X S R/Cit A A
Wherein X = any amino acid except cysteine but including Cit- rulline
Lib (4) : X X X X X X Cit X X X X X
Wherein X = any amino acid except cysteine but including Cit- rulline or equivalents thereof.
21. A peptide that can be obtained with the aid of the method according to claim 20 to be used in a diagnostic assay.
PCT/NL2002/000815 2001-12-11 2002-12-11 Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assaykit WO2003050542A2 (en)

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AU2002354397A AU2002354397B2 (en) 2001-12-11 2002-12-11 Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
EP02786237A EP1456662B1 (en) 2001-12-11 2002-12-11 Detection of auto-antibodies from patients suffering from rheumatoid arthritis
SI200230389T SI1456662T1 (en) 2001-12-11 2002-12-11 Detection of auto-antibodies from patients suffering from rheumatoid arthritis
JP2003551544A JP4098718B2 (en) 2001-12-11 2002-12-11 Method, peptide and assay kit for detecting autoantibodies from patients suffering from rheumatoid arthritis
US10/497,667 US7888133B2 (en) 2001-12-11 2002-12-11 Method of detecting auto-antibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
CA2489167A CA2489167C (en) 2001-12-11 2002-12-11 Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assaykit
DE60212186T DE60212186T2 (en) 2001-12-11 2002-12-11 A method for detecting autoimmune bodies of patients suffering from rheumatoid arthritis, a peptide and a testing tool
BRPI0214872A BRPI0214872B8 (en) 2001-12-11 2002-12-11 peptide and multipeptide unit, ex vivo method for detecting autoantibodies from patients suffering from rheumatoid arthritis and for selecting a suitable peptide for the diagnosis of said disease, and diagnostic kit
HK05102287A HK1072805A1 (en) 2001-12-11 2005-03-15 Detection of auto-antibodies from patients suffering from rheumatoid arthritis
CY20061101278T CY1105537T1 (en) 2001-12-11 2006-09-07 DETECTION OF AUTO ANTIBODIES FROM PATIENTS SUFFERING FROM RHEUMATO ARTHRITIS
AU2006230702A AU2006230702A1 (en) 2001-12-11 2006-10-18 Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
AU2010200648A AU2010200648B2 (en) 2001-12-11 2010-02-22 Method of detecting autoantibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
US13/012,739 US8481332B2 (en) 2001-12-11 2011-01-24 Method of detecting auto-antibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
US13/920,017 US8759114B2 (en) 2001-12-11 2013-06-17 Method of detecting auto-antibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
US14/286,878 US9689871B2 (en) 2001-12-11 2014-05-23 Method of detecting auto-antibodies from patients suffering from rheumatoid arthritis, a peptide and an assay kit
US15/610,398 US10119966B2 (en) 2001-12-11 2017-05-31 Method of detecting auto-antibodies from patients suffering from rheumatoid arthritis, a peptide and assay kit
US16/178,848 US20190056393A1 (en) 2001-12-11 2018-11-02 Method of detecting auto-antibodies from patients suffering from rheumatoid arthritis, a peptide and assay kit

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US10119966B2 (en) 2018-11-06
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US8759114B2 (en) 2014-06-24
US20130267677A1 (en) 2013-10-10
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US20190056393A1 (en) 2019-02-21
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JP4098718B2 (en) 2008-06-11
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