US20030133933A1 - Novel integrin alpha subunit - Google Patents
Novel integrin alpha subunit Download PDFInfo
- Publication number
- US20030133933A1 US20030133933A1 US10/177,550 US17755002A US2003133933A1 US 20030133933 A1 US20030133933 A1 US 20030133933A1 US 17755002 A US17755002 A US 17755002A US 2003133933 A1 US2003133933 A1 US 2003133933A1
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- United States
- Prior art keywords
- leu
- sequence
- ser
- val
- ala
- Prior art date
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Classifications
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
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- 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
- C07K14/705—Receptors; Cell surface antigens; Cell surface determinants
- C07K14/70546—Integrin superfamily
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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
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/85—Vectors or expression systems specially adapted for eukaryotic hosts for animal cells
- C12N15/8509—Vectors or expression systems specially adapted for eukaryotic hosts for animal cells for producing genetically modified animals, e.g. transgenic
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2217/00—Genetically modified animals
- A01K2217/07—Animals genetically altered by homologous recombination
- A01K2217/075—Animals genetically altered by homologous recombination inducing loss of function, i.e. knock out
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2227/00—Animals characterised by species
- A01K2227/10—Mammal
- A01K2227/105—Murine
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2267/00—Animals characterised by purpose
- A01K2267/03—Animal model, e.g. for test or diseases
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
Definitions
- This invention relates to a novel integrin alpha chain; functionally-equivalent peptide fragments and analogs thereof; oligonucleotides encoding the peptide fragments and analogs; vectors containing and cell lines expressing the novel peptides; and methods for using the peptide fragments, analogs and oligonucleotides.
- integrin mediated adhesive interactions of cells with other cells and between cells and the extracellular matrix are believed to play critical roles in a wide variety of processes including, for example, modulation of the immune system, regulation of developmental processes and tumor progression and metastasis. These molecules also transduce information from the extracellular to the intracellular environment through poorly understood signalling mechanisms.
- the integrins represent one of the best characterized superfamilies of adhesion receptors. Integrins are glycoprotein heterodimers which contain a non-covalently associated ⁇ and ⁇ subunit.
- Integrin subunits are transmembrane proteins which contain an extracellular domain for interacting with an extracellular matrix or cellular component, a transmembrane domain spanning the cell membrane and a cytoplasmic domain for interacting with one or more cytoskeletal components.
- the ⁇ 1 subfamily includes seven members (also known as the VLA proteins: ⁇ 1 ⁇ 1 - ⁇ 7 ⁇ 1 ); the ⁇ 2 subfamily includes three members (the leukocyte cell adhesion molecules or LeuCAMs: ⁇ L ⁇ 2 or LPA-1, ⁇ H ⁇ 2 or Mac-1 and ⁇ X ⁇ 2 or p150,95) and the ⁇ 3 subfamily includes two members ( ⁇ V ⁇ 3 , ⁇ IIb ⁇ 3 ).
- an ⁇ chain may pair with more than one ⁇ chain, e.g., ⁇ 4 can pair with ⁇ 1 or ⁇ 7 .
- the integrin ⁇ chains have in common a seven-fold repeated amino acid motif, of which the last three or four motifs include divalent cation binding sites. All known ⁇ chains have been divided into one of two structural groups on the basis of amino acid sequence homology and the presence or absence of two structural features (described below).
- the first group of ⁇ chains contains a proteolytic cleavage site located in the extracellular domain, proximal to the transmembrane region.
- Post-translational cleavage of the ⁇ chain precursor yields two fragments which (with one exception) remain associated by a disulfide linkage.
- the smaller fragment includes a short portion of the extracellular domain, the transmembrane and the cytoplasmic domains.
- the larger fragment contains the major portion of the ⁇ chain extracellular domain.
- This group of post-translationally cleaved integrin ⁇ subunits includes ⁇ 3 , ⁇ 4 , ⁇ 5 , ⁇ 6 (formerly called ⁇ E ), ⁇ V and ⁇ IIb , although the ⁇ 4 molecule is a more distant member of the group since it is less similar to the other cleaved integrin ⁇ subunits based upon homology analysis, is cleaved near its mid-point to yield two fragments of nearly equal size and further, because the fragments are not disulfide linked (Teixido, J. et al., (1992) J. Biol. Chem. 267, 1786-1791; Rubio, M. et al., (1992) Eur. J. Immunol. 22, 1099-1102).
- the second group of integrin ⁇ subunits do not include the above-described proteolytic cleavage site. Moreover, the second group of ⁇ subunits is characterized by the presence of an additional region known as the “I” (inserted) domain. Homologous I domains have been identified in complement factors B and C2, von Willebrand's factor, cartilage matrix glycoprotein and collagen type VI.
- LAD leukocyte adhesion deficiency
- integrins and other adhesion molecules function in immune system modulation, e.g., by playing a role in the adhesion of peripheral lymphocytes to endothelium and in homing to lymph nodes.
- iIEL intra-epithelial T lymphocytes
- HML-1 human mucosal lymphocyte 1 antigen
- iIEL intestinal IEL
- lamina propria T lymphocytes which lie between the epithelial basement membrane and the muscularis mucosae
- the HML-1 antigen contains a novel ⁇ chain (designated ⁇ E for “epithelial associated”) associated with a ⁇ 7 chain (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A.
- HML-1 ⁇ 7 chain has been cloned (Yuan, Q. A. et al., (1990) Int. Immunol. 2, 1097-1108; Erle, D. J. et al., (1991) J. Biol. Chem. 266, 11009-11016), little is known about the primary structure of the ⁇ E chain.
- Cloning of the ⁇ E chain has proven to be problematic because of the difficulty in obtaining an adequate number of intra-epithelial cells from which the ⁇ E chain could be purified and sequenced.
- the relatively large length of the ⁇ E gene has hampered cloning efforts because of the propensity to lose the 5′ portion of relatively long genes during cDNA synthesis.
- the cDNA sequence and derived amino acid sequence (Sequence I.D. Nos. 1 and 2, Genbank Accession Number L25851) for the HML-1 ⁇ chain are disclosed herein.
- the ⁇ E chain was purified from a hairy cell leukemia spleen lysate and the N-termini of the purified protein fragments (25 kDa and 150 kDa) were sequenced to prepare degenerate oligonucleotide probes for screening a cDNA library.
- ⁇ E contains a region of 55 amino acids (referred to herein as the “X” (extra) domain or Sequence I.D. No. 4, encoded by Sequence I.D. No. 3) located N-terminal to the I domain. This region is not present in any other integrin.
- the X domain contains two unique structural features: (1) an internal proteolytic cleavage site (between amino acids 159 and 160 of Sequence I.D. No. 1) followed by (2) a highly charged region of 18 consecutive amino acids (amino acids 162-179).
- an internal proteolytic cleavage site between amino acids 159 and 160 of Sequence I.D. No. 1
- a highly charged region of 18 consecutive amino acids amino acids 162-179.
- two fragments are formed: a 26 kD fragment having a C-terminus which contains the 34 amino acids of the X domain N-terminus and a 150 kD fragment having an N-terminus which contains the 21 amino acids of the X domain C-terminus.
- the 21 amino acid portion of the X domain (referred to hereinafter as Sequence I.D. No. 5) includes the highly charged region of 18 consecutive amino-acids.
- the 34 amino acid portion of the X domain N-terminus is referred to hereinafter as Sequence I.D. No. 6.
- One aspect of the invention is directed to isolated peptides which inhibit the in vivo and in vitro function of the ⁇ E subunit.
- the peptides have sequences which are related to, or derived from, the amino acid sequence of the above-described X domain (Sequence I.D. No. 4), e.g., Sequence I.D. Nos. 5, 6 and functionally equivalent peptide analogs of the foregoing peptides.
- a method for selecting a functionally equivalent peptide analog of Sequence I.D. No. 4 includes providing a peptide analog of Sequence I.D. No. 4 and determining whether the peptide analog inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in vitro.
- the peptide analogs are between about four and about twenty amino acids in length. More preferably, the peptide analogs are between about four and about ten amino acids in length. Exemplary peptide analogs are disclosed in Sequence I.D. Nos. 8 through 25, inclusive.
- a method for screening a molecular library to identify lead compounds which inhibit the in vivo activity of the integrin ⁇ E chain includes determining whether the molecular library contains a compound which inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in vitro. Also provided is a competitive binding assay method for identifying lead compounds which mimic the ligand binding site of the integrin ⁇ E chain. The method involves determining whether the library contains a molecule which competitively inhibits the binding of the ⁇ E chain (or a functionally equivalent peptide fragment or analog thereof) to an antibody which specifically recognizes the ligand binding site of the ⁇ E chain.
- a pharmaceutical composition includes a therapeutically effective amount of one or more of the above-identified isolated peptides (e.g., Sequence I.D. No. 4, a fragment or functionally equivalent peptide analog thereof) and a pharmaceutically acceptable carrier therefor.
- the composition further includes the ⁇ 7 chain or a portion thereof in association with the above-identified isolated peptide.
- the pharmaceutical composition includes a therapeutically effective amount of one or more isolated oligonucleotides and a pharmaceutically acceptable carrier therefor.
- a support having a biologically active surface which exhibits cell attachment activity includes a surface to which is attached one or more of the above-disclosed peptides.
- exemplary supports include a prosthesis device (e.g., a vascular graft, a percutaneous device) and an affinity matrix (e.g., for isolating the ligand(s) of the ⁇ E subunit).
- a method for isolating a cell surface ligand of the integrin ⁇ E chain involves coupling Sequence I.D. No. 4, or a functionally equivalent fragment or peptide analog thereof (e.g., Sequence I.D. Nos. 5-6 and 8-25), to an inert support and isolating the cell surface ligand using affinity chromatography.
- antibodies to the isolated peptides or isolated oligonucleotides are provided.
- the antibodies are useful for blocking a functional activity of intra-epithelial T lymphocytes, such as an in vivo functional activity (e.g., localization of the T lymphocytes) or an in vitro functional activity (e.g., adhesion of intra-epithelial T lymphocytes to an epithelial cell monolayer as determined in an adhesion assay).
- the antibodies are useful as reagents in screening assays to identify lead compounds that are present in molecularly diverse libraries or other mixtures.
- an isolated oligonucleotide encodes a peptide selected from the group consisting of Sequence I.D. Nos. 4, 5, 6, 8, 9, 10, 11, 12, 13, 14, 35, 16, 17, 18, 19, 20, 21, 22, 23, 24 and 25.
- the isolated oligonucleotide comprises Sequence I.D. No. 7, an oligonucleotide which encodes Sequence I.D. No. 6.
- an isolated oligonucleotide that is capable of hybridizing under stringent conditions (defined below) to the nucleotide sequence residing between about position 555 and about position 656 of Sequence I.D. No. 1.
- This region of the ⁇ E cDNA encodes Sequence I.D. No. 6 (i.e., the relatively uncharged proteolytic cleavage fragment of the X domain).
- the isolated oligonucleotide is at least about 80% homologous with the above-recited nucleotide region of Sequence I.D. No. 1.
- the isolated oligonucleotide is 100% homologous with the nucleotide sequence residing between position 555 and position 656 (referred to hereinafter as Sequence I.D. No. 7) inclusive of the ⁇ E cDNA.
- an antisense oligonucleotide capable of hybridizing under stringent conditions to the above-described isolated oligonucleotide.
- the antisense oligonucleotide is capable of hybridizing to a unique fragment (defined below) of the naturally-occurring DNA or mRNA encoding the ⁇ E subunit. Accordingly, delivery of an antisense oligonucleotide to intra-epithelial lymphocytes in vivo inhibits localization of the lymphocytes by base-pairing with the DNA (or RNA) encoding a unique fragment of the ⁇ E nucleic acid, thereby preventing transcription (or translation) of the ⁇ E subunit.
- a recombinant expression vector comprising at least one strand of the above-disclosed isolated oligonucleotide and a cell line transfected with the recombinant expression vector.
- the oligonucleotide is operatively joined to at least one regulatory sequence, for example, a promoter or enhancer sequence.
- Suitable cell lines include mammalian cells; bacterial cells; insect cells and various yeast strains.
- FIG. 1 schematically illustrates the composite sequence for the integrin ⁇ E subunit cDNA clone and the sequencing strategy used to obtain the clone;
- FIG. 2 illustrates the similarity of the ⁇ E subunit with other integrin ⁇ subunits based upon generation of an integrin ⁇ subunit homology tree
- FIG. 3 illustrates the similarity of the ⁇ E subunit with other integrin ⁇ subunits based upon the determination of the percent similarity of the ⁇ E amino acid sequence to those of other integrin ⁇ subunits;
- FIG. 4 illustrates the immunoprecipitation of the ⁇ E subunit isolated from the HML-1 antigen with antiserum generated to the C-terminal peptide deduced from the ⁇ E cDNA
- FIG. 5 illustrates the Northern blot analysis to determine. the tissue distribution of ⁇ E and ⁇ 7 mRNA.
- the nucleic acid sequence and deduced amino acid sequence (Sequence I.D. Nos. 1 and 2) for a cDNA encoding the human integrin ⁇ E subunit are disclosed herein.
- the cDNA clone was obtained by: (1) isolating the ⁇ E subunit of the HML-1 antigen from a hairy cell leukemia spleen lysate and sequencing the N-terminus of the purified protein fragments (25 kDa and 150 kDa); (2) preparing degenerate oligonucleotide probes based upon the N-terminal amino acid sequences and screening a lambda Zap II cDNA library to obtain individual clones encoding portions of the ⁇ E subunit; (3) sequencing the individual cDNA clones and preparing a composite cDNA sequence based upon overlapping sequences of individual clones; and (4) deducing the amino acid sequence for the composite cDNA. Each of these steps is described in detail in the Examples.
- ⁇ E subunit Two features distinguish the ⁇ E subunit from previously reported alpha subunits.
- the ⁇ E subunit is cleaved into a smaller (25 kDa) fragment containing Sequence I.D. No. 6 and a larger (150 kDa) fragment containing Sequence I.D. No. 5.
- the sequence for the smaller fragment shows sequence homology to the known integrin alpha chain amino termini, suggesting that unlike most other integrin alpha subunits which are cleaved proximal to the C-terminus or near the mid-point of the precursor polypeptide, the ⁇ E precursor is cleaved proximal to the N-terminus.
- the N-terminal sequence for the larger (150 kDa) fragment contains a region of negatively charged residues (FIG. 1) which do not share sequence homology with any known integrin ⁇ subunit sequence.
- FIG. 1 the N-terminal sequence for the larger (150 kDa) fragment contains a region of negatively charged residues (FIG. 1) which do not share sequence homology with any known integrin ⁇ subunit sequence.
- these unique properties of the ⁇ E subunit result from the presence of an additional domain (the X domain) which contains an internal proteolytic cleavage site proximal to its N-terminus.
- oligonucleotide probes having sequences based upon the N-terminal amino acid sequences of the 150 and 25 kDa fragments, were used to screen a lambda Zap II cDNA library.
- the composite ⁇ E cDNA sequence represented schematically in FIG. 1, was established by sequencing individual clones (depicted by thick black lines beneath the composite cDNA) and aligning the overlapping sequences.
- nucleotide sequence of the composite cDNA and the deduced amino acid sequence are disclosed in Sequence I.D. Nos. 1 and 2, respectively. Alignment of the deduced amino acid sequence with the published sequences of other I domain-containing human integrin alpha subunits and the generation of a homology tree demonstrated substantial sequence homology between the I domain-containing subunits (FIGS. 2 and 3). However, the ⁇ E subunit is a relatively distant member of the integrin I domain-containing alpha subunit family, based upon both overall sequence homology and the inclusion of the X domain (indicated in bold italics in FIG. 1).
- sequence I.D. Nos. 1 including the signal sequence as indicated
- the X domain refers to the unique region of 55 amino acids located proximal to the N-terminus of the I domain in the ⁇ E subunit, i.e., amino acid position 126 through position 180 (encoded by nucleotide positions 555 through 719) inclusive of Sequence I.D. No. 1).
- Sequence I.D. No. 4 represents the deduced amino acid sequence of the X domain.
- Sequence I.D. No. 3 represents the oligonucleotide sequence encoding Sequence I.D. No. 4.
- the X domain contains a proteolytic cleavage site, located between amino acids 159 and 160 of sequence I.D. No.1, which distinguishes the ⁇ E subunit from all known integrin I domain-containing alpha subunits. Cleavage of the X domain (Sequence I.D. No. 4) yields two fragments designated Sequence I.D. Nos. 5 and 6. Sequence I.D. No. 5 contains a stretch of eighteen consecutive charged residues which are located immediately C-terminal to the cleavage site. Accordingly, the nucleic acid sequence which encodes Sequence I.D. No. 5 is identical to the coding sequence which encodes the N-terminal portion of the 150 kDa ⁇ E chain.
- the invention involves producing agents which modulate that adhesion and that are useful for treating autoimmune diseases that are characterized by lymphocyte accumulation at epithelial sites (e.g., ulcerative colitis, Crohn's disease, celiac disease, sarcoidosis, psoriasis, and the late phase component of asthma).
- autoimmune diseases e.g., ulcerative colitis, Crohn's disease, celiac disease, sarcoidosis, psoriasis, and the late phase component of asthma.
- agents also are useful for enhancing ⁇ E mediated adhesion, thereby permitting the design of more appropriate therapies for treating infectious diseases of epithelial sites (e.g., pulmonary tuberculosis, leprosy, cutaneous leishmaniosis, and parasitic or viral infections diseases of the intestinal tract) by increasing the function of mucosal intraepithelial lymphocytes or their localization to the epithelium.
- infectious diseases of epithelial sites e.g., pulmonary tuberculosis, leprosy, cutaneous leishmaniosis, and parasitic or viral infections diseases of the intestinal tract
- an isolated peptide that is capable of inhibiting the adhesion of ⁇ E ⁇ 7 to an epithelial cell in vitro also is provided.
- the isolated peptide has an amino acid sequence which is related to, or derived from, the amino acid sequence of the X domain (Sequence I.D. No. 4) of the ⁇ E subunit.
- the isolated peptide is selected from the group consisting of Sequence I.D. Nos. 4, 5, 6 and functionally equivalent peptide analogs of the foregoing peptides.
- the isolated peptide is Sequence I.D. No. 4, 5 or 6.
- isolated refers to an expression product of an isolated oligonucleotide; a peptide which is isolated following cleavage from a larger polypeptide; or a peptide that is synthesized, e.g., using solution and/or solid phase peptide synthesis methods as disclosed in, for example, U.S. Pat. No. 5,120,830, the entire contents of which are incorporated herein by reference.
- peptide analog refers to a peptide which shares a common structural feature with the molecule to which it is deemed to be an analog.
- a functionally equivalent peptide analog is a peptide analog which further shares a common functional activity (e.g., inhibiting the adhesion between an intra-epithelial T lymphocyte and an epithelial cell in vitro) with the molecule to which it is deemed an analog.
- Peptide analogs include unique fragments which are related to, or derived from, Sequence I.D. No. 4, polymers of Sequence I.D. No. 4, and polymers of unique fragments of Sequence I.D. No. 4.
- a “unique fragment” of a protein or nucleic acid sequence is a fragment which is not currently known to occur elsewhere in nature (except in allelic or allelomorphic variants). Unique fragments act as a “signature” of the gene or protein from Which they are derived. A unique fragment will generally exceed 15 nucleotides or 5 amino acids.
- Genbank Genbank
- EMBL EMBL
- SWISS-PROT One of ordinary skill in the art can readily identify unique fragments by searching available computer databases of nucleic acid and protein sequences such as Genbank, (Los Alamos National Laboratories, USA), EMBL, or SWISS-PROT. A unique fragment is particularly useful, for example, in generating monoclonal antibodies or in screening genomic DNA or cDNA libraries.
- the peptide analogs contain between about four and about twenty amino acids. More preferably, the peptide analogs contain between about four and about ten amino acids.
- Exemplary peptide analogs which are fragments of Sequence I.D. Nos. 4 and 5 are provided in Table 1. TABLE 1 Peptide Analogs (fragments of Sequence I.D. Nos. 4 and 5) EKEEEEDKEE (Sequence I.D. No. 8) KEEEEDKEEE (Sequence I.D. No. 9) EEEEDKEEEE (Sequence I.D. No. 10) EEEDKEEEED (Sequence I.D. No. 11) EEDKEEEEDE (Sequence I.D.
- “conservative amino acid substitution” refers to an amino acid substitution which does not alter the relative charge or size characteristics of the peptide in which the amino acid substitution is made.
- Conservative substitutions of amino acids include substitutions made amongst amino acids within the following groups: (a) MILV; (b) FYW; (c:) KRH; (d) AG; (e) ST; (f) QN; and (g) ED.
- Exemplary peptide analogs of Sequence I.D. No. 5 which include conservative amino acid substitutions (e.g., E for D and/or K for N) are provided in Table2. TABLE 2 Peptide Analogs having Conservative Amino Acid Substitutions EKEEEEDEEEEE (Sequence I.D. No. 22) DKDDDDDDDDDD (Sequence I.D. No. 23) EDEEEEEEEEEEEEEEEEEEEE (Sequence I.D. No. 24) ENEEEEDNEEEED (Sequence I.D. No. 25)
- the term “functionally equivalent peptide analog” refers to a peptide analog that is capable of inhibiting the binding of an intra-epithelial T lymphocyte to an epithelial cell in vitro.
- An in vitro adhesion assay (see, e.g., the adhesion assay provided in the Examples) is used as a screening assay to measure the ability of a molecule, e.g., a peptide analog, to inhibit ⁇ E ⁇ 7 -mediated adhesion between an intra-epithelial T lymphocyte and an epithelial monolayer in culture and is predictive of the ability of a molecule to inhibit the functional activity of the novel ⁇ E ⁇ 7 subunit in vivo.
- a “functionally equivalent peptide analog” of Sequence I.D. No. 4 includes fragments of Sequence I.D. No. 4, as well as peptide analogs of Sequence I.D. Nos. 4-6 which contain conservative amino acid substitutions, provided that the peptide fragments and analogs are capable of inhibiting adhesion of a human intra-epithelial lymphocyte to an epithelial cell.
- a method for selecting a functionally equivalent peptide analog of Sequence I.D. No. 4 involves providing a peptide analog of Sequence I.D. No. 4 and determining whether the peptide analog inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in vitro.
- the functionally equivalent peptide analogs are fragments of Sequence I.D. No. 4 containing between about four and about twelve amino acids and having about the same isoelectric point as sequence I.D. No. 5 (see, e.g., Table 1, above).
- a method for screening a molecular library to identify pharmaceutical lead molecules, i.e., molecules which inhibit the adhesion between an intra-epithelial T lymphocyte and an epithelial cell in vitro.
- a molecular library refers to a collection of structurally-diverse molecules and includes both recombinantly-produced and chemically-synthesized libraries.
- library molecule refers to a molecule that is present in the molecular library.
- screening refers to the process by which library molecules are tested for the ability to inhibit the adhesion between an intra-epithelial T lymphocyte and an epithelial cell or the ligand binding activity of the ⁇ E ⁇ 7 subunit.
- the ability of a molecule to inhibit the binding of a mucosal T-lymphocyte (or the ⁇ E ⁇ 7 subunit) to an epithelial cell in vitro can be used as a screening assay to identify lead compounds.
- a particularly preferred screening method involves determining whether the library molecule (or peptide analog) inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in culture.
- adhesion assays are well known in the art and are illustrated by the assay provided in the Examples.
- antibodies which specifically recognize the ligand binding site of the ⁇ E ⁇ 7 integrin can be used to screen combinatorial libraries (e.g., by contacting the library with the antibody and determining whether the library contains a molecule which competitively inhibits binding of the antibody to a peptide known to contain the ligand binding site).
- Such competitive binding assays also can be used to assess the relative affinity of the library molecule for its cognate (e.g., a ligand present on an epithelial cell).
- Antibodies to the ligand binding site also can be used to purify the integrin heterodimer or its subunits which bind to ligand expressed on the epithelial cell.
- compositions for modulating the functional activity of the ⁇ E ⁇ 7 integrin in vivo are provided.
- One method involves administering a pharmaceutical composition containing a therapeutically effective amount of the isolated peptides and/or oligonucleotides of the invention.
- the therapeutically effective amount is between about 1 ug and about 100 mg/kg.
- the preferred amount can be determined by one of ordinary skill in the art in accordance with standard practice for determining optimum dosage levels of the agent.
- the peptides (and/or oligonucleotides) are formulated into a pharmaceutical composition by combination with an appropriated pharmaceutically acceptable carrier.
- the peptides may be used in the form of their pharmaceutically acceptable salts, or may be used alone or in appropriate association, as well as in combination with other pharmaceutically active compounds.
- the peptides may be formulated into preparations in solid, semisolid, liquid or gaseous form such as tablets, capsules, powders, granules, ointments, solutions, suppositories, and injections, in usual ways for oral, parenteral, or surgical administration.
- Exemplary pharmaceutically acceptable carriers are described in U.S. Pat. No. 5,211,657, the entire contents of which patent are incorporated herein by reference.
- the invention also includes locally administering the composition as an implant or any part of it either alone or bound to a synthetic material, such as a vascular prosthesis.
- a support e.g., nitrocellulose, polyester, polyvinyl, polystyrene or a ceramic
- a biologically active surface which exhibits cell attachment activity refers to a support to which is attached at least one of the above-identified isolated peptides. Attachment of the peptides confers upon the support surface the ability to attach cells, and in particular, the ability to attach epithelial cells.
- Methods for preparing a biologically active surface by coupling a peptide to an inert surface are disclosed in U.S. Pat. No. 5,211,657, the contents of which have been incorporated herein by reference.
- the peptides are coupled to plastic surfaces for in vitro use (e.g., for cell culture in which it is desirable to attach cells to a culture vesicle), to a prosthesis such as a vascular prosthesis or other artificial organ to make the synthetic materials more biocompatible and to allow the cells to adhere and grow or to an affinity matrix.
- the peptides are incorporated into a polymer during the polymerization process, rather than attached to the surface of a previously formed inert support.
- a method for isolating a ligand for the integrin ⁇ E ⁇ 7 subunit from detergent extracts of cells or cell membranes includes (1) specifically adsorbing the ligand to an affinity matrix having Sequence I.D. No. 4 or a functionally equivalent peptide analog thereof coupled to the matrix to form a ligand-adsorbed affinity matrix, and (2) adding to the ligand-adsorbed affinity matrix a plurality of peptides selected from the group consisting of Sequence I.D. No. 4 and a functionally equivalent peptide analog of Sequence I.D. No. 5 to specifically elute the ligand from the affinity matrix.
- the peptide coupled to the matrix is Sequence I.D. No. 4, 5 or 6.
- affinity matrix refers to an inert support to which molecules can be covalently attached in a manner such that the ligand binding portion of the molecule is exposed.
- the methods for coupling a molecule (e.g., a peptide) to an affinity matrix are determined by the nature of the functional groups present on the molecule and on the matrix (e.g., amine groups, carboxyl groups).
- the peptide can be derivatized (according to standard procedures known in the art) to include additional functional groups to facilitate the coupling of the peptide to thee matrix in a desired orientation.
- matrices are sold in an activated form for coupling to a specified class of functional groups. In such instances, instructions for coupling a molecule to the matrix are provided by the matrix manufacturer. Numerous types of coupling methods to a variety of inert supports are well known to those of ordinary skill in the art.
- an antibody specific for the ⁇ E subunit is provided.
- the antibodies are raised against the above-identified isolated peptides and/or fusion peptides using well known immunization techniques (see, e.g., the Examples: generation of an antibody to the synthetic C-terminal peptide predicted from the ⁇ E cDNA).
- the antibody specifically recognizes an antigen selected from the group consisting of the X domain (Sequence I.D. No. 4) and fragments or equivalents of the X domain.
- the peptides are selected from the group consisting of Sequence I.D. Nos. 4-6 and 8-21.
- the antibodies are useful in screening assays for identifying pharmaceutical lead compounds which inhibit the adhesion of an intra-epithelial T lymphocyte to an epithelial cell.
- the antibodies also are useful in vivo for blocking cell adhesion and localization of intra-epithelial T lymphocytes and for example, targeting a toxin (e.g., ricin) or detectable agent (e.g., a radiolabel, a fluorescent label, an enzyme label) to cells (e.g., intra-epithelial lymphocytes) containing the ⁇ E subunit.
- a toxin e.g., ricin
- detectable agent e.g., a radiolabel, a fluorescent label, an enzyme label
- the invention also provides isolated oligonucleotides (e.g., Sequence I.D. No. 3) that encode the X domain (Sequence I.D. No. 4), its proteolytic fragments (Sequence I.D. Nos. 5 and 6) and the above-described functionally equivalent peptide analogs of the foregoing amino acid sequences (Sequence I.D. Nos. 8-25).
- isolated oligonucleotides e.g., Sequence I.D. No. 3
- sequence I.D. 4 encode the X domain
- proteolytic fragments Sequence I.D. Nos. 5 and 6
- the above-described functionally equivalent peptide analogs of the foregoing amino acid sequences (Sequence I.D. Nos. 8-25).
- the term “isolated” in reference to an oligonucleotide means an RNA or DNA polymer, portion of genomic nucleic acid, cDNA or synthetic nucleic acid which, by virtue of its origin or manipulation: (a) is not associated with all of a nucleic acid with which it is associated in nature (e.g., is present in a host cell as a portion of an expression vector); or (b) is linked to a nucleic acid or other chemical moiety other than that to which it is linked in nature; or (c) does not occur in nature.
- isolated it is further meant a nucleic acid sequence: (i) amplified in vitro by, for example, the polymerase chain reaction (PCR); (ii) synthesized by, for example, chemical synthesis; (iii) recombinantly produced by cloning; or (iv) purified from a more complex molecule or from a mixture of molecules, such as by cleavage and size fractionation. Due to the degeneracy of the genetic code, many different oligonucleotide sequences can be identified which encode Sequence I.D. Nos. 4-6 and 8-25.
- PCR polymerase chain reaction
- the invention embraces oligonucleotides which encode the X domain (as well as its fragments, but which have nucleotide sequences which differ from the sequences of the naturally-occurring ⁇ E gene or from the cDNA disclosed in Sequence I.D. No. 1.
- the invention also provides an isolated oligonucleotide that is capable of hybridizing under stringent conditions to the nucleotide sequence residing between position 555 and position 719 inclusive of Sequence I.D. No. 1 (i.e., the region of the ⁇ E cDNA which encodes the X domain (Sequence I.D. No. 4)).
- hybridizing under stringent conditions is a term of art which refers to the conditions of temperature and buffer concentration which will permit hybridization of a particular oligonucleotide or nucleic acid to its complementary sequence and not to non-complementary sequences.
- Stringent hybridization conditions depend upon the length of the nucleic acid sequence and the frequency of occurrence of subsets of that sequence within other non-identical sequences. By varying hybridiation conditions from a level of stringency at which no hybridization conditions occurs to a level at which hybridization is first observed, one of ordinary skill in the art can, without undue experimentation, determine conditions which will allow a given sequence to hybridize only with identical sequences. Suitable ranges of such stringency conditions are described in Krause, M. H. and S. A. Aaronson, Methods in Enzymology, 200:546-556 (1991). Stringent hybridization conditions, depending upon the length and commonality of a sequence, may include hybridization conditions of from 30 to 60 degrees C.
- Highly stringent hybridization conditions may include hybridization at 45 degree C. and 0.1 SSC. Less than stringent conditions are employed to isolate nucleic acid sequences which are substantially similar, allelic or homologous to any given sequence.
- the isolated oligonucleotide is 100% homologous with the nucleotide sequence residing between position 555 and position 719 inclusive of Sequence I.D. No. 1. Exemplary high stringency hybridization conditions are provided in the Examples.
- the isolated oligonucleotide is capable of hybridizing under stringent conditions to a unique fragment of the nucleotide sequence residing between positions 555 and 719 of Sequence I. D. No.1.
- unique fragment refers to a nucleic acid sequence having less than 25% sequence homology with previously identified nucleic acid sequences. More preferably, the unique fragments have less than 10% sequence homology with known nucleic acid sequences.
- unique fragments can be identified by searching the Genbank, PIR and/or Swiss-Prot data bases (e.g., release date Jan. 20, 1994) using the Eugene program available through the Harvard Molecular Biology Core Research Resource, Cambridge, Mass.
- intranuclear DNA binding proteins and intracytoplasmic proteins were identified as having some degree of sequence homology with the X domain. These proteins included neurofilament triplet M protein, nucleolin, troponin T, alphaglobulin type B precursor (tandem 1), legumin B LegJ precursor, major centromere autoantigen CENP-B, calreticulin precursor (clone 3) and non-histone chromosomal protein HMG-1. These proteins had, at most, about 50% sequence homology over 35 amino acids or about 35% sequence homology over 54 amino acids. The regions of sequence homology were located in the negatively charged, glutamate-rich region, with less than 20% sequence homology observed for the relatively uncharged portion of the X domain (Sequence I.D. No. 6).
- Sequence I.D. Nos. 6 and 7 are deemed to be unique fragments of the ⁇ E subunit amino acid and nucleotide sequences, respectively.
- the isolated oligonucleotide is Sequence I.D. No. 7 (the sequence corresponding to nucleotides 555 through 656 inclusive of the ⁇ E cDNA). The unique fragments are useful, for example, as probes and primers in nucleic acid hybridization assays and in amplification reactions, respectively.
- the preferred oligonucleotide is an antisense oligonucleotide between about 10 and about 100 nucleotides in length.
- the antisense oligonucleotide is capable of hybridizing under high stringency conditions to the above-described unique fragments of Sequence I.D. No. 1.
- “antisense oligonucleotide” refers to an oligonucleotide (DNA and/or RNA) that is capable of hybridizing to the naturally-occurring DNA or mRNA encoding the novel ⁇ E subunit of human integrin.
- the antisense oligonucleotide is capable of hybridizing in vivo to the nucleotide sequence residing between positions 555 and 656 inclusive of Sequence I.D. No. 1 or its transcription product. Base-pairing of the antisense oligonucleotide with the DNA (or RNA) encoding the uncharged region of the ⁇ E subunit in vivo, prevents localization of intra-epithelial lymphocytes by preventing transcription (or translation) of the ⁇ E subunit.
- oligonucleotides in a suitable expression system including a host cell are well known to those of ordinary skill in the art (see, e.g., Sambrook, et al., Molecular Cloning, A Laboratory Manual, 2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y. (1989)).
- the term “host cell” refers to a prokaryotic or eukaryotic cell which, together with a recombinant vector, comprises an expression system.
- the term host cell also embraces a host cell in which the vector or isolated oligonucleotide has integrated into the host cell nucleic acid.
- the expression vector includes at least one strand of the above-disclosed isolated oligonucleotide.
- the oligonucleotide is operatively joined to at least one regulatory sequence, e.g., a promoter sequence, an enhancer sequence.
- a coding sequence e.g., the isolated oligonucleotide
- a regulatory sequence are said to be operably joined when they are linked in such a way as to place expression of the coding sequence under the influence or control of the regulatory sequence.
- Suitable cell lines include mammalian cells (e.g., Chinese hamster ovary cells (CHO), monkey COS-1 cell); bacterial cells (e.g., E. coli, B. subtilis and Pseudomonas strains); insect cells (e.g., SF9) and various yeast strains. Exemplary procedures for obtaining expression of a foreign gene in the above-identified cell lines are disclosed in U.S. Pat. No. 5,211,657, the entire contents of which are incorporated herein by reference.
- mammalian cells e.g., Chinese hamster ovary cells (CHO), monkey COS-1 cell
- bacterial cells e.g., E. coli, B. subtilis and Pseudomonas strains
- insect cells e.g., SF9
- Example 1 The methodology for construction, isolation and characterization of the integrin ⁇ E cDNA clone of the present invention is described in detail in Example 1.
- the HML-1 ⁇ subunit 150 kDa and 25 kDa fragments were visualized by Coomassie blue staining and sequenced using an Applied Biosystems model 470A gas-phase sequencer equipped with a model 120A phenylthiohydantoin amino-acid sequencer (Harvard Microsequencing Facility, Cambridge, Mass.). Approximately 9 pMol of the 150 kDa fragment and 19 pMol of the 25 kDa fragment were analyzed.
- RNA was prepared using the urea/LiCl method (Auffray, C. et al., (1980) Eur. J. Biochem 107, 303-314) from 3 ⁇ 10 6 IEL that had been cultured for 5 days with 2 ng/ml TGF- ⁇ 1 (gift of Celtrix, Palo Alto, Calif.).
- Poly (A) RNA was selected and cDNA wash synthesized from this RNA in the presence of methylmercuric hydroxide using both random oligonucleotides as well as poly d(T) as primers.
- the cDNA was size fractionated to selectively remove low molecular weight species (under 500 bp) and the two types of cDNA were mixed, methylated, and ligated into the lambda zapII vector (stratagene, La Jolla, Calif.).
- the library contained inserts ranging from 0.6-5 kb, with 1.4 ⁇ 10 6 independent clones (Clontech laboratories Inc., Palo Alto, Calif.).
- Each subsequent screening was performed with cDNA restriction fragments isolated from clones identified in earlier screenings. These restriction fragments were labelled using random-priming hexamers, and the filters were hybridized under stringent conditions in 4.8 ⁇ SSC, 50 mM HEPES, pH 7, 0.5% (w/v) SDS, 5 ⁇ Denhardt's solution, 50% formamide, and 200 ug/ml sheared denatured salmon sperm DNA (Sigma). Filters were stringently washed in 0.2% SSC, 0.1% SDS, at 37° C. for 1 hour.
- HML-1 human anti-human ⁇ E ⁇ 7 IgG2a
- Ber-ACT8 mouse anti-human ⁇ E ⁇ 7 , IgG1
- OKT3 mouse anti-human CD3, IgG2a, available from American Type Culture Collection (ATCC), Bethesda, Md.
- OKT4 mouse anti-human CD4, IgG2b, ATCC
- OKT8 mouse anti-human CD8*, ATCC
- 64.1 mouse anti-human CD3 (Hansen, J. A. et al., (1984) in Leukocyte typing: Human Leukocyte Differentiation Antigens detected by Monoclonal antibodies, 195-212
- SPV-T3b mouse anti-human CD3, IgG2a
- a peptide was synthesized corresponding to residues 1136-1160 deduced to lie in the ⁇ E cytoplasmic tail, with an added cysteine residue at the amino terminus of the peptide to permit coupling to carrier protein.
- the peptide was conjugated to keyhole limpet hemocyanin (Pierce, Rockford, Ill.), using the heterobifunctional cross linking agent, m-Maleimidobenzoyl-N-hydroxysulfosuccinimide (Pierce), according to the manufacturer's instructions.
- Rabbit antisera were generated by immunization with the conjugated ⁇ E 1136-1160 peptide using standard protocols (Harlow, E. et al., (1988) Antibodies: A Laboratory Manual, Cold Spring Harbor Laboratory Press).
- a peptide was synthesized containing ALEKEEEEDKEEEEDEEEEEEEC (i.e., Sequence I.D. No. 5 with an added cysteine residue at the carboxy-terminus of the peptide to permit coupling to carrier protein) and antibodies were generated using the same protocol as described above for generating peptides to the ⁇ E C-terminal peptide.
- the antiserum produced thereby was capable of immunoprecipitating the ⁇ E ⁇ 7 heterodimer.
- iIEL lines were derived and cultured as previously described (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470).
- Cultured tumor lines (PEER, MOLT 4, MOLT 13, MOLT 17, HPB-ALL, HUT 78, JY′, VA2, RD, HeLa, A431) were maintained in RPMI-1640 (GIBCO, Grand Island, N.Y.) containing 10% fetal bovine serum (Hyclone, Logan, Utah).
- the epithelial cell line 16E6.A5 was maintained in DFCI-1 medium (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470).
- PBMC peripheral blood mononuclear cells
- monocytes were isolated by adherence to polystyrene tissue culture flasks (Porcelli, S. et al., (1992) Nature 360, 593-597) and used to prepare RNA (see below).
- RNA see below.
- a fraction of the adherent cells in a separate flask were detached by incubation at 37° C.
- T lymphocytes were isolated from the non-adherent PBMC using an anti-CD3 antibody, 64.1, and positive selection by magnetic bead separation (Dynabeads M-450, Dynal A. S., Oslo, Norway) according to the maanufacturer's instructions. To isolate B lymphocytes, surgically removed fresh tonsils were teased into fragments with forceps and forced through a wire mesh.
- Tonsillar B cells were further purified by depleting T lymphocytes with mAbs recognizing CD3 (64.1), CD4 (OKT4) and CD8 (OKT8) and negative selection by magnetic bead selection. An aliquot of the negatively selected population was analyzed by flow dytometry: 97% were positive with anti-CD19+anti-CD20 mAbs (HB-12b and B1) and 1.3% were positive with anti-CD3 (SPV-T3b).
- Neutrophils were purified from peripheral blood as previously described (Neuman, E. et al., (1992) J. Immunol. 148, 3520-3527). Differential analysis was performed using Wright's/Giemsa stained cytospin preparations, and revealed 92% neutrophils, with 8% eosinophils.
- TGF- ⁇ 1 treated cultured iIEL 35 ⁇ 10 6 cells were surface radioiodinated with 1 mCi of Na 125 I using lactoperoxidase, lysed in 1 ml of 0.5% Triton-X100, 8 mM iodoacetamide, 10 mM phenylmethylsulfonyl fluoride in TBS (50 mM tris-Cl, pH 7.6, 140 mM NaCl), and precleared with 4 ul normal rabbit serum, followed by 200 ul of Staphylococcal A Cowan I.
- the immune complexes were washed five times in wash buffer (0.1% v/v Triton-X100/TBS), eluted with sample buffer (5% glycerol, 1.5% (w/v) SDS, 0.2% (w/v) brombphenol blue, 188 mM tris-Cl pH 8.8) and resolved on a 7% denaturing polyacrylamide gel under non-reducing conditions (Hochstenbach, F. et al., (1988) J. Exp. Med. 168, 761-776).
- Blots were hybridized at 42° C. in 5 ⁇ SSPE (Sambrook, J. et al., (1989) Molecular Cloning: A Laboratory Manual, 2nd Ed., Cold Spring Harbor Laboratory Press), 10 ⁇ Denhardt's solution, 50% (v/v) formamide, 2% (w/v) SDS, and 100 ug/ml salmon sperm DNA. Blots were washed in 0.1 ⁇ SSC, 0.1% (w/v) SDS, at 50° C., for one hour.
- the probes used to analyze the Northern blots included the ⁇ E cDNA probe which consisted of two restriction fragments in approximately equimolar amounts and spanning approximately 1 ⁇ 3 of the deduced coding seguence, extending from nucleotide 1915-2394 (1-39A Apa I-BamH I) and 2394-3084 (1-349A BamH I-EcoR I).
- the ⁇ 7 probe extended from nucleotide 47-2801 of the published seguence (Yuan, Q. A. et al., (1990) Int. Immunol. 2, 1097-1108).
- GAP glyceraldehyde 3-phosphate dehydrogenase
- the HML-1 ( ⁇ E ⁇ 7 ) complex was purified from a hairy cell leukemia spleen lysate by immunoaffinity column chromatography, followed by two stages of SDS-PAGE (see Materials and Methods).
- the ⁇ E subunit resolved under reducing conditions into 150 kDa and 25 kDA fragments.
- a sequence of 20 amino acids was determined from the N-terminus of the 25 kDa fragment (FIG. 1). Surprisingly, it was this sequence, not that from the 150 kDa fragment, which bore homology to known integrin ⁇ chain amino termini.
- a lambda Zap II cDNA library was synthesized from TGF-betal treated iIEL mRNA using both oligo d(T) and random priming. Based on the amino acid sequence obtained from the 150 and 25 kDa fragments, corresponding degenerate oligonucleotides were synthesized, one from each, and were used to screen the library (FIG. 1). Analysis of 420,000 phage plaques resulted in the identification of one cDNA clone, 38, that hybridized with both olignucleotides. This clone was purified and the insert cDNA was sequenced.
- Extraneous sequences on the ends of the individual clones (broken lines) and sequences determined from insert ends or from deletion clones (horizontal arrows) also are illustrated in FIG. 1.
- regions where the nucleotide sequence encoding ⁇ E differed between clones short stretches of other cDNA clones were used to establish a consensus. Two of these changes did not result in a frameshift in the open reading frame and may stem from genuine polymorphisms amongst alleles of ⁇ E . Alternatively, differences may represent artifactual point mutations in the cDNA clones generated during synthesis of the cDNA library or in its subsequent propagation.
- cytosine was replaced by adenosine in about one-third of the clones, resulting in a change in amino acid 341 from aspartic acid (D) to glutamic acid (E).
- cytosine was deleted in approximately one-sixth of the clones, resulting in a frameshift.
- guanosine was replaced by cytosine in about one-fifth of the clones, resulting in a change in amino acid 1022 from cysteine (C) to serine (S).
- a total of 3.9 kb of composite cDNA sequence was determined, which contained a 3.5 kb open reading frame (see Sequence I.D. Nos. 1 and 2).
- the 125 bp 5′ untranslated region ended with a sequence characteristic of a translation initiation site (Hogervorst, F. et al., (1991) Eur. J. Biochem, 199, 425-433) and a methionine codon. (Sequence I.D. No. 1).
- This presumed initiation codon was the first residue in a stretch of 18 hydrophobic amino acids that was inferred to encode a signal sequence.
- This sequence ended in accordance with the ( ⁇ 3, ⁇ 1) rule of von Heijne (von Heijne, G.
- the deduced N terminus of the larger, 150 kDa, fragment was characterized by a highly charged sequence (Sequence I.D. No. 1, amino acids 160-179). Following the first two amino acids of this fragment (AL), 16 out of the following 18 amino acids were acidic and the remaining two were basic. Within the 150 kDa fragment deduced amino acid sequence, nine potential N-linked glycosylation sites were found, making a total of ten in the entire ⁇ E sequence. A region of 23 hydrophobic amino acids (amino acids 1106-1128, Sequence I.D. No. 1) was predicted to encode a transmembrane region, followed by a cytoplasmic tail of 32 residues and a stop codon.
- the composite ⁇ E cDNA predicted a typical type I transmembrane protein that was post-translationally cleaved towards the N terminus.
- the 270 bp of the predicted 3′ untranslated sequence included a consensus polyadenylation signal (Sequence I.D. No. 1, aataaa) and a poly(A) tail.
- the deduced amino acid sequence predicted a small fragment with a size of 20 kDa, allowing 2.5 kDa for its single potential N-linked glycosylation site. This value approximated the observed migration in SDS-PAGE of the smaller ⁇ E subunit (25 kDa). With nine N-linked glycosylation sites, the predicted molecular mass for the larger fragment was 133 kDa, somewhat smaller that the estimate from SDS-PAGE of 150 kDa. This discrepancy between predicted molecular mass and migration in SDS-PAGE is similar to that observed for other integrin ⁇ subunits (Tamura, R. N. et al., (1990) J. Cell. Biol.
- a homology tree was generated with the deduced amino acid sequence of at ⁇ E compared to those of other integrin ⁇ subunits, using the computer program PILEUP.
- the program was executed both with complete sequences, as well as the sequences from with all I domains, and the X domain of ⁇ E were removed. This was done to facilitate computer alignment of I domain containing integrin a subunits with those that lack this region.
- the overall shape of the homology tree generated was similar, although the branch point of ⁇ E was slightly more closely related to the ⁇ 2 associated ⁇ chains ( ⁇ L , ⁇ H , ⁇ X ) than the ⁇ 1 associated ⁇ chains ( ⁇ 1 and ⁇ 2 ) (FIGS. 2 and 3).
- a rabbit polyclonal antiserum was generated to a synthetic peptide corresponding to residues 1136-1160 of the deduced ⁇ E amino acid sequence.
- This anti- ⁇ E C-terminal peptide antiserum was used to immunoprecipitate polypeptides from a lysate of 125 I-labelled cultured iIEL.
- This immunoprecipitate was resolved by SDS-PAGE under non-reducing conditions, a complex of polypeptides was observed, indistinguishable from that immunoprecipitated by the HML-1 mAb. This included the 175 kDa ⁇ E subunit, the 105 kDa ⁇ 7 subunit, and two less well visualized intermediate sized polypeptides of 155 and 135 kDa (FIG. 4, lanes 2 and 3).
- the HML-1 complex was isolated by immunoprecipitation with the HML-1 mAb followed by elution of the component chains with SDS and heat. Equal aliquots of this immunoprecipitated and chain separated HML-1 complex were then reprecipitated with the HML-1 mAb, the anti- ⁇ E C-terminal peptide antiserum, or an anti- ⁇ 7 C-terminal peptide antiserum (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1924-1928) and resolved by SDS-PAGE under non-reducing conditions.
- the anti- ⁇ 7 antiserum reprecipitated the 105 kDa ⁇ 7 polypeptide, but not the other species (FIG. 4, lane 6).
- the anti- ⁇ E antiserum reprecipitated the ⁇ E 175 kDa polypeptide as well as the 155 and 135 kDa species, but not the 105 kDa ⁇ 7 polypeptide (FIG. 4, lane 5). This indicated that the ⁇ E -antiserum recognized a polypeptide that was not only similar in size to, but also immunochemically cross-reactive with the polypeptides of 175, 155 and 135 kDa, recognized by the HML-1 mAb.
- ⁇ E cDNA probe which spanned 1.2 kb of the coding sequence was used to analyze the distribution of ⁇ E mRNA in normal tissues and in in vitro cultured lines.
- Freshly isolated human iIEL serve as a model of fresh iIEL in their surface expression of adhesion molecules (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470).
- Northern blot analysis of RNA from a TGF- ⁇ 1 treated iIEL line indicated a single species of 4.5 kb that hybridized strongly with the ⁇ E cDNA probe (FIG. 5A, seen as a broad smear in this exposure).
- RNA from the malignant hairy cell leukemia infiltrated spleen used to isolate protein for N-terminal amino acid sequencing.
- Moderate to low levels of the ⁇ E mRNA were also detected in poly (A) enriched RNA from a range of normal human tissues (FIG. 5B) including lung, pancreas, spleen, thymus, prostate, testis, ovary, small intestine, colon, and peripheral blood leukocytes.
- FOG. 5B normal human tissues
- RNA from peripheral blood monocytes and T cells as well as from tonsillar ⁇ cells, but not from neutrophils
- FIG. 5C RNA from peripheral blood monocytes and T cells, as well as from tonsillar ⁇ cells, but not from neutrophils
- FIG. 5B RNA from peripheral blood monocytes and T cells, as well as from tonsillar ⁇ cells, but not from neutrophils
- FIG. 5A the tissue samples
- FIG. 5B contained 2-4 fold more RNA than did the cultured iIEL sample
- the ⁇ E mRNA in cultured iIEL was much more strongly detected than in any of the normal tissues, indicating that ⁇ E mRNA. levels in these tissues were markedly lower than in iIEL.
- the ⁇ E species was not detected in RNA from other tissues, including heart, brain, placenta, liver, skeletal muscle and kidney.
- VA2 fibroblast line
- RD rhabdomyosarcoma line
- HeLa cervical carcinoma line, epithelial like
- 16E6.A5 but not in A431 (epithelial cell lines)
- RNA from MOLT 13 2.3 kb and 1.3 kb transcripts were detected, which hybridized more strongly with ⁇ E cDNA than did the faintly visualized 4.5 kb ⁇ E transcript (FIG. 5D). Both the 2.3 kb and 1.3 kb species also were detected in PEER, HPB-ALL and MOLT 17 T cell leukemia lines. These transcripts were apparent only upon hybridization with ⁇ E cDNA, and not with ⁇ 7 cDNA or the positive control cDNA, suggesting that they were not due to non-specific binding of probe to the filter, but instead may represent cross-hybridization.
- the 2.3 kb transcript was detected only in RNA from tumor cell lines, but the 1.3 kb species was detected also in thymus and testis (FIG. 5B). Since integrin ⁇ subunit coding sequences are usually >3.3 kb, it seems unlikely that these transcripts represent alternatively spliced forms of ⁇ E encoding a traditional integrin structure. These smaller species may be due to coincidental hybridization of a portion of the ⁇ E cDNA probe to an unrelated transcript.
- RNA from some sources showed the presence of the 3.0 kb ⁇ 7 transcript in the absence of detectable ⁇ E , including fresh peripheral blood neutrophils (FIG. 5C), HUT 78 and JY′ (FIG. 5D). Consistent with these findings, the ⁇ 7 protein is known to be expressed in association with ⁇ 4 and not with ⁇ E , on the surface of JY′ cells (Chan, B.
- ⁇ E transcripts were detected in the absence of detectable levels of ⁇ 7 in RNA samples derived form pancreas and testis (FIG. 5B), HPB-ALL (FIG. 5D), and Va2, RD and HeLa and 16E6.A5 (FIG. 5E).
- the ⁇ 7 cDNA probe hybridized with mRNA species different in size from the primary 3 kb message including a 4.2 kb species in hairy cell spleen (FIG. 5A), skeletal muscle, normal spleen, thymus, small intestine, peripheral blood leukocytes (FIG.
- the deduced amino acid sequence of ⁇ E contained seven repeated domains (the last three of which included potential divalent cation binding sites), an I domain, a pattern of conserved cysteine residues at positions similar to those in other integrin ⁇ subunits, and a GFFKR amino acid motif in the cytoplasmic domain.
- the ⁇ E amino acid sequence was most closely related in overall structural features to the other I domain containing integrins since it contained a typical I domain, had three cation binding site consensus motifs, and lacked a membrane proximal cleavage site.
- ⁇ E amino acid sequence was more homologous to the I domain containing ⁇ chains even in regions outside the I domain.
- ⁇ E was a relatively distant member of the I domain containing group. This implies either that ⁇ E diverged early from any potential I domain/integrin ancestral gene, or that this gene has undergone an accelerated rate of mutation.
- This negatively charged stretch of amino acids is likely to be either solvent exposed or complexed to a moiety of the opposite charge.
- the charged stretch of ⁇ E may be necessary to make the region accessible to the enzyme responsible for cleavage. Such a unique charged sequence seems likely to play an important role in both the structure and function of ⁇ E .
- ⁇ E ⁇ 7 As activated T and B lymphocytes and macrophages have been reported to express ⁇ E ⁇ 7 on the cell surface (Kruschwitz, M. et al., (1991) J. Clin. Path 44, 636-645; Pallesen, G. et al., (1990) Lancet 335, 537; Visser, L. et al., (1990) Brit. J. Haematol. 75, 359-365) it is possible that the ⁇ E mRNA detected represents the small fraction amongst these predominantly resting cells that are activated.
- these low quantities are indicative of a basal level of transcription that may be upregulated in response to unknown stimuli, potentially conferring adhesive properties to these leukocytes mediated by ⁇ E ⁇ 7 .
- ⁇ E and ⁇ 7 mRNA also were detected in tissues known to have IEL, such as lung, small intestine and colon, and in lymphoid tissues, such as thymus and spleen.
- ⁇ E and ⁇ 7 mRNA also were present at low levels in non-lymphoid tissues such as prostate and ovary, and ⁇ E was observed in the absence of detectable ⁇ 7 in pancreas and testis.
- ⁇ E mRNA is present in tissue parenchymal cells, or is expressed in tissue resident leukocytes.
- the distribution of high levels of ⁇ E mRNA supports the immunohistochemistry data in suggesting that cell-surface ⁇ E ⁇ 7 expression occurs predominantly on mucosal lymphocytes such as IEL and lamina basement lymphocytes in vivo. This restricted distribution implies that ⁇ E ⁇ 7 is important in localization of lymphocytes to mucosal tissues and/or a site-specific lymphocyte function.
- the 16E6.A5 cell line was derived by immortalization of the 76N normal epithelial cell line through transfection of the E6 and E7 genes of human papilloma virus (by V. Band, Tufts University, publically available). Monolayers of these adherent cells are grown in flat-bottomed 96-well Linbro tissue culture plates. 10 4 adherent cells in 100 ul complete media are added per well and allowed to grow for 3 days until they reach confluence. Just before the addition of iIEL, these cells are washed with assay media.
- iIEL To label iIEL, 25 ⁇ g of 2′,7′-bis-(2-carboxyethyl)-5 (and 6)-carboxyfluorescein (BCEFC-AM, Molecular Probes, Inc., Eugene, Oreg.) is diluted in 5 ⁇ l DMSO and added to a suspension of 5 ⁇ 10 6 /ml IEL in complete Yssel's media. The cells are incubated at 37 degrees C. for 35 min then washed twice in assay media (phosphate buffered saline “PBS” or RPMI tissue culture media, available from GIBCO or Sigma Chemical Corp., St.
- PBS phosphate buffered saline
- RPMI tissue culture media available from GIBCO or Sigma Chemical Corp., St.
- iIEL labeled iIEL in 100 ⁇ l of assay media are added to the adherent cell monolayers. iIEL are allowed to settle onto adherent cell monolayers for 25 min or 40 min at 37 degrees C. Unbound cells are removed by flicking media from the plate. Bound cells are detected using a Fluorescence plate reader (IDEXX Co., Portland Me.).
- the iIEL are preincubated with an appropriate concentration of antibody (e.g., a 1/250 dilution of ascites fluid or 10 ug/ml of purified mAb) for 5 min at 37 degrees C. before addition to the adherent cell monolayers. At least four replicates were performed. The % cells bound is calculated by reading the fluorescence units obtained after unbound cells are washed off and dividing this number by the input fluorescence units obtained after adding 50,000 cells/well and multiplying by 100. Serial dilutions of labeled cells have shown that as few as 1000 cells can be detected in the linear range.
- an appropriate concentration of antibody e.g., a 1/250 dilution of ascites fluid or 10 ug/ml of purified mAb
- HBSS Hop buffered saline solution, available from Gibco
- HBSS Hop buffered saline solution
- selected times e.g., 30 min, 1 hour, 2 hours, 6 hours
- Functionally equivalent peptide analogs are identified by their ability to inhibit the binding of cells to the monolayer of adherent cells.
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Abstract
The present invention relates to a novel integrin αE subunit and its functional equivalents. The invention further includes pharmaceutical compositions containing the isolated peptides, oligonucleotides encoding the peptides, vectors containing the oligonucleotides, and cell lines transfected with the vectors.
Description
- [0001] This invention was made in part with government support under grant numbers R01CA47724, R29GM49342 and K11AI00903 from the National Institutes of Health.
- This invention relates to a novel integrin alpha chain; functionally-equivalent peptide fragments and analogs thereof; oligonucleotides encoding the peptide fragments and analogs; vectors containing and cell lines expressing the novel peptides; and methods for using the peptide fragments, analogs and oligonucleotides.
- The integrin mediated adhesive interactions of cells with other cells and between cells and the extracellular matrix are believed to play critical roles in a wide variety of processes including, for example, modulation of the immune system, regulation of developmental processes and tumor progression and metastasis. These molecules also transduce information from the extracellular to the intracellular environment through poorly understood signalling mechanisms. The integrins represent one of the best characterized superfamilies of adhesion receptors. Integrins are glycoprotein heterodimers which contain a non-covalently associated α and β subunit. Integrin subunits are transmembrane proteins which contain an extracellular domain for interacting with an extracellular matrix or cellular component, a transmembrane domain spanning the cell membrane and a cytoplasmic domain for interacting with one or more cytoskeletal components.
- There are fourteen known α subunits and eight known β subunits which can pair to form at least twenty different integrin molecules. Several distinct integrin α chains are capable of pairing with one type of β chain to form a β chain subfamily. Thus, for example, the β1 subfamily includes seven members (also known as the VLA proteins: α1β1-α7β1); the β2 subfamily includes three members (the leukocyte cell adhesion molecules or LeuCAMs: αLβ2 or LPA-1, αHβ2 or Mac-1 and αXβ2 or p150,95) and the β3 subfamily includes two members (αVβ3, αIIbβ3). In some instances, an α chain may pair with more than one β chain, e.g., α4 can pair with β1 or β7.
- The integrin α chains have in common a seven-fold repeated amino acid motif, of which the last three or four motifs include divalent cation binding sites. All known α chains have been divided into one of two structural groups on the basis of amino acid sequence homology and the presence or absence of two structural features (described below).
- The first group of α chains contains a proteolytic cleavage site located in the extracellular domain, proximal to the transmembrane region. Post-translational cleavage of the α chain precursor yields two fragments which (with one exception) remain associated by a disulfide linkage. The smaller fragment includes a short portion of the extracellular domain, the transmembrane and the cytoplasmic domains. The larger fragment contains the major portion of the α chain extracellular domain. This group of post-translationally cleaved integrin α subunits includes α3, α4, α5, α6 (formerly called αE), αV and αIIb, although the α4 molecule is a more distant member of the group since it is less similar to the other cleaved integrin α subunits based upon homology analysis, is cleaved near its mid-point to yield two fragments of nearly equal size and further, because the fragments are not disulfide linked (Teixido, J. et al., (1992) J. Biol. Chem. 267, 1786-1791; Rubio, M. et al., (1992) Eur. J. Immunol. 22, 1099-1102).
- Members of the second group of integrin α subunits do not include the above-described proteolytic cleavage site. Moreover, the second group of α subunits is characterized by the presence of an additional region known as the “I” (inserted) domain. Homologous I domains have been identified in complement factors B and C2, von Willebrand's factor, cartilage matrix glycoprotein and collagen type VI.
- The importance of integrins with respect to modulation of the immune system is illustrated by the condition, leukocyte adhesion deficiency (LAD), a disorder that is characterized by profound immunodeficiency. Individuals afflicted with LAD are unable to express the β2 integrin subfamily (Hogg, N. (1989) Immunol. Today 10, 111-114). Thus, while it has been known for some time that integrins and other adhesion molecules function in immune system modulation, e.g., by playing a role in the adhesion of peripheral lymphocytes to endothelium and in homing to lymph nodes. However, relatively little is known about the molecules that function in the mucosal immune system, a subset of the general immune system which includes the lymphocytes which populate the gastrointestinal, genito-urinary and respiratory tracts, and the mammary glands. In particular, little is known about the molecules which function in mucosal lymphocyte homing. (see, Cepek, K. et al., (1993) J. Immunol. 150, 3459-3470 and references cited therein).
- Recently, we described a novel integrin heterodimer that is expressed on intra-epithelial T lymphocytes (iIEL), i.e., the population of T lymphocytes located along the baso-lateral surfaces of the epithelial cells which line the mucosa, adjacent to the epithelial cell basement membrane. (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1924-1928). Originally defined by an antibody which recognizes the human
mucosal lymphocyte 1 antigen (HML-1), the novel integrin is present on >90% of intestinal IEL (iIEL) and on approximately 40% of lamina propria T lymphocytes (which lie between the epithelial basement membrane and the muscularis mucosae) (Cerf-Bensussan, N. et al., (1987) Eur. J. Immunol. 17, 1279-1285). The HML-1 antigen contains a novel α chain (designated αE for “epithelial associated”) associated with a β7 chain (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1924-1928). Although the HML-1 β7 chain has been cloned (Yuan, Q. A. et al., (1990) Int. Immunol. 2, 1097-1108; Erle, D. J. et al., (1991) J. Biol. Chem. 266, 11009-11016), little is known about the primary structure of the αE chain. - Cloning of the αE chain has proven to be problematic because of the difficulty in obtaining an adequate number of intra-epithelial cells from which the αE chain could be purified and sequenced. In addition, the relatively large length of the αE gene has hampered cloning efforts because of the propensity to lose the 5′ portion of relatively long genes during cDNA synthesis.
- The cDNA sequence and derived amino acid sequence (Sequence I.D. Nos. 1 and 2, Genbank Accession Number L25851) for the HML-1 α chain are disclosed herein. The αE chain was purified from a hairy cell leukemia spleen lysate and the N-termini of the purified protein fragments (25 kDa and 150 kDa) were sequenced to prepare degenerate oligonucleotide probes for screening a cDNA library. Surprisingly, in view of its resemblance to other integrin α subunits in overall amino acid sequence, αE contains a region of 55 amino acids (referred to herein as the “X” (extra) domain or Sequence I.D. No. 4, encoded by Sequence I.D. No. 3) located N-terminal to the I domain. This region is not present in any other integrin.
- The X domain contains two unique structural features: (1) an internal proteolytic cleavage site (between amino acids 159 and 160 of Sequence I.D. No. 1) followed by (2) a highly charged region of 18 consecutive amino acids (amino acids 162-179). Upon in vivo proteolytic cleavage of the αE chain, two fragments are formed: a 26 kD fragment having a C-terminus which contains the 34 amino acids of the X domain N-terminus and a 150 kD fragment having an N-terminus which contains the 21 amino acids of the X domain C-terminus. The 21 amino acid portion of the X domain (referred to hereinafter as Sequence I.D. No. 5) includes the highly charged region of 18 consecutive amino-acids. The 34 amino acid portion of the X domain N-terminus is referred to hereinafter as Sequence I.D. No. 6. These unique structural features of the X domain, coupled with the discovery that high levels of the mRNA for αE (and for β7, with which it associates to form the integrin αEβ7) are restricted to mucosal lymphocytes, suggested to us that the αE subunit likely plays a unique role in the localization and/or site specific functions of intra-epithelial T-lymphocytes.
- One aspect of the invention is directed to isolated peptides which inhibit the in vivo and in vitro function of the αE subunit. The peptides have sequences which are related to, or derived from, the amino acid sequence of the above-described X domain (Sequence I.D. No. 4), e.g., Sequence I.D. Nos. 5, 6 and functionally equivalent peptide analogs of the foregoing peptides.
- According to another aspect of the invention, a method for selecting a functionally equivalent peptide analog of Sequence I.D. No. 4 is provided. The method includes providing a peptide analog of Sequence I.D. No. 4 and determining whether the peptide analog inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in vitro. Preferably, the peptide analogs are between about four and about twenty amino acids in length. More preferably, the peptide analogs are between about four and about ten amino acids in length. Exemplary peptide analogs are disclosed in Sequence I.D. Nos. 8 through 25, inclusive.
- According to yet another aspect of the invention, a method for screening a molecular library to identify lead compounds which inhibit the in vivo activity of the integrin αE chain is provided. The method includes determining whether the molecular library contains a compound which inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in vitro. Also provided is a competitive binding assay method for identifying lead compounds which mimic the ligand binding site of the integrin αE chain. The method involves determining whether the library contains a molecule which competitively inhibits the binding of the αE chain (or a functionally equivalent peptide fragment or analog thereof) to an antibody which specifically recognizes the ligand binding site of the αE chain.
- According to another aspect of the invention, a pharmaceutical composition is provided. The composition includes a therapeutically effective amount of one or more of the above-identified isolated peptides (e.g., Sequence I.D. No. 4, a fragment or functionally equivalent peptide analog thereof) and a pharmaceutically acceptable carrier therefor. Optionally, the composition further includes the β7 chain or a portion thereof in association with the above-identified isolated peptide. Alternatively, the pharmaceutical composition includes a therapeutically effective amount of one or more isolated oligonucleotides and a pharmaceutically acceptable carrier therefor.
- According to still another aspect of the invention, a support having a biologically active surface which exhibits cell attachment activity is provided. The support includes a surface to which is attached one or more of the above-disclosed peptides. Exemplary supports include a prosthesis device (e.g., a vascular graft, a percutaneous device) and an affinity matrix (e.g., for isolating the ligand(s) of the αE subunit).
- According to another aspect of the invention, a method for isolating a cell surface ligand of the integrin αE chain is provided. The method involves coupling Sequence I.D. No. 4, or a functionally equivalent fragment or peptide analog thereof (e.g., Sequence I.D. Nos. 5-6 and 8-25), to an inert support and isolating the cell surface ligand using affinity chromatography.
- According to yet another aspect of the invention, antibodies to the isolated peptides or isolated oligonucleotides are provided. The antibodies are useful for blocking a functional activity of intra-epithelial T lymphocytes, such as an in vivo functional activity (e.g., localization of the T lymphocytes) or an in vitro functional activity (e.g., adhesion of intra-epithelial T lymphocytes to an epithelial cell monolayer as determined in an adhesion assay). Accordingly, the antibodies are useful as reagents in screening assays to identify lead compounds that are present in molecularly diverse libraries or other mixtures.
- According to yet another aspect of the invention, an isolated oligonucleotide is provided. The isolated oligonucleotide encodes a peptide selected from the group consisting of Sequence I.D. Nos. 4, 5, 6, 8, 9, 10, 11, 12, 13, 14, 35, 16, 17, 18, 19, 20, 21, 22, 23, 24 and 25. In a particularly preferred embodiment, the isolated oligonucleotide comprises Sequence I.D. No. 7, an oligonucleotide which encodes Sequence I.D. No. 6.
- Also provided is an isolated oligonucleotide that is capable of hybridizing under stringent conditions (defined below) to the nucleotide sequence residing between about position 555 and about position 656 of Sequence I.D. No. 1. This region of the αE cDNA encodes Sequence I.D. No. 6 (i.e., the relatively uncharged proteolytic cleavage fragment of the X domain). In a preferred embodiment, the isolated oligonucleotide is at least about 80% homologous with the above-recited nucleotide region of Sequence I.D. No. 1. More preferably, the isolated oligonucleotide is 100% homologous with the nucleotide sequence residing between position 555 and position 656 (referred to hereinafter as Sequence I.D. No. 7) inclusive of the αE cDNA.
- According to still another aspect of the invention, an antisense oligonucleotide capable of hybridizing under stringent conditions to the above-described isolated oligonucleotide is provided. The antisense oligonucleotide is capable of hybridizing to a unique fragment (defined below) of the naturally-occurring DNA or mRNA encoding the αE subunit. Accordingly, delivery of an antisense oligonucleotide to intra-epithelial lymphocytes in vivo inhibits localization of the lymphocytes by base-pairing with the DNA (or RNA) encoding a unique fragment of the αE nucleic acid, thereby preventing transcription (or translation) of the αE subunit.
- According to yet other aspects of the invention, a recombinant expression vector comprising at least one strand of the above-disclosed isolated oligonucleotide and a cell line transfected with the recombinant expression vector are provided. Preferably, the oligonucleotide is operatively joined to at least one regulatory sequence, for example, a promoter or enhancer sequence. Suitable cell lines include mammalian cells; bacterial cells; insect cells and various yeast strains.
- These and other aspects of the invention, as well as various advantages and utilities, will be more apparent with reference to the detailed description of the preferred embodiments and in the accompanying drawings.
- FIG. 1 schematically illustrates the composite sequence for the integrin αE subunit cDNA clone and the sequencing strategy used to obtain the clone;
- FIG. 2 illustrates the similarity of the αE subunit with other integrin α subunits based upon generation of an integrin α subunit homology tree;
- FIG. 3 illustrates the similarity of the αE subunit with other integrin α subunits based upon the determination of the percent similarity of the αE amino acid sequence to those of other integrin α subunits;
- FIG. 4 illustrates the immunoprecipitation of the αE subunit isolated from the HML-1 antigen with antiserum generated to the C-terminal peptide deduced from the αE cDNA; and
- FIG. 5 illustrates the Northern blot analysis to determine. the tissue distribution of αE and β7 mRNA.
- I. Introduction to the Preferred Embodiments.
- The nucleic acid sequence and deduced amino acid sequence (Sequence I.D. Nos. 1 and 2) for a cDNA encoding the human integrin αE subunit are disclosed herein. The cDNA clone was obtained by: (1) isolating the αE subunit of the HML-1 antigen from a hairy cell leukemia spleen lysate and sequencing the N-terminus of the purified protein fragments (25 kDa and 150 kDa); (2) preparing degenerate oligonucleotide probes based upon the N-terminal amino acid sequences and screening a lambda Zap II cDNA library to obtain individual clones encoding portions of the αE subunit; (3) sequencing the individual cDNA clones and preparing a composite cDNA sequence based upon overlapping sequences of individual clones; and (4) deducing the amino acid sequence for the composite cDNA. Each of these steps is described in detail in the Examples.
- Two features distinguish the αE subunit from previously reported alpha subunits. First, upon proteolytic cleavage, the αE subunit is cleaved into a smaller (25 kDa) fragment containing Sequence I.D. No. 6 and a larger (150 kDa) fragment containing Sequence I.D. No. 5. The sequence for the smaller fragment shows sequence homology to the known integrin alpha chain amino termini, suggesting that unlike most other integrin alpha subunits which are cleaved proximal to the C-terminus or near the mid-point of the precursor polypeptide, the αE precursor is cleaved proximal to the N-terminus. Second, the N-terminal sequence for the larger (150 kDa) fragment contains a region of negatively charged residues (FIG. 1) which do not share sequence homology with any known integrin α subunit sequence. As will be described in more detail below, these unique properties of the αE subunit result from the presence of an additional domain (the X domain) which contains an internal proteolytic cleavage site proximal to its N-terminus.
- Degenerate oligonucleotide probes having sequences based upon the N-terminal amino acid sequences of the 150 and 25 kDa fragments, were used to screen a lambda Zap II cDNA library. The composite αE cDNA sequence, represented schematically in FIG. 1, was established by sequencing individual clones (depicted by thick black lines beneath the composite cDNA) and aligning the overlapping sequences. A comparison of the empirically-determined amino acid sequence for the HML-1 αE subunit (FIG. 1, top line) and the amino acid sequence deduced from the cDNA sequence (FIG. 1, bottom line) demonstrated that the composite cDNA encodes the HML-1 antigen αE subunit. This result was confirmed by immunoprecipitation experiments and other methods of analysis (e.g., measuring biochemical features predicted from the αE cDNA, including molecular mass, proteolytic cleavage site, and the presence of N-linked glycosylation) (refer to the Examples).
- The nucleotide sequence of the composite cDNA and the deduced amino acid sequence are disclosed in Sequence I.D. Nos. 1 and 2, respectively. Alignment of the deduced amino acid sequence with the published sequences of other I domain-containing human integrin alpha subunits and the generation of a homology tree demonstrated substantial sequence homology between the I domain-containing subunits (FIGS. 2 and 3). However, the αE subunit is a relatively distant member of the integrin I domain-containing alpha subunit family, based upon both overall sequence homology and the inclusion of the X domain (indicated in bold italics in FIG. 1).
- II. The Unique X Domain.
- The nucleotide sequence and deduced amino acid sequence for the αE subunit cDNA are shown in Sequence I.D. Nos. 1 (including the signal sequence as indicated) and 2, respectively. As used herein, the X domain refers to the unique region of 55 amino acids located proximal to the N-terminus of the I domain in the αE subunit, i.e., amino acid position 126 through position 180 (encoded by nucleotide positions 555 through 719) inclusive of Sequence I.D. No. 1). Sequence I.D. No. 4 represents the deduced amino acid sequence of the X domain. Sequence I.D. No. 3 represents the oligonucleotide sequence encoding Sequence I.D. No. 4.
- The X domain contains a proteolytic cleavage site, located between amino acids 159 and 160 of sequence I.D. No.1, which distinguishes the αE subunit from all known integrin I domain-containing alpha subunits. Cleavage of the X domain (Sequence I.D. No. 4) yields two fragments designated Sequence I.D. Nos. 5 and 6. Sequence I.D. No. 5 contains a stretch of eighteen consecutive charged residues which are located immediately C-terminal to the cleavage site. Accordingly, the nucleic acid sequence which encodes Sequence I.D. No. 5 is identical to the coding sequence which encodes the N-terminal portion of the 150 kDa αE chain.
- In view of the unique primary structure of the X domain and our observation that high levels of αE mRNA are found primarily in mucosal lymphocytes, we believe that the X domain is integral to the adhesion of T lymphocytes to epithelial cells in vivo. Accordingly, the invention involves producing agents which modulate that adhesion and that are useful for treating autoimmune diseases that are characterized by lymphocyte accumulation at epithelial sites (e.g., ulcerative colitis, Crohn's disease, celiac disease, sarcoidosis, psoriasis, and the late phase component of asthma). Other agents also are useful for enhancing αE mediated adhesion, thereby permitting the design of more appropriate therapies for treating infectious diseases of epithelial sites (e.g., pulmonary tuberculosis, leprosy, cutaneous leishmaniosis, and parasitic or viral infections diseases of the intestinal tract) by increasing the function of mucosal intraepithelial lymphocytes or their localization to the epithelium.
- According to one aspect of the invention, an isolated peptide that is capable of inhibiting the adhesion of αEβ7 to an epithelial cell in vitro also is provided. The isolated peptide has an amino acid sequence which is related to, or derived from, the amino acid sequence of the X domain (Sequence I.D. No. 4) of the αE subunit. The isolated peptide is selected from the group consisting of Sequence I.D. Nos. 4, 5, 6 and functionally equivalent peptide analogs of the foregoing peptides. In a particularly preferred embodiment, the isolated peptide is Sequence I.D. No. 4, 5 or 6.
- As used herein in reference to a peptide, the term “isolated” refers to an expression product of an isolated oligonucleotide; a peptide which is isolated following cleavage from a larger polypeptide; or a peptide that is synthesized, e.g., using solution and/or solid phase peptide synthesis methods as disclosed in, for example, U.S. Pat. No. 5,120,830, the entire contents of which are incorporated herein by reference.
- As used herein, the term “peptide analog” refers to a peptide which shares a common structural feature with the molecule to which it is deemed to be an analog. A functionally equivalent peptide analog is a peptide analog which further shares a common functional activity (e.g., inhibiting the adhesion between an intra-epithelial T lymphocyte and an epithelial cell in vitro) with the molecule to which it is deemed an analog. Peptide analogs include unique fragments which are related to, or derived from, Sequence I.D. No. 4, polymers of Sequence I.D. No. 4, and polymers of unique fragments of Sequence I.D. No. 4. A “unique fragment” of a protein or nucleic acid sequence is a fragment which is not currently known to occur elsewhere in nature (except in allelic or allelomorphic variants). Unique fragments act as a “signature” of the gene or protein from Which they are derived. A unique fragment will generally exceed 15 nucleotides or 5 amino acids. One of ordinary skill in the art can readily identify unique fragments by searching available computer databases of nucleic acid and protein sequences such as Genbank, (Los Alamos National Laboratories, USA), EMBL, or SWISS-PROT. A unique fragment is particularly useful, for example, in generating monoclonal antibodies or in screening genomic DNA or cDNA libraries.
- It will be appreciated by those skilled in the art that various modifications of the foregoing peptide analogs can be made without departing from the essential nature of the invention. Accordingly, it is intended that peptides which include conservative substitutions (see, e.g., Table 2) and fusion proteins in which a peptide of the invention is coupled to a solid support (such as a polymeric bead), a carrier molecule (such as keyhole limpet hemocyanin), a toxin (such as ricin) or a reporter group (such as radiolabel or other tag), also are embraced within the teachings of the invention.
- Preferably, the peptide analogs contain between about four and about twenty amino acids. More preferably, the peptide analogs contain between about four and about ten amino acids. Exemplary peptide analogs which are fragments of Sequence I.D. Nos. 4 and 5 are provided in Table 1.
TABLE 1 Peptide Analogs (fragments of Sequence I.D. Nos. 4 and 5) EKEEEEDKEE (Sequence I.D. No. 8) KEEEEDKEEE (Sequence I.D. No. 9) EEEEDKEEEE (Sequence I.D. No. 10) EEEDKEEEED (Sequence I.D. No. 11) EEDKEEEEDE (Sequence I.D. No. 12) EDKEEEEDEE (Sequence I.D. No. 13) DKEEEEDEEE (Sequence I.D. No. 14) KEEEEDEEEE (Sequence I.D. No. 15) EEEEDEEEEE (Sequence I.D. No. 16) ALEKEEEEDK (Sequence I.D. No. 17) EEDKEEEEDEEEEE (Sequence I.D. No. 18) ALEKEEEEDKEEEE (Sequence I.D. No. 19) EKEEEEDKEEEEDEE (Sequence I.D. No. 20) ALEKEEEEDKEEEEDEEEEE (Sequence I.D. No. 21) - As used herein, “conservative amino acid substitution” refers to an amino acid substitution which does not alter the relative charge or size characteristics of the peptide in which the amino acid substitution is made. Conservative substitutions of amino acids include substitutions made amongst amino acids within the following groups: (a) MILV; (b) FYW; (c:) KRH; (d) AG; (e) ST; (f) QN; and (g) ED. Exemplary peptide analogs of Sequence I.D. No. 5 which include conservative amino acid substitutions (e.g., E for D and/or K for N) are provided in Table2.
TABLE 2 Peptide Analogs having Conservative Amino Acid Substitutions EKEEEEDEEEEE (Sequence I.D. No. 22) DKDDDDDDDDDD (Sequence I.D. No. 23) EDEEEEEEEEEE (Sequence I.D. No. 24) ENEEEEDNEEEED (Sequence I.D. No. 25) - As used herein, the term “functionally equivalent peptide analog” refers to a peptide analog that is capable of inhibiting the binding of an intra-epithelial T lymphocyte to an epithelial cell in vitro. An in vitro adhesion assay (see, e.g., the adhesion assay provided in the Examples) is used as a screening assay to measure the ability of a molecule, e.g., a peptide analog, to inhibit αEβ7-mediated adhesion between an intra-epithelial T lymphocyte and an epithelial monolayer in culture and is predictive of the ability of a molecule to inhibit the functional activity of the novel αEβ7 subunit in vivo. For example, a “functionally equivalent peptide analog” of Sequence I.D. No. 4 includes fragments of Sequence I.D. No. 4, as well as peptide analogs of Sequence I.D. Nos. 4-6 which contain conservative amino acid substitutions, provided that the peptide fragments and analogs are capable of inhibiting adhesion of a human intra-epithelial lymphocyte to an epithelial cell.
- According to yet another aspect of the invention, a method for selecting a functionally equivalent peptide analog of Sequence I.D. No. 4 is provided. The method involves providing a peptide analog of Sequence I.D. No. 4 and determining whether the peptide analog inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in vitro. In a particularly preferred embodiment, the functionally equivalent peptide analogs are fragments of Sequence I.D. No. 4 containing between about four and about twelve amino acids and having about the same isoelectric point as sequence I.D. No. 5 (see, e.g., Table 1, above).
- According to yet another aspect of the invention, a method is provided for screening a molecular library to identify pharmaceutical lead molecules, i.e., molecules which inhibit the adhesion between an intra-epithelial T lymphocyte and an epithelial cell in vitro. A molecular library refers to a collection of structurally-diverse molecules and includes both recombinantly-produced and chemically-synthesized libraries. As used herein, “library molecule” refers to a molecule that is present in the molecular library. Accordingly, screening refers to the process by which library molecules are tested for the ability to inhibit the adhesion between an intra-epithelial T lymphocyte and an epithelial cell or the ligand binding activity of the αEβ7 subunit. For example, the ability of a molecule to inhibit the binding of a mucosal T-lymphocyte (or the αEβ7 subunit) to an epithelial cell in vitro can be used as a screening assay to identify lead compounds. Thus, a particularly preferred screening method involves determining whether the library molecule (or peptide analog) inhibits adhesion between a human mucosal lymphocyte-1 antigen and an epithelial cell in culture. Such adhesion assays are well known in the art and are illustrated by the assay provided in the Examples.
- Alternatively, antibodies which specifically recognize the ligand binding site of the αEβ7 integrin (i.e., that portion of the subunit which binds to an epithelial cell) can be used to screen combinatorial libraries (e.g., by contacting the library with the antibody and determining whether the library contains a molecule which competitively inhibits binding of the antibody to a peptide known to contain the ligand binding site). Such competitive binding assays also can be used to assess the relative affinity of the library molecule for its cognate (e.g., a ligand present on an epithelial cell). Antibodies to the ligand binding site also can be used to purify the integrin heterodimer or its subunits which bind to ligand expressed on the epithelial cell.
- According to yet another aspect of the invention, methods and compositions for modulating the functional activity of the αEβ7 integrin in vivo are provided. One method involves administering a pharmaceutical composition containing a therapeutically effective amount of the isolated peptides and/or oligonucleotides of the invention. In general, the therapeutically effective amount is between about 1 ug and about 100 mg/kg. The preferred amount can be determined by one of ordinary skill in the art in accordance with standard practice for determining optimum dosage levels of the agent. The peptides (and/or oligonucleotides) are formulated into a pharmaceutical composition by combination with an appropriated pharmaceutically acceptable carrier. For example, the peptides may be used in the form of their pharmaceutically acceptable salts, or may be used alone or in appropriate association, as well as in combination with other pharmaceutically active compounds. The peptides may be formulated into preparations in solid, semisolid, liquid or gaseous form such as tablets, capsules, powders, granules, ointments, solutions, suppositories, and injections, in usual ways for oral, parenteral, or surgical administration. Exemplary pharmaceutically acceptable carriers are described in U.S. Pat. No. 5,211,657, the entire contents of which patent are incorporated herein by reference.
- The invention also includes locally administering the composition as an implant or any part of it either alone or bound to a synthetic material, such as a vascular prosthesis. Accordingly, a support (e.g., nitrocellulose, polyester, polyvinyl, polystyrene or a ceramic) having a biologically active surface which exhibits cell attachment activity also is provided. As used herein, a “biologically active surface which exhibits cell attachment activity” refers to a support to which is attached at least one of the above-identified isolated peptides. Attachment of the peptides confers upon the support surface the ability to attach cells, and in particular, the ability to attach epithelial cells.
- Methods for preparing a biologically active surface by coupling a peptide to an inert surface are disclosed in U.S. Pat. No. 5,211,657, the contents of which have been incorporated herein by reference. The peptides are coupled to plastic surfaces for in vitro use (e.g., for cell culture in which it is desirable to attach cells to a culture vesicle), to a prosthesis such as a vascular prosthesis or other artificial organ to make the synthetic materials more biocompatible and to allow the cells to adhere and grow or to an affinity matrix. Alternatively, the peptides are incorporated into a polymer during the polymerization process, rather than attached to the surface of a previously formed inert support.
- According to yet another aspect of the invention, a method for isolating a ligand for the integrin αEβ7 subunit from detergent extracts of cells or cell membranes is provided. The method includes (1) specifically adsorbing the ligand to an affinity matrix having Sequence I.D. No. 4 or a functionally equivalent peptide analog thereof coupled to the matrix to form a ligand-adsorbed affinity matrix, and (2) adding to the ligand-adsorbed affinity matrix a plurality of peptides selected from the group consisting of Sequence I.D. No. 4 and a functionally equivalent peptide analog of Sequence I.D. No. 5 to specifically elute the ligand from the affinity matrix. In a particularly preferred embodiment, the peptide coupled to the matrix is Sequence I.D. No. 4, 5 or 6.
- As used herein, “affinity matrix” refers to an inert support to which molecules can be covalently attached in a manner such that the ligand binding portion of the molecule is exposed. The methods for coupling a molecule (e.g., a peptide) to an affinity matrix are determined by the nature of the functional groups present on the molecule and on the matrix (e.g., amine groups, carboxyl groups). The peptide can be derivatized (according to standard procedures known in the art) to include additional functional groups to facilitate the coupling of the peptide to thee matrix in a desired orientation. Typically, matrices are sold in an activated form for coupling to a specified class of functional groups. In such instances, instructions for coupling a molecule to the matrix are provided by the matrix manufacturer. Numerous types of coupling methods to a variety of inert supports are well known to those of ordinary skill in the art.
- According to another aspect of the invention, an antibody specific for the αE subunit is provided. The antibodies are raised against the above-identified isolated peptides and/or fusion peptides using well known immunization techniques (see, e.g., the Examples: generation of an antibody to the synthetic C-terminal peptide predicted from the αE cDNA). Preferably, the antibody specifically recognizes an antigen selected from the group consisting of the X domain (Sequence I.D. No. 4) and fragments or equivalents of the X domain. In a particularly preferred embodiment, the peptides are selected from the group consisting of Sequence I.D. Nos. 4-6 and 8-21. The antibodies are useful in screening assays for identifying pharmaceutical lead compounds which inhibit the adhesion of an intra-epithelial T lymphocyte to an epithelial cell.
- The antibodies also are useful in vivo for blocking cell adhesion and localization of intra-epithelial T lymphocytes and for example, targeting a toxin (e.g., ricin) or detectable agent (e.g., a radiolabel, a fluorescent label, an enzyme label) to cells (e.g., intra-epithelial lymphocytes) containing the αE subunit. Methods for coupling such toxins and/or agents to proteins and/or antibodies for in vivo and in vitro applications are disclosed in, for example, Killen and Lindstrom (1984), “Specific killing of lymphocytes that cause experimental Autoimmune Myestenia Gravis by toxin-acetylcholine receptor conjugates”, J. Immun. 133:1335; Jansen, F. K., et al. (1982), “Immunotoxins: Hybrid molecules combining high specificity and potent cytotoxicity”, Immunolog. Rev. 62:185-216, the entire contents of which references are incorporated herein by reference. See also U.S. Pat. Nos. 3,652,761; 4,478,946 and 4,554,088, the entire contents of which patents are incorporated herein by reference.
- The invention also provides isolated oligonucleotides (e.g., Sequence I.D. No. 3) that encode the X domain (Sequence I.D. No. 4), its proteolytic fragments (Sequence I.D. Nos. 5 and 6) and the above-described functionally equivalent peptide analogs of the foregoing amino acid sequences (Sequence I.D. Nos. 8-25). As used herein, the term “isolated” in reference to an oligonucleotide, means an RNA or DNA polymer, portion of genomic nucleic acid, cDNA or synthetic nucleic acid which, by virtue of its origin or manipulation: (a) is not associated with all of a nucleic acid with which it is associated in nature (e.g., is present in a host cell as a portion of an expression vector); or (b) is linked to a nucleic acid or other chemical moiety other than that to which it is linked in nature; or (c) does not occur in nature. By “isolated” it is further meant a nucleic acid sequence: (i) amplified in vitro by, for example, the polymerase chain reaction (PCR); (ii) synthesized by, for example, chemical synthesis; (iii) recombinantly produced by cloning; or (iv) purified from a more complex molecule or from a mixture of molecules, such as by cleavage and size fractionation. Due to the degeneracy of the genetic code, many different oligonucleotide sequences can be identified which encode Sequence I.D. Nos. 4-6 and 8-25. Accordingly, the invention embraces oligonucleotides which encode the X domain (as well as its fragments, but which have nucleotide sequences which differ from the sequences of the naturally-occurring αE gene or from the cDNA disclosed in Sequence I.D. No. 1.
- In addition to the foregoing oligonucleotides, the invention also provides an isolated oligonucleotide that is capable of hybridizing under stringent conditions to the nucleotide sequence residing between position 555 and position 719 inclusive of Sequence I.D. No. 1 (i.e., the region of the αE cDNA which encodes the X domain (Sequence I.D. No. 4)). As used herein, the phrase “hybridizing under stringent conditions” is a term of art which refers to the conditions of temperature and buffer concentration which will permit hybridization of a particular oligonucleotide or nucleic acid to its complementary sequence and not to non-complementary sequences. The exact conditions which constitute “stringent” conditions, depend upon the length of the nucleic acid sequence and the frequency of occurrence of subsets of that sequence within other non-identical sequences. By varying hybridiation conditions from a level of stringency at which no hybridization conditions occurs to a level at which hybridization is first observed, one of ordinary skill in the art can, without undue experimentation, determine conditions which will allow a given sequence to hybridize only with identical sequences. Suitable ranges of such stringency conditions are described in Krause, M. H. and S. A. Aaronson, Methods in Enzymology, 200:546-556 (1991). Stringent hybridization conditions, depending upon the length and commonality of a sequence, may include hybridization conditions of from 30 to 60 degrees C. and from 5× to 0.1×SSC. Highly stringent hybridization conditions may include hybridization at 45 degree C. and 0.1 SSC. Less than stringent conditions are employed to isolate nucleic acid sequences which are substantially similar, allelic or homologous to any given sequence. In a particularly preferred embodiment, the isolated oligonucleotide is 100% homologous with the nucleotide sequence residing between position 555 and position 719 inclusive of Sequence I.D. No. 1. Exemplary high stringency hybridization conditions are provided in the Examples.
- Alternatively, the isolated oligonucleotide is capable of hybridizing under stringent conditions to a unique fragment of the nucleotide sequence residing between positions 555 and 719 of Sequence I. D. No.1. As used herein, the phrase “unique fragment” refers to a nucleic acid sequence having less than 25% sequence homology with previously identified nucleic acid sequences. More preferably, the unique fragments have less than 10% sequence homology with known nucleic acid sequences. Such unique fragments can be identified by searching the Genbank, PIR and/or Swiss-Prot data bases (e.g., release date Jan. 20, 1994) using the Eugene program available through the Harvard Molecular Biology Core Research Resource, Cambridge, Mass. For example, using the entire X domain, several classes of intranuclear DNA binding proteins and intracytoplasmic proteins were identified as having some degree of sequence homology with the X domain. These proteins included neurofilament triplet M protein, nucleolin, troponin T, alphaglobulin type B precursor (tandem 1), legumin B LegJ precursor, major centromere autoantigen CENP-B, calreticulin precursor (clone 3) and non-histone chromosomal protein HMG-1. These proteins had, at most, about 50% sequence homology over 35 amino acids or about 35% sequence homology over 54 amino acids. The regions of sequence homology were located in the negatively charged, glutamate-rich region, with less than 20% sequence homology observed for the relatively uncharged portion of the X domain (Sequence I.D. No. 6).
- In view of the many DNA binding proteins which contain highly negatively charged regions for binding to DNA, it is likely that the observed sequence homology between the highly charged region of the X domain and the above-mentioned intranuclear DNA binding proteins is coincidental and does not reflect a similar functional activity (e.g., the ability to bind to a ligand expressed on an epithelial cell) between the X domain and these DNA binding proteins. Hence, Sequence I.D. Nos. 6 and 7 are deemed to be unique fragments of the αE subunit amino acid and nucleotide sequences, respectively. Accordingly, in a particularly preferred embodiment, the isolated oligonucleotide is Sequence I.D. No. 7 (the sequence corresponding to nucleotides 555 through 656 inclusive of the αE cDNA). The unique fragments are useful, for example, as probes and primers in nucleic acid hybridization assays and in amplification reactions, respectively.
- For applications directed to the use of an isolated oligonucleotide for regulating transcription and/or translation of the αE subunit, the preferred oligonucleotide is an antisense oligonucleotide between about 10 and about 100 nucleotides in length. The antisense oligonucleotide is capable of hybridizing under high stringency conditions to the above-described unique fragments of Sequence I.D. No. 1. As used herein, “antisense oligonucleotide” refers to an oligonucleotide (DNA and/or RNA) that is capable of hybridizing to the naturally-occurring DNA or mRNA encoding the novel αE subunit of human integrin. In a preferred embodiment, the antisense oligonucleotide is capable of hybridizing in vivo to the nucleotide sequence residing between positions 555 and 656 inclusive of Sequence I.D. No. 1 or its transcription product. Base-pairing of the antisense oligonucleotide with the DNA (or RNA) encoding the uncharged region of the αE subunit in vivo, prevents localization of intra-epithelial lymphocytes by preventing transcription (or translation) of the αE subunit.
- Methods for expressing the above-identified oligonucleotides in a suitable expression system including a host cell are well known to those of ordinary skill in the art (see, e.g., Sambrook, et al.,Molecular Cloning, A Laboratory Manual, 2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y. (1989)). The term “host cell” refers to a prokaryotic or eukaryotic cell which, together with a recombinant vector, comprises an expression system. The term host cell also embraces a host cell in which the vector or isolated oligonucleotide has integrated into the host cell nucleic acid. In a preferred embodiment, the expression vector includes at least one strand of the above-disclosed isolated oligonucleotide. Preferably, the oligonucleotide is operatively joined to at least one regulatory sequence, e.g., a promoter sequence, an enhancer sequence. A coding sequence (e.g., the isolated oligonucleotide) and a regulatory sequence are said to be operably joined when they are linked in such a way as to place expression of the coding sequence under the influence or control of the regulatory sequence.
- Suitable cell lines include mammalian cells (e.g., Chinese hamster ovary cells (CHO), monkey COS-1 cell); bacterial cells (e.g.,E. coli, B. subtilis and Pseudomonas strains); insect cells (e.g., SF9) and various yeast strains. Exemplary procedures for obtaining expression of a foreign gene in the above-identified cell lines are disclosed in U.S. Pat. No. 5,211,657, the entire contents of which are incorporated herein by reference.
- The methodology for construction, isolation and characterization of the integrin αE cDNA clone of the present invention is described in detail in Example 1. An exemplary method for identifying peptide analogs which inhibit αEβ7-mediated adhesion between intra-epithelial T lymphocytes and epithelial cells is described in detail in Example 2. All references recited in this application are incorporated in their entirety herein by reference.
- Cloning and Characterizing the αE subunit cDNA.
- Materials and Methods
- Purification and sequencing of the HML-1 α chain. Purification of the αEβ7 complex was performed by immunoaffinity column chromatography from a human hairy cell leukemia spleen lysate using the Ber-ACT8 monoclonal antibody, as previously described (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1924-1928). The HML-1 antigen was then resolved by SDS-PAGE under non-reducing conditions (Hochstenback, F. et al., (1988) J. Exp. Med. 168, 761-776), and the region of the gel containing the larger 175 kDa subunit was excised and equilibrated in reducing buffer: 125 mM tris-Cl, 0.1% (w/v) SDS, 5% (v/v) 2-mercaptoethanol, and 10% (v/v) glycerol. The two resulting αE fragments of 150 kDa and 25 kDa were then separated on a second SDS/PAGE gel under reducing conditions and electroblotted to a poly(vinylidene difluoride) membrane (Problott: Applied Biosystems) in 10 mM CAPS pH 11, 10% Methanol. The HML-1 α subunit 150 kDa and 25 kDa fragments were visualized by Coomassie blue staining and sequenced using an Applied Biosystems model 470A gas-phase sequencer equipped with a model 120A phenylthiohydantoin amino-acid sequencer (Harvard Microsequencing Facility, Cambridge, Mass.). Approximately 9 pMol of the 150 kDa fragment and 19 pMol of the 25 kDa fragment were analyzed.
- Preparation of cDNA library. RNA was prepared using the urea/LiCl method (Auffray, C. et al., (1980) Eur. J. Biochem 107, 303-314) from 3×106 IEL that had been cultured for 5 days with 2 ng/ml TGF-β1 (gift of Celtrix, Palo Alto, Calif.). Poly (A) RNA was selected and cDNA wash synthesized from this RNA in the presence of methylmercuric hydroxide using both random oligonucleotides as well as poly d(T) as primers. The cDNA was size fractionated to selectively remove low molecular weight species (under 500 bp) and the two types of cDNA were mixed, methylated, and ligated into the lambda zapII vector (stratagene, La Jolla, Calif.). The library contained inserts ranging from 0.6-5 kb, with 1.4×106 independent clones (Clontech laboratories Inc., Palo Alto, Calif.).
- Isolation of cDNA clones. Based upon the determined N-terminal amino acid sequences of the
α E 150 kDa and 25 kDa fragments, two degenerate oligonucleotide probes were generated (FIG. 1). Inosine residues were used to reduce the degree of degeneracy. The amplified cDNA library was screened by plaque filter hybridization in 6×SSC, 0.5% (w/v) SDS, 50 mM HEPES,pH pH 7, 0.5% (w/v) SDS, 5×Denhardt's solution, 50% formamide, and 200 ug/ml sheared denatured salmon sperm DNA (Sigma). Filters were stringently washed in 0.2% SSC, 0.1% SDS, at 37° C. for 1 hour. Positive clones were subcloned in the Bluescript SK(−) plasmid (Stratagene), with the helper phage R407, using an in vivo excision protocol (Short, J. M. et al., (1988) Nucleic Acids Res. 16, 7583-7600), and restriction mapped using standard procedures (Sambrook, J. et al., (1989) Molecular Cloning: A Laboratory Manual, 2nd Ed., Cold Spring Harbor Laboratory Press). - Nucleotide sequencing. The ends of inserts of positive clones were sequenced using the T3 and T7 primer regions from the Bluescript SK(−) vector. Additionally, a series of deletion clones were generated from selected inserts using Exonuclease III (Erase-a-base kit, Promega) in order to sequence their interior regions. Sequencing reactions were performed using the double-standard dideoxy-termination method (Sequenase kit, USBiochem) and the sequence was analyzed by computer using DNAStar, DNA Strider, and the Genetics Computer Group software package (Madison, Wis.) on the Molecular Biology Computer Research Resource Facility (Dana Farber Cancer Institute, Boston, Mass.). Many clones isolated had extraneous sequence attached to one or both ends (FIG. 1), which was not present in any other clone. However, it was possible to recognize the αE encoding sequence based on overlaps with other previously identified clones, i.e., those clones identified in a prior round of screening. For example, clone 38 (identified in a first round of screening), was used to identify clone 1-39A. A 3′ fragment of clone 1-39A then was used to rescreen the library and identify clone 2-54. Thereafter, a 3′ fragment of clone 2-54 was used to identify clone 3-15.
- Monoclonal Antibodies and Cell Lines.
- Previously described mAb used were HML-1 (mouse anti-human αEβ7 IgG2a) (Cerf-Bensussan, N. et al., (1987) Eur. J. Immunol. 17, 1279-1285), Ber-ACT8 (mouse anti-human αEβ7, IgG1) (Kruschwitz, M. et al., (1991) J. Clin. Path 44, 636-645), OKT3 (mouse anti-human CD3, IgG2a, available from American Type Culture Collection (ATCC), Bethesda, Md.), OKT4 (mouse anti-human CD4, IgG2b, ATCC), OKT8 (mouse anti-human CD8*, ATCC), 64.1 (mouse anti-human CD3) (Hansen, J. A. et al., (1984) in Leukocyte typing: Human Leukocyte Differentiation Antigens detected by Monoclonal antibodies, 195-212), SPV-T3b (mouse anti-human CD3, IgG2a) (Spits, H. et al., (1983)
Hybridoma 2, 423-437), 3C10 (mouse anti-human CD14, IgG2b) (Van Voorhis, W. C. et al., (1983) J. Exp. Med. 158, 126-145), HB12B (mouse-anti human CD19, IgG1) (Kansas, G. S. et al., (1991) J. Immunol. 147, 4094-4102), B1 (mouse anti-human CD20, IgG2a) (Stashenko, P. et al., (1980) J. Immunol. 125, 1678-1685) and the anti-β7 C-terminal peptide (amino acids 736-755) antiserum (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1924-31928). - To produce an anti-αE C-terminal peptide serum, a peptide was synthesized corresponding to residues 1136-1160 deduced to lie in the αE cytoplasmic tail, with an added cysteine residue at the amino terminus of the peptide to permit coupling to carrier protein. The peptide was conjugated to keyhole limpet hemocyanin (Pierce, Rockford, Ill.), using the heterobifunctional cross linking agent, m-Maleimidobenzoyl-N-hydroxysulfosuccinimide (Pierce), according to the manufacturer's instructions. Rabbit antisera were generated by immunization with the conjugated αE1136-1160 peptide using standard protocols (Harlow, E. et al., (1988) Antibodies: A Laboratory Manual, Cold Spring Harbor Laboratory Press).
- To produce an anti-αE X domain (charged fragment) peptide serum, a peptide was synthesized containing ALEKEEEEDKEEEEDEEEEEC (i.e., Sequence I.D. No. 5 with an added cysteine residue at the carboxy-terminus of the peptide to permit coupling to carrier protein) and antibodies were generated using the same protocol as described above for generating peptides to the αE C-terminal peptide. The antiserum produced thereby was capable of immunoprecipitating the αEβ7 heterodimer.
- iIEL lines were derived and cultured as previously described (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470). Cultured tumor lines (PEER,
MOLT 4,MOLT 13,MOLT 17, HPB-ALL,HUT 78, JY′, VA2, RD, HeLa, A431) were maintained in RPMI-1640 (GIBCO, Grand Island, N.Y.) containing 10% fetal bovine serum (Hyclone, Logan, Utah). The epithelial cell line 16E6.A5 was maintained in DFCI-1 medium (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470). - Leukocyte concentrates produced as a by-product from plateletphoresis of randomly selected healthy donors were used as a starting material to isolate fresh peripheral blood monocytes and T cells. Peripheral blood mononuclear cells (PBMC) were separated by density gradient centrifugation (Ficoll-Plaque, Pharmacia LKB, Piscataway, N.J.) and monocytes were isolated by adherence to polystyrene tissue culture flasks (Porcelli, S. et al., (1992) Nature 360, 593-597) and used to prepare RNA (see below). A fraction of the adherent cells in a separate flask were detached by incubation at 37° C. in PBS/0.5 mM EDTA, and analyzed by flow cytometry using the FACScan flow cytometer (Beckton Dickinson, Mountain View, Calif.) to reveal 91% CD14+, 2% CD19/20+, and <1% CD3+cells. T lymphocytes were isolated from the non-adherent PBMC using an anti-CD3 antibody, 64.1, and positive selection by magnetic bead separation (Dynabeads M-450, Dynal A. S., Oslo, Norway) according to the maanufacturer's instructions. To isolate B lymphocytes, surgically removed fresh tonsils were teased into fragments with forceps and forced through a wire mesh. The resulting cell suspension was subjected to density gradient centrifugation (Ficoll-Paque) to obtain mononuclear cells. Tonsillar B cells were further purified by depleting T lymphocytes with mAbs recognizing CD3 (64.1), CD4 (OKT4) and CD8 (OKT8) and negative selection by magnetic bead selection. An aliquot of the negatively selected population was analyzed by flow dytometry: 97% were positive with anti-CD19+anti-CD20 mAbs (HB-12b and B1) and 1.3% were positive with anti-CD3 (SPV-T3b).
- Neutrophils were purified from peripheral blood as previously described (Neuman, E. et al., (1992) J. Immunol. 148, 3520-3527). Differential analysis was performed using Wright's/Giemsa stained cytospin preparations, and revealed 92% neutrophils, with 8% eosinophils.
- Immunoprecipitations.
- TGF-β1 treated cultured iIEL (35×106 cells) were surface radioiodinated with 1 mCi of Na125I using lactoperoxidase, lysed in 1 ml of 0.5% Triton-X100, 8 mM iodoacetamide, 10 mM phenylmethylsulfonyl fluoride in TBS (50 mM tris-Cl, pH 7.6, 140 mM NaCl), and precleared with 4 ul normal rabbit serum, followed by 200 ul of Staphylococcal A Cowan I. Following centrifugation, supernatant containing 3×106 cell equivalents was used for each specific immunoprecipitation, using 5 ul of antiserum, or 0.1 ul of HML-1 mAb ascites, as previously described (Hochstenbach, F. et al., (1988) J. Exp. Med. 168, 761-776). Following a 1 hour incubation at 4° C., the supernatant was incubated for 1 hour with 75 ul of protein A-sepharose (10%, w/v, in TBS). The immune complexes were washed five times in wash buffer (0.1% v/v Triton-X100/TBS), eluted with sample buffer (5% glycerol, 1.5% (w/v) SDS, 0.2% (w/v) brombphenol blue, 188 mM tris-Cl pH 8.8) and resolved on a 7% denaturing polyacrylamide gel under non-reducing conditions (Hochstenbach, F. et al., (1988) J. Exp. Med. 168, 761-776).
- In the reprecipitation experiment, 7×107 cultured iIEL were radioiodinated with 2.5 mCi, lysed and precleared as above. A specific immunoprecipitation was performed with the entire lysate, using 2 ul of HML-1 mAb ascites, followed by 300 ul of protein A-sepharose. After 5 washes in wash buffer, αEβ7 was eluted from the matrix by heating in a boiling water bath for 5 minutes in 150 ul of 1% (w/v) SDS. Following brief centrifugation, the supernatant was collected and treated with 150 ul precleared fetal calf serum for 30 minutes. Four ml of 2% (v/v) Triton-X100/TBS were added, and the supernatant incubated overnight at 4° C. Equal aliquots of 600 ul were then precleared and immunoprecipitated with the anti-αEβ7 mAb HML-1 (0.1 ul), the arti-αE1136-1160 C-terminal peptide serum (10 ul), followed by protein A-sepharose (75 ul). Immune complexes were washed and the reprecipitated proteins eluted, and resolved by SDS-PAGE under non-reducing conditions, as previously described (Hochstenbach, F. et al., (1988) J. Exp. Med. 168, 761-776).
- Northern Blot Analysis. RNA was prepared from cell lines and leukocyte fractions using guanidium isothiocyanate lysis, followed by acid-phenol/chloroform extraction (Chomczynski, P. et al., (1987) Anal. Biochem 162, 156-159). Poly(A) RNA was isolated from total RNA using standard techniques (Sambrook, J. et al., (1989) Molecular Cloning: A Laboratory Manual, 2nd Ed., Cold Spring Harbor Laboratory Press). RNA was resolved on 1.2% agarose-formaldehyde gels and transferred to nylon membranes (Hybond N: Amersham). Commercially available Northern blots (Clontech) were used to analyze human tissue RNA. Blots were hybridized at 42° C. in 5×SSPE (Sambrook, J. et al., (1989) Molecular Cloning: A Laboratory Manual, 2nd Ed., Cold Spring Harbor Laboratory Press), 10×Denhardt's solution, 50% (v/v) formamide, 2% (w/v) SDS, and 100 ug/ml salmon sperm DNA. Blots were washed in 0.1×SSC, 0.1% (w/v) SDS, at 50° C., for one hour.
- The probes used to analyze the Northern blots included the αE cDNA probe which consisted of two restriction fragments in approximately equimolar amounts and spanning approximately ⅓ of the deduced coding seguence, extending from nucleotide 1915-2394 (1-39A Apa I-BamH I) and 2394-3084 (1-349A BamH I-EcoR I). The β7 probe extended from nucleotide 47-2801 of the published seguence (Yuan, Q. A. et al., (1990) Int. Immunol. 2, 1097-1108). The glyceraldehyde 3-phosphate dehydrogenase (GAP) probe (Clontech) extended from nucleotide 71-1053 of the published sequence (Arcari, P. et al., (1984) Nucleic Acids Res. 12, 9179-9189).
- Results.
- Purification and N-terminal Amino Acid Sequence of the αE chain:
- To determine the primary amino acid sequence of the αE protein, the HML-1 (αEβ7) complex was purified from a hairy cell leukemia spleen lysate by immunoaffinity column chromatography, followed by two stages of SDS-PAGE (see Materials and Methods). The αE subunit resolved under reducing conditions into 150 kDa and 25 kDA fragments. A sequence of 20 amino acids was determined from the N-terminus of the 25 kDa fragment (FIG. 1). Surprisingly, it was this sequence, not that from the 150 kDa fragment, which bore homology to known integrin α chain amino termini. This suggested that αE was cleaved towards the N-terminal portion of the precursor polypeptide, unlike other integrins which are cleaved proximal to the C-terminus or-near the midpoint. The N-terminal sequence from the 150 kDa fragment showed a preponderance of negatively charged residues (FIG. 1), with no significant homology with previously identified integrin α chains.
- Cloning of a cDNA Encoding αE:
- To clone a cDNA encoding αE, a lambda Zap II cDNA library was synthesized from TGF-betal treated iIEL mRNA using both oligo d(T) and random priming. Based on the amino acid sequence obtained from the 150 and 25 kDa fragments, corresponding degenerate oligonucleotides were synthesized, one from each, and were used to screen the library (FIG. 1). Analysis of 420,000 phage plaques resulted in the identification of one cDNA clone, 38, that hybridized with both olignucleotides. This clone was purified and the insert cDNA was sequenced. Both of the determined amino acid sequences were encoded by clone 38 (see below), indicating that this clone was derived from authentic αE mRNA. The entire 38 insert (0.8) was used to rescreen the library to identify clones that extended further in the 3′ direction. Probes derived from the 3′ ends of these and of subsequently identified cDNA clones were in turn used to successively rescreen the library. All clones used to produce the composite sequence were shown to detect transcripts of the same size in Northern blot analysis of TGF-β1 treated iIEL RNA. After five rounds of screening, a composite sequence was determined as the αE coding sequence from
cDNA clones 38, 1-39A, 2-54, and 3-15 (FIG. 1). - Extraneous sequences on the ends of the individual clones (broken lines) and sequences determined from insert ends or from deletion clones (horizontal arrows) also are illustrated in FIG. 1. In regions where the nucleotide sequence encoding αE differed between clones, short stretches of other cDNA clones were used to establish a consensus. Two of these changes did not result in a frameshift in the open reading frame and may stem from genuine polymorphisms amongst alleles of αE. Alternatively, differences may represent artifactual point mutations in the cDNA clones generated during synthesis of the cDNA library or in its subsequent propagation. Specifically, at nucleotide 2000, cytosine was replaced by adenosine in about one-third of the clones, resulting in a change in amino acid 341 from aspartic acid (D) to glutamic acid (E). At nucleotide 2190, cytosine was deleted in approximately one-sixth of the clones, resulting in a frameshift. At nucleotide 3242, guanosine was replaced by cytosine in about one-fifth of the clones, resulting in a change in amino acid 1022 from cysteine (C) to serine (S).
- αE Sequence Analysis:
- A total of 3.9 kb of composite cDNA sequence was determined, which contained a 3.5 kb open reading frame (see Sequence I.D. Nos. 1 and 2). The 125
bp 5′ untranslated region ended with a sequence characteristic of a translation initiation site (Hogervorst, F. et al., (1991) Eur. J. Biochem, 199, 425-433) and a methionine codon. (Sequence I.D. No. 1). This presumed initiation codon was the first residue in a stretch of 18 hydrophobic amino acids that was inferred to encode a signal sequence. This sequence ended in accordance with the (−3, −1) rule of von Heijne (von Heijne, G. (1986) Nucleic Acids Res. 14, 4683-4690), suggesting a likely site for cleavage by signal peptidase. The next 20 deduced amino acids were identical to those determined from peptide sequencing of the 25 kDa fragment. From amino acids 160-169 (Sequence I.D. No. 1), a deduced sequence identical to the determined peptide sequence from the 150 kDa fragment was found, confirming the smaller fragment to be N-terminal. Just prior to the second (150 kDa) peptide site were a pair of basic residues (RR). Similar motifs are found in several other integrin α subunits in which the cleavage site is preceded by two basic residues (Tamura, R. N. et al., (1990) J. Cell Biol. 111, 1593-1604; Teixido, J. et al., (1992) J. Biol. Chem. 267, 1786-1791; Takada, Y. et al., (1991) J. Cell. Biol. 115, 257-266; Argraves, W. et al., (1987) J. Cell. Biol. 105, 1183-1190; Song, W. K. et al., (1992) J. Cell. Biol. 117, 643-657; Bossy B. et al., (1991) EMBO J. 10, 2375-2385; Suzuki, S. et al., (1987) J. Biol. Chem. 262, 14080-14085; Poncz, M. et al., (1987) J. Biol. Chem. 262, 8476-8482), and may be the recognition site of an eukaryotic subtilisin-like protease (Barr, P. J. (1991) Cell 66, 1-3). A single potential N-glycan acceptor site was present in the first 159 residues which comprised the smaller fragment. - The deduced N terminus of the larger, 150 kDa, fragment was characterized by a highly charged sequence (Sequence I.D. No. 1, amino acids 160-179). Following the first two amino acids of this fragment (AL), 16 out of the following 18 amino acids were acidic and the remaining two were basic. Within the 150 kDa fragment deduced amino acid sequence, nine potential N-linked glycosylation sites were found, making a total of ten in the entire αE sequence. A region of 23 hydrophobic amino acids (amino acids 1106-1128, Sequence I.D. No. 1) was predicted to encode a transmembrane region, followed by a cytoplasmic tail of 32 residues and a stop codon. Thus, the composite αE cDNA predicted a typical type I transmembrane protein that was post-translationally cleaved towards the N terminus. The 270 bp of the predicted 3′ untranslated sequence included a consensus polyadenylation signal (Sequence I.D. No. 1, aataaa) and a poly(A) tail.
- The deduced amino acid sequence predicted a small fragment with a size of 20 kDa, allowing 2.5 kDa for its single potential N-linked glycosylation site. This value approximated the observed migration in SDS-PAGE of the smaller αE subunit (25 kDa). With nine N-linked glycosylation sites, the predicted molecular mass for the larger fragment was 133 kDa, somewhat smaller that the estimate from SDS-PAGE of 150 kDa. This discrepancy between predicted molecular mass and migration in SDS-PAGE is similar to that observed for other integrin α subunits (Tamura, R. N. et al., (1990) J. Cell. Biol. 111, 1593-1604; Argraves, W. et al., (1987) J. Cell. Biol. 105, 1183-1190; Ignatius, M. J. et al., (1990) J. Cell. Biol. 111, 709-720). The predicted pI of this larger subunit (5.2) may account for the difference in predicted and determined molecular weights as some negatively charged proteins migrate more slowly in SDS-PAGE than predicted from deduced molecular mass (Georges, E. et al., (1987) Eur. J. Biochem. 165, 281-287; Matagne, A. et al., (1991) Biochem. J. 280, 553-556).
- Comparison of αE with other Intearin α Subunits:
- The deduced amino acid sequence of αE was manually aligned with that of other integrin α chains. The locations of cysteine and proline residues are often important in secondary structure of proteins, and were used as a primary basis for alignment, as were regions where blocks of amino acids showed strong homology with other integrin α subunits. In regions where homology was not readily apparent, gaps were arbitrarily introduced in the sequences in order to maximize alignment.
- Comparison of the deduced αE amino acid sequence (Sequence I.D. No. 2) with that of other integrin α subunits revealed the presence of many conserved features. Fourteen out of a total of 25 cysteine residues were conserved between αE and other α chains. Immediately following the highly charged regions, a region of 193 amino acids homologous to typical I domains was present (Sequence I.D. No. 2, amino acids 181-372). Like other integrin α subunits, the αE cDNA encoded seven repeated regions, the last three of which were potential divalent cation binding sites, resembling the EF-hand loop motif, with a consensus sequence corresponding to DXXXDXXXD (Tuckwell, D. S. et al., (1992) Biochem J. 285, 325-331). The probable intracytoplasmic region contained the highly conserved GFFKR sequence (Sequence I.D. No. 1), which is present in every sequenced integrin α chain except the Drosophila PS2 α chain (GFFNR) (Brown, N. H. et al., (1989) Cell 59, 185-195), the chicken αB chain (GFFDR) (Bossy, B. et al., (1991) EMBO J. 10, 2375-2385), and the hamster α3B chain (DFFKP) (Tamura, R. N. et al., (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 10183-10187).
- Immediately preceding the presumed I domain was a stretch of 55 amino acids which did not align with other known α chains (Sequence I.D. No. 2, amino acids 126-180). For descriptive purposes, this region will be referred to as the ‘extra’ or X domain. Interestingly, the highly charged region described above (see αE sequence analysis) and the unusually located cleavage site are within this X domain.
- A homology tree was generated with the deduced amino acid sequence of at αE compared to those of other integrin α subunits, using the computer program PILEUP. The program was executed both with complete sequences, as well as the sequences from with all I domains, and the X domain of αE were removed. This was done to facilitate computer alignment of I domain containing integrin a subunits with those that lack this region. In each case, the overall shape of the homology tree generated was similar, although the branch point of αE was slightly more closely related to the β2 associated α chains (αL, αH, αX) than the β1 associated α chains (α1 and α2) (FIGS. 2 and 3).
- Confirmation that the Cloned cDNA Encodes αE:
- A rabbit polyclonal antiserum was generated to a synthetic peptide corresponding to residues 1136-1160 of the deduced αE amino acid sequence. This anti-αE C-terminal peptide antiserum was used to immunoprecipitate polypeptides from a lysate of 125I-labelled cultured iIEL. When this immunoprecipitate was resolved by SDS-PAGE under non-reducing conditions, a complex of polypeptides was observed, indistinguishable from that immunoprecipitated by the HML-1 mAb. This included the 175 kDa αE subunit, the 105 kDa β7 subunit, and two less well visualized intermediate sized polypeptides of 155 and 135 kDa (FIG. 4,
lanes 2 and 3). - Next, the HML-1 complex was isolated by immunoprecipitation with the HML-1 mAb followed by elution of the component chains with SDS and heat. Equal aliquots of this immunoprecipitated and chain separated HML-1 complex were then reprecipitated with the HML-1 mAb, the anti-αE C-terminal peptide antiserum, or an anti-β7 C-terminal peptide antiserum (Parker, C. M. et al., (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1924-1928) and resolved by SDS-PAGE under non-reducing conditions. The anti-β7 antiserum reprecipitated the 105 kDa β7 polypeptide, but not the other species (FIG. 4, lane 6). The anti-αE antiserum reprecipitated the αE 175 kDa polypeptide as well as the 155 and 135 kDa species, but not the 105 kDa β7 polypeptide (FIG. 4, lane 5). This indicated that the αE-antiserum recognized a polypeptide that was not only similar in size to, but also immunochemically cross-reactive with the polypeptides of 175, 155 and 135 kDa, recognized by the HML-1 mAb. Since the anti-αE antiserum was generated to a deduced C-terminal amino-acid sequence that was distinct from the determined N-terminal amino acid sequences used to isolate the cDNA, these experiments offer independent evidence that the cDNA isolated encodes the same αE subunit recognized by the HML-1 antibody. The reprecipitation experiment also offers clues to the identities of the 155 and 135 kDa species. Either these two additional polypeptides reassociated with the 175 kDa species after boiling in SDS, or, more likely, they directly interacted with the anti-αE C-terminal peptide antiserum. Thus, these may be alternate structural forms of αE. Alternative RNA splicing (Tamura, R. N. et al., (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 10183-10187; Tamura, R. N. et al., (1990) J. Cell. Biol. 111, 1593-1604; Hogervorst, F. et al., (1991) Eur. J. Biochem. 199, 425-433; Bray, P. F. et al., (1990) J. Biol. Chem. 265, 9587-9590; Zimrim, A. B. et al., (1990) J. Biol. Chem. 265, 8590-8595), alternative proteolytic processing (Calvete, J. J. et al., (1990) Febs Letters 272, 37-40; Loftus, J. C. et al., (1988) J. Biol. Chem. 263, 11025-11028), differential glycosylation (Sonnenberg, A. et al., (1990) J. Cell. Sci. 96, 207-217; Kim, L. T. et al., (1992) J. Cell. Sci. 103, 743-753; Hotchin, N. A. et al., (1992) J. Biol. Chem. 267, 14852-14858; Bednarczyk, J. L. et al., (1992) Clin. Exp. Metastasis 10, 281-290) and alternative tertiary structure of the same polypeptide backbone (Teixido, J. et al., (1992) J. Biol. Chem. 267, 1786-1791; Rubio, M. et al., (1992) Eur. J. Immunol. 22, 1099-1102) have all been reported to occur in other integrin α subunits, resulting in multiple cell-surface forms, and may account for this observation.
- Distribution of αE mRNA Transcripts:
- An αE cDNA probe which spanned 1.2 kb of the coding sequence was used to analyze the distribution of αE mRNA in normal tissues and in in vitro cultured lines. Freshly isolated human iIEL serve as a model of fresh iIEL in their surface expression of adhesion molecules (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470). Northern blot analysis of RNA from a TGF-β1 treated iIEL line indicated a single species of 4.5 kb that hybridized strongly with the αE cDNA probe (FIG. 5A, seen as a broad smear in this exposure). As expected, the αE species was also readily detested in RNA from the malignant hairy cell leukemia infiltrated spleen used to isolate protein for N-terminal amino acid sequencing. Moderate to low levels of the αE mRNA were also detected in poly (A) enriched RNA from a range of normal human tissues (FIG. 5B) including lung, pancreas, spleen, thymus, prostate, testis, ovary, small intestine, colon, and peripheral blood leukocytes. To determine which leukocytes transcribe αE mNRA, freshly isolated leukocytes were fractionated into their component sub-populations and analyzed by Northern analysis. Barely detectable levels of the αE mRNA were found in poly (A) RNA from peripheral blood monocytes and T cells, as well as from tonsillar β cells, but not from neutrophils (FIG. 5C). Note that the tissue samples (FIG. 5B) contained 2-4 fold more RNA than did the cultured iIEL sample (FIG. 5A). Yet the αE mRNA in cultured iIEL was much more strongly detected than in any of the normal tissues, indicating that αE mRNA. levels in these tissues were markedly lower than in iIEL. The αE species was not detected in RNA from other tissues, including heart, brain, placenta, liver, skeletal muscle and kidney.
- Analysis of tumor and transformed cell lines also was performed. In a panel of T cell tumors both γδ T cell receptor bearing cells (PEER and MOLT 13) and αβ T cell receptor bearing cells (HPB-ALL and MOLT 17) showed the αE 4.5 kb mRNA. This transcript was not detected in other T cell tumors, including
MOLT 4,HUT 78, nor in JY′ (an Epstein-Barr virus-transformed B cell line selected for high surface expression of the β7 protein)(FIG. 5D). Amongst non-lymphocytic transformed or tumor cell lines, the 4.5 kb αE mRNA species also was present in VA2 (fibroblast line), RD (rhabdomyosarcoma line), HeLa (cervical carcinoma line, epithelial like), and barely detected in 16E6.A5 but not in A431 (epithelial cell lines) (FIG. 5E). - Interestingly, in RNA from
MOLT 13, 2.3 kb and 1.3 kb transcripts were detected, which hybridized more strongly with αE cDNA than did the faintly visualized 4.5 kb αE transcript (FIG. 5D). Both the 2.3 kb and 1.3 kb species also were detected in PEER, HPB-ALL and MOLT 17 T cell leukemia lines. These transcripts were apparent only upon hybridization with αE cDNA, and not with β7 cDNA or the positive control cDNA, suggesting that they were not due to non-specific binding of probe to the filter, but instead may represent cross-hybridization. The 2.3 kb transcript was detected only in RNA from tumor cell lines, but the 1.3 kb species was detected also in thymus and testis (FIG. 5B). Since integrin α subunit coding sequences are usually >3.3 kb, it seems unlikely that these transcripts represent alternatively spliced forms of αE encoding a traditional integrin structure. These smaller species may be due to coincidental hybridization of a portion of the αE cDNA probe to an unrelated transcript. - These same Northern blots were probed with a cDNA spanning the full length coding sequence of β7 in order to correlate the potential co-expression of β7 with αE. The β7 probe detected a 3 kb mRNA that hybridized abundantly with RNA derived from cultured iIEL and hairy cell spleen (FIG. 5A). Multiple tissues and cell lines which showed the presence of the 4.5 kb αE transcript also showed the 3 kb β7 transcript, including lung, spleen, thymus, prostate, ovary, small intestine, colon, and peripheral blood leukocytes (FIG. 5B), fresh peripheral blood monocytes and T cells, tonsillar B cells (FIG. 5C), PEER, and also in
MOLT 13 andMOLT 17 at barely detectable levels (FIG. 5D). This suggested that often the two transcripts were expressed coordinately. Many cells which transcribed both αE and β7 also expressed the cell surface heterodimer as detected by immunostaining with anti-αEβ7 mAbs of cultured iIEL (Cepek, K. L. et al., (1993) J. Immunol. 150, 3459-3470), hairy cell spleen (Moller, P. et al., (1990) Amer. J. Path. 136, 509-512; Visser, L. et al., (1989) Blood 74, 320-325), <2% of fresh peripheral blood lymphocytes (Cerf-Bensussan, N. et al., (1987) Eur. J. Immunol. 17, 1279-1285), tonsil, PEER,MOLT 13, and HPB-ALLb. As expected, RNA from some sources showed the presence of the 3.0 kb β7 transcript in the absence of detectable αE, including fresh peripheral blood neutrophils (FIG. 5C),HUT 78 and JY′ (FIG. 5D). Consistent with these findings, the β7 protein is known to be expressed in association with α4 and not with αE, on the surface of JY′ cells (Chan, B. M. et al., (1992) J. Biol. Chem. 267, 8366-8370). Surprisingly, αE transcripts were detected in the absence of detectable levels of β7 in RNA samples derived form pancreas and testis (FIG. 5B), HPB-ALL (FIG. 5D), and Va2, RD and HeLa and 16E6.A5 (FIG. 5E). In some tissues, the β7 cDNA probe hybridized with mRNA species different in size from the primary 3 kb message including a 4.2 kb species in hairy cell spleen (FIG. 5A), skeletal muscle, normal spleen, thymus, small intestine, peripheral blood leukocytes (FIG. 5B), and tonsillar B cells (FIG. 5C); a 2.4 kb species in heart, liver, and kidney (FIG. 5B); and a 7 kb species in skeletal muscle. Although alternatively spliced forms of β7 have been reported (Erle, D. J. et al., (1991) J. Biol. Chem. 266, 11009-11016; Yuan Q. et al., (1992) J. Biol. Chem. 267, 7352-7358), the nature of the secondary β7 species reported here have not been evaluated. - Discussion:
- The cDNA encoding a novel integrin α chain, αE, was cloned and sequenced revealing a type I transmembrane protein. Several lines of evidence indicated that the deduced amino acid sequence of the cDNA described here encodes the 175 kDa α subunit of the HML-1 antigen. Both peptide sequences determined from purification of the α subunit protein were encoded by the determined nucleotide sequence of the cloned gene. In addition, the αE C-terminal peptide antiserum immunoprecipitated the same species as did the HML-1 antibody. Further, various biochemical features including a proteolytic cleavage site and the presence of N-linked glycosylation were consistent with known features of the HML-1 α chain.
- Like other integrin α subunits, the deduced amino acid sequence of αE contained seven repeated domains (the last three of which included potential divalent cation binding sites), an I domain, a pattern of conserved cysteine residues at positions similar to those in other integrin α subunits, and a GFFKR amino acid motif in the cytoplasmic domain. The αE amino acid sequence was most closely related in overall structural features to the other I domain containing integrins since it contained a typical I domain, had three cation binding site consensus motifs, and lacked a membrane proximal cleavage site. In addition, in homology analysis, the αE amino acid sequence was more homologous to the I domain containing α chains even in regions outside the I domain. However, αE was a relatively distant member of the I domain containing group. This implies either that αE diverged early from any potential I domain/integrin ancestral gene, or that this gene has undergone an accelerated rate of mutation.
- While resembling other integrin α subunits in overall amino acid sequence, one region within αE was unique. This region of 55 amino acids located just N-terminal to the I domain, did not bear homology to other integrin α chains. The proteolytic cleavage site of the αE polypeptide was located between amino acids 159 and 160 in this extra or X domain. The αE X domain thus accounted for both the unexpected cleavage of an I domain-containing integrin, as well as the unusual site of cleavage. Immediately following the cleavage site within the X domain was a stretch of 18 consecutive charged residues that comprised the N-terminal portion of the 150 kDa αE fragment. This negatively charged stretch of amino acids is likely to be either solvent exposed or complexed to a moiety of the opposite charge. The charged stretch of αE may be necessary to make the region accessible to the enzyme responsible for cleavage. Such a unique charged sequence seems likely to play an important role in both the structure and function of αE.
- Analysis of the genomic structure of the classically cleaved integrin, αIIb (Heidenreich, R. et al., (1990) Biochem 29, 1232-1244), has shown that the residues coding for its cleavage site lie within a single exon, not present in the traditional I domain containing integrins, αH (Fleming, J. C. et al., (1993) J. Immunol. 150, 480-490) and αX (Corbi, A. L. et al., (1990) J. Biol. Chem. 265, 2782-2788). This cleavage site-containing exon is thought to be the result of an insertion into an ancestral integrin gene. We speculate that in αE, the X domain containing the cleavage site may likewise correspond to an exon inserted just prior to the four exons that comprise the I domain in other integrins.
- Previous studies utilizing immunohistochemistry have shown that the HML-1 protein is expressed in a highly restricted manner, primarily on mucosal lymphocytes (Cerf-Bensussan, N. et al., (1987) Eur. J. Imnunol. 17, 1279-1285). In this study we confirmed the presence of high levels of αE and β7 mRNA in cultured iIEL. However, when poly(A) RNA from non-mucosal leukocytes was analyzed, barely detectable levels of αE mRNA were found in fresh peripheral blood monocytes, T cells, and tonsillar B cells. As activated T and B lymphocytes and macrophages have been reported to express αEβ7 on the cell surface (Kruschwitz, M. et al., (1991) J. Clin. Path 44, 636-645; Pallesen, G. et al., (1990) Lancet 335, 537; Visser, L. et al., (1990) Brit. J. Haematol. 75, 359-365) it is possible that the αE mRNA detected represents the small fraction amongst these predominantly resting cells that are activated. It is also possible that these low quantities are indicative of a basal level of transcription that may be upregulated in response to unknown stimuli, potentially conferring adhesive properties to these leukocytes mediated by αEβ7. When poly(A) RNA from a panel of tissues was analyzed, both αE and β7 mRNA also were detected in tissues known to have IEL, such as lung, small intestine and colon, and in lymphoid tissues, such as thymus and spleen. αE and β7 mRNA also were present at low levels in non-lymphoid tissues such as prostate and ovary, and αE was observed in the absence of detectable β7 in pancreas and testis. It is not known whether the αE mRNA is present in tissue parenchymal cells, or is expressed in tissue resident leukocytes. Overall, the distribution of high levels of αE mRNA supports the immunohistochemistry data in suggesting that cell-surface αEβ7 expression occurs predominantly on mucosal lymphocytes such as IEL and lamina propria lymphocytes in vivo. This restricted distribution implies that αEβ7 is important in localization of lymphocytes to mucosal tissues and/or a site-specific lymphocyte function.
- Identification of the αEβ7 integrin and the genes that encode it make it possible to identify individuals with αE or β7 deficiency or produce targeted gene knock-out mice. The phenotype of these individuals may serve to illuminate additional functions of the αEβ7 molecule in vivo.
- An Adhesion Assay for Selecting Functionally Equivalent Pestide Analogs.
- The adhesion assay described herein is based upon the assay described by Cepek, K., et al., inJ. Immunol. 150(8):3459-3470 (1993), the entire contents of which are incorporated herein by reference.
- The 16E6.A5 cell line was derived by immortalization of the 76N normal epithelial cell line through transfection of the E6 and E7 genes of human papilloma virus (by V. Band, Tufts University, publically available). Monolayers of these adherent cells are grown in flat-bottomed 96-well Linbro tissue culture plates. 104 adherent cells in 100 ul complete media are added per well and allowed to grow for 3 days until they reach confluence. Just before the addition of iIEL, these cells are washed with assay media. To label iIEL, 25 μg of 2′,7′-bis-(2-carboxyethyl)-5 (and 6)-carboxyfluorescein (BCEFC-AM, Molecular Probes, Inc., Eugene, Oreg.) is diluted in 5 μl DMSO and added to a suspension of 5×106/ml IEL in complete Yssel's media. The cells are incubated at 37 degrees C. for 35 min then washed twice in assay media (phosphate buffered saline “PBS” or RPMI tissue culture media, available from GIBCO or Sigma Chemical Corp., St. Louis, Mo., containing 1 mM CaCl2, 2 mM MgCl2, and 10 mM HEPES). After washing, 50,000 labeled iIEL in 100 μl of assay media are added to the adherent cell monolayers. iIEL are allowed to settle onto adherent cell monolayers for 25 min or 40 min at 37 degrees C. Unbound cells are removed by flicking media from the plate. Bound cells are detected using a Fluorescence plate reader (IDEXX Co., Portland Me.). If antibody blocking is performed, the iIEL are preincubated with an appropriate concentration of antibody (e.g., a 1/250 dilution of ascites fluid or 10 ug/ml of purified mAb) for 5 min at 37 degrees C. before addition to the adherent cell monolayers. At least four replicates were performed. The % cells bound is calculated by reading the fluorescence units obtained after unbound cells are washed off and dividing this number by the input fluorescence units obtained after adding 50,000 cells/well and multiplying by 100. Serial dilutions of labeled cells have shown that as few as 1000 cells can be detected in the linear range.
- To screen a molecular library or other mixture for the presence of a functionally equivalent peptide analog, the iIEL are washed with HBSS (Hanks buffered saline solution, available from Gibco) and pre-equilibrated with HBSS containing serial dilutions of the library or other peptide-containing solution (over a broad concentration range (e.g. 1 ng/ml to 100 ug/ml) for selected times (e.g., 30 min, 1 hour, 2 hours, 6 hours) at 37 degree C. before incubation with 16E6.A5 monolayers that have been washed with HBSS. Functionally equivalent peptide analogs are identified by their ability to inhibit the binding of cells to the monolayer of adherent cells.
- It should be understood that the preceding is merely a detailed description of certain preferred embodiments. It therefore should be apparent to those skilled in the art that various modifications and equivalents can be made without departing from the spirit and scope of the invention.
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1 31 1 3927 DNA Homo sapien CDS (126)...(3665) sig_peptide (126)...(179) mat_peptide (180)...(3662) 1 gaattccggc ccccgtgtct gggcgtccgc ctcctggcct cctggctgag gggaagctga 60 gtgggccacg gcccatgtgt cgcactcgcc tcggctccca cacagccgcc tctgctccag 120 caagg atg tgg ctc ttc cac act ctg ctc tgc ata gcc agc ctg gcc ctg 170 Met Trp Leu Phe His Thr Leu Leu Cys Ile Ala Ser Leu Ala Leu -15 -10 -5 ctg gcc gct ttc aat gtg gat gtg gcc cgg ccc tgg ctc acg ccc aag 218 Leu Ala Ala Phe Asn Val Asp Val Ala Arg Pro Trp Leu Thr Pro Lys 1 5 10 gga ggt gcc cct ttc gtg ctc agc tcc ctt ctg cac caa gac ccc agc 266 Gly Gly Ala Pro Phe Val Leu Ser Ser Leu Leu His Gln Asp Pro Ser 15 20 25 acc aac cag acc tgg ctc ctg gtc acc agc ccc aga acc aag agg aca 314 Thr Asn Gln Thr Trp Leu Leu Val Thr Ser Pro Arg Thr Lys Arg Thr 30 35 40 45 cca ggg ccc ctc cat cga tgt tcc ctt gtc cag gat gaa atc ctt tgc 362 Pro Gly Pro Leu His Arg Cys Ser Leu Val Gln Asp Glu Ile Leu Cys 50 55 60 cat cct gta gag cat gtc ccc atc ccc aag ggg agg cac cgg gga gtg 410 His Pro Val Glu His Val Pro Ile Pro Lys Gly Arg His Arg Gly Val 65 70 75 acc gtt gtc cgg agc cac cac ggt gtt ttg ata tgc att caa gtg ctg 458 Thr Val Val Arg Ser His His Gly Val Leu Ile Cys Ile Gln Val Leu 80 85 90 gtc cgg cgg cct cac agc ctc agc tca gaa ctc aca ggc acc tgt agc 506 Val Arg Arg Pro His Ser Leu Ser Ser Glu Leu Thr Gly Thr Cys Ser 95 100 105 ctc ctg ggc cct gac ctc cgt ccc cag gct cag gcc aac ttc ttc gac 554 Leu Leu Gly Pro Asp Leu Arg Pro Gln Ala Gln Ala Asn Phe Phe Asp 110 115 120 125 ctt gaa aat ctc ctg gat cca gat gca cgt gtg gac act gga gac tgc 602 Leu Glu Asn Leu Leu Asp Pro Asp Ala Arg Val Asp Thr Gly Asp Cys 130 135 140 tac agc aac aaa gaa ggc ggt gga gaa gac gat gtg aac aca gcc agg 650 Tyr Ser Asn Lys Glu Gly Gly Gly Glu Asp Asp Val Asn Thr Ala Arg 145 150 155 cag cgc cgg gct ctg gag aag gag gag gag gaa gac aag gag gag gag 698 Gln Arg Arg Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu 160 165 170 gaa gac gag gag gag gag gaa gct ggc acc gag att gcc atc atc ctg 746 Glu Asp Glu Glu Glu Glu Glu Ala Gly Thr Glu Ile Ala Ile Ile Leu 175 180 185 gat ggc tca gga agc att gat ccc cca gac ttt cag aga gcc aaa gac 794 Asp Gly Ser Gly Ser Ile Asp Pro Pro Asp Phe Gln Arg Ala Lys Asp 190 195 200 205 ttc atc tcc aac atg atg agg aac ttc tat gaa aag tgt ttt gag tgc 842 Phe Ile Ser Asn Met Met Arg Asn Phe Tyr Glu Lys Cys Phe Glu Cys 210 215 220 aac ttt gcc ttg gtg cag tat gga gga gtg atc cag act gag ttt gac 890 Asn Phe Ala Leu Val Gln Tyr Gly Gly Val Ile Gln Thr Glu Phe Asp 225 230 235 ctt cgg gac agc cag gat gtg atg gcc tcc ctc gcc aga gtc cag aac 938 Leu Arg Asp Ser Gln Asp Val Met Ala Ser Leu Ala Arg Val Gln Asn 240 245 250 atc act caa gtg ggg agt gtc acc aag act gcc tca gcc atg caa cac 986 Ile Thr Gln Val Gly Ser Val Thr Lys Thr Ala Ser Ala Met Gln His 255 260 265 gtc tta gac agc atc ttc acc tca agc cac ggc tcc agg aga aag gca 1034 Val Leu Asp Ser Ile Phe Thr Ser Ser His Gly Ser Arg Arg Lys Ala 270 275 280 285 tcc aag gtc atg gtg gtg ctc acc gat ggt ggc ata ttc gag gac ccc 1082 Ser Lys Val Met Val Val Leu Thr Asp Gly Gly Ile Phe Glu Asp Pro 290 295 300 ctc aac ctt acg aca gtc atc aac tcc ccc aaa atg cag ggt gtt gag 1130 Leu Asn Leu Thr Thr Val Ile Asn Ser Pro Lys Met Gln Gly Val Glu 305 310 315 cgc ttt gcc att ggg gtg gga gaa gaa ttt aag agt gct agg act gcg 1178 Arg Phe Ala Ile Gly Val Gly Glu Glu Phe Lys Ser Ala Arg Thr Ala 320 325 330 agg gaa ctg aac ctg atc gcc tca gac ccg gat gag acc cat gct ttc 1226 Arg Glu Leu Asn Leu Ile Ala Ser Asp Pro Asp Glu Thr His Ala Phe 335 340 345 aag gtg acc aac tac atg gcg ctg gat ggg ctg ctg agc aaa ctg cgg 1274 Lys Val Thr Asn Tyr Met Ala Leu Asp Gly Leu Leu Ser Lys Leu Arg 350 355 360 365 tac aac atc atc agc atg gaa ggc acg gtt gga gac gcc ctt cac tac 1322 Tyr Asn Ile Ile Ser Met Glu Gly Thr Val Gly Asp Ala Leu His Tyr 370 375 380 cag ctg gca cag att ggc ttc agt gct cag atc ctg gat gag cgg cag 1370 Gln Leu Ala Gln Ile Gly Phe Ser Ala Gln Ile Leu Asp Glu Arg Gln 385 390 395 gtg ctg ctc ggc gcc gtc ggg gcc ttt gac tgg tcc gga ggg gcg ttg 1418 Val Leu Leu Gly Ala Val Gly Ala Phe Asp Trp Ser Gly Gly Ala Leu 400 405 410 ctc tac gac aca cgc agc cgc cgg ggc cgc ttc ctg aac cag aca gcg 1466 Leu Tyr Asp Thr Arg Ser Arg Arg Gly Arg Phe Leu Asn Gln Thr Ala 415 420 425 gcg gcg gcg gca gac gcg gag gct gcg cag tac agc tac ctg ggt tac 1514 Ala Ala Ala Ala Asp Ala Glu Ala Ala Gln Tyr Ser Tyr Leu Gly Tyr 430 435 440 445 gct gtg gcc gtg ctg cac aag acc tgc agc ctc tcc tac gtc gcg ggg 1562 Ala Val Ala Val Leu His Lys Thr Cys Ser Leu Ser Tyr Val Ala Gly 450 455 460 gct cca cag tac aaa cat cat ggg gcc gtg ttt gag ctc cag aag gag 1610 Ala Pro Gln Tyr Lys His His Gly Ala Val Phe Glu Leu Gln Lys Glu 465 470 475 ggc aga gag gcc agc ttc ctg cca gtg ctg gag gga gag cag atg ggg 1658 Gly Arg Glu Ala Ser Phe Leu Pro Val Leu Glu Gly Glu Gln Met Gly 480 485 490 tcc tat ttt ggc tct gag ctg tgc cct gtg gac att gac atg gat gga 1706 Ser Tyr Phe Gly Ser Glu Leu Cys Pro Val Asp Ile Asp Met Asp Gly 495 500 505 agc acg gac ttc ttg ctg gtg gct gct cca ttt tac cac gtt cat gga 1754 Ser Thr Asp Phe Leu Leu Val Ala Ala Pro Phe Tyr His Val His Gly 510 515 520 525 gaa gaa ggc aga gtc tac gtg tac cgt ctc agc gag cag gat ggt tct 1802 Glu Glu Gly Arg Val Tyr Val Tyr Arg Leu Ser Glu Gln Asp Gly Ser 530 535 540 ttc tcc ttg gca cgc ata ctg agt ggg cac ccc ggg ttc acc aat gcc 1850 Phe Ser Leu Ala Arg Ile Leu Ser Gly His Pro Gly Phe Thr Asn Ala 545 550 555 cgc ttt ggc ttt gcc atg gcg gct atg ggg gat ctc agt cag gat aag 1898 Arg Phe Gly Phe Ala Met Ala Ala Met Gly Asp Leu Ser Gln Asp Lys 560 565 570 ctc aca gat gtg gcc atc ggg gcc ccc ctg gaa ggt ttt ggg gca gat 1946 Leu Thr Asp Val Ala Ile Gly Ala Pro Leu Glu Gly Phe Gly Ala Asp 575 580 585 gat ggt gcc agc ttc ggc agt gtg tat atc tac aat gga cac tgg gac 1994 Asp Gly Ala Ser Phe Gly Ser Val Tyr Ile Tyr Asn Gly His Trp Asp 590 595 600 605 ggc ctc tcc gcc agc ccc tcg cag cgg atc aga gcc tcc acg gtg gcc 2042 Gly Leu Ser Ala Ser Pro Ser Gln Arg Ile Arg Ala Ser Thr Val Ala 610 615 620 cca gga ctc cag tac ttc ggc atg tcc atg gct ggt ggc ttt gat att 2090 Pro Gly Leu Gln Tyr Phe Gly Met Ser Met Ala Gly Gly Phe Asp Ile 625 630 635 agt ggc gac ggc ctt gcc gac atc acc gtg ggc act ctg ggc cag gcg 2138 Ser Gly Asp Gly Leu Ala Asp Ile Thr Val Gly Thr Leu Gly Gln Ala 640 645 650 gtt gtg ttc cgc tcc cgg cct gtg gtt cgc ctg aag gtc tcc atg gcc 2186 Val Val Phe Arg Ser Arg Pro Val Val Arg Leu Lys Val Ser Met Ala 655 660 665 ttc acc ccc agc gca ctg ccc atc ggc ttc aac ggc gtc gtg aat gtc 2234 Phe Thr Pro Ser Ala Leu Pro Ile Gly Phe Asn Gly Val Val Asn Val 670 675 680 685 cgt tta tgt ttt gaa atc agc tct gta acc aca gcc tct gag tca ggc 2282 Arg Leu Cys Phe Glu Ile Ser Ser Val Thr Thr Ala Ser Glu Ser Gly 690 695 700 ctc cgt gag gca ctt ctc aac ttc acg ctg gat gtg gat gtg ggg aag 2330 Leu Arg Glu Ala Leu Leu Asn Phe Thr Leu Asp Val Asp Val Gly Lys 705 710 715 cag agg aga cgg ctg cag tgt tca gac gta aga agc tgt ctg ggc tgc 2378 Gln Arg Arg Arg Leu Gln Cys Ser Asp Val Arg Ser Cys Leu Gly Cys 720 725 730 ctg agg gag tgg agc agc gga tcc cag ctt tgt gag gac ctc ctg ctc 2426 Leu Arg Glu Trp Ser Ser Gly Ser Gln Leu Cys Glu Asp Leu Leu Leu 735 740 745 atg ccc aca gag gga gag ctc tgt gag gag gac tgc ttc tcc aat gcc 2474 Met Pro Thr Glu Gly Glu Leu Cys Glu Glu Asp Cys Phe Ser Asn Ala 750 755 760 765 agt gtc aaa gtc agc tac cag ctc cag acc cct gag gga cag acg gac 2522 Ser Val Lys Val Ser Tyr Gln Leu Gln Thr Pro Glu Gly Gln Thr Asp 770 775 780 cat ccc cag ccc atc ctg gac cgc tac act gag ccc ttt gcc atc ttc 2570 His Pro Gln Pro Ile Leu Asp Arg Tyr Thr Glu Pro Phe Ala Ile Phe 785 790 795 cag ctg ccc tat gag aag gcc tgc aag aat aag ctg ttt tgt gtc gca 2618 Gln Leu Pro Tyr Glu Lys Ala Cys Lys Asn Lys Leu Phe Cys Val Ala 800 805 810 gaa tta cag ttg gcc acc acc gtc tct cag cag gag ttg gtg gtg ggt 2666 Glu Leu Gln Leu Ala Thr Thr Val Ser Gln Gln Glu Leu Val Val Gly 815 820 825 ctc aca aag gag ctg acc ctg aac att aac cta act aac tcc ggg gaa 2714 Leu Thr Lys Glu Leu Thr Leu Asn Ile Asn Leu Thr Asn Ser Gly Glu 830 835 840 845 gat tcc tac atg aca agc atg gcc ttg aat tac ccc aga aac ctg cag 2762 Asp Ser Tyr Met Thr Ser Met Ala Leu Asn Tyr Pro Arg Asn Leu Gln 850 855 860 ttg aag agg atg caa aag cct ccc tct cca aac att cag tgt gat gac 2810 Leu Lys Arg Met Gln Lys Pro Pro Ser Pro Asn Ile Gln Cys Asp Asp 865 870 875 cct cag ccg gtt gct tct gtc ctg atc atg aac tgc agg att ggt cac 2858 Pro Gln Pro Val Ala Ser Val Leu Ile Met Asn Cys Arg Ile Gly His 880 885 890 ccc gtc ctc aag agg tca tct gct cat gtt tca gtc gtt tgg cag cta 2906 Pro Val Leu Lys Arg Ser Ser Ala His Val Ser Val Val Trp Gln Leu 895 900 905 gag gag aat gcc ttt cca aac agg aca gca gac atc act gtg act gtc 2954 Glu Glu Asn Ala Phe Pro Asn Arg Thr Ala Asp Ile Thr Val Thr Val 910 915 920 925 acc aat tcc aat gaa aga cgg tct ttg gcc aac gag acc cac acc ctt 3002 Thr Asn Ser Asn Glu Arg Arg Ser Leu Ala Asn Glu Thr His Thr Leu 930 935 940 caa ttc agg cat ggc ttc gtt gca gtt ctg tcc aaa cca tcc ata atg 3050 Gln Phe Arg His Gly Phe Val Ala Val Leu Ser Lys Pro Ser Ile Met 945 950 955 tac gtg aac aca ggc cag ggg ctt tct cac cac aaa gaa ttc ctc ttc 3098 Tyr Val Asn Thr Gly Gln Gly Leu Ser His His Lys Glu Phe Leu Phe 960 965 970 cat gta cat ggg gag aac ctc ttt gga gca gaa tac cag ttg caa att 3146 His Val His Gly Glu Asn Leu Phe Gly Ala Glu Tyr Gln Leu Gln Ile 975 980 985 tgc gtc cca acc aaa tta cga ggt ctc cag gtt gca gca gtg aag aag 3194 Cys Val Pro Thr Lys Leu Arg Gly Leu Gln Val Ala Ala Val Lys Lys 990 995 1000 1005 ctg acg agg act cag gcc tcc acg gtg tgc acc tgg agt cag gag cgc 3242 Leu Thr Arg Thr Gln Ala Ser Thr Val Cys Thr Trp Ser Gln Glu Arg 1010 1015 1020 gct tgt gcg tac agt tcg gtt cag cat gtg gaa gaa tgg cat tca gtg 3290 Ala Cys Ala Tyr Ser Ser Val Gln His Val Glu Glu Trp His Ser Val 1025 1030 1035 agc tgt gtc atc gct tca gat aaa gaa aat gtc acc gtg gct gca gag 3338 Ser Cys Val Ile Ala Ser Asp Lys Glu Asn Val Thr Val Ala Ala Glu 1040 1045 1050 atc tcc tgg gat cac tct gag gag tta cta aaa gat gta act gaa ctg 3386 Ile Ser Trp Asp His Ser Glu Glu Leu Leu Lys Asp Val Thr Glu Leu 1055 1060 1065 cag atc ctt ggt gaa ata tct ttc aac aaa tct cta tat gag gga ctg 3434 Gln Ile Leu Gly Glu Ile Ser Phe Asn Lys Ser Leu Tyr Glu Gly Leu 070 1075 1080 1085 aat gca gag aac cac aga act aag atc act gtc gtc ttc ctg aaa gat 3482 Asn Ala Glu Asn His Arg Thr Lys Ile Thr Val Val Phe Leu Lys Asp 1090 1095 1100 gag aag tac cat tct ttg cct atc atc att aaa ggc agc gtt ggt gga 3530 Glu Lys Tyr His Ser Leu Pro Ile Ile Ile Lys Gly Ser Val Gly Gly 1105 1110 1115 ctt ctg gtg ttg atc gtg att ctg gtc atc ctg ttc aag tgt ggc ttt 3578 Leu Leu Val Leu Ile Val Ile Leu Val Ile Leu Phe Lys Cys Gly Phe 1120 1125 1130 ttt aaa aga aaa tat caa caa ctg aac ttg gag agc atc agg aag gcc 3626 Phe Lys Arg Lys Tyr Gln Gln Leu Asn Leu Glu Ser Ile Arg Lys Ala 1135 1140 1145 cag ctg aaa tca gag aat ctg ctc gaa gaa gag aat tag gacctgctat 3675 Gln Leu Lys Ser Glu Asn Leu Leu Glu Glu Glu Asn * 150 1155 1160 ccactgggag aggctatcag ccagtcctgg gacttggaga cccagcatcc tttgcattac 3735 tttttccttc aggatgatct agagcagcat ggagctgttg gtagaatatt agtttttaac 3795 catacattgt cccaaaagtg tctgtgcatt gtgcaaaaag taaacttagg aaacatttgg 3855 tattaaataa atttacactt ttctttgcaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 3915 aaaaaaaaaa aa 3927 2 1179 PRT Homo sapien SIGNAL (1)...(18) 2 Met Trp Leu Phe His Thr Leu Leu Cys Ile Ala Ser Leu Ala Leu Leu -15 -10 -5 Ala Ala Phe Asn Val Asp Val Ala Arg Pro Trp Leu Thr Pro Lys Gly 1 5 10 Gly Ala Pro Phe Val Leu Ser Ser Leu Leu His Gln Asp Pro Ser Thr 15 20 25 30 Asn Gln Thr Trp Leu Leu Val Thr Ser Pro Arg Thr Lys Arg Thr Pro 35 40 45 Gly Pro Leu His Arg Cys Ser Leu Val Gln Asp Glu Ile Leu Cys His 50 55 60 Pro Val Glu His Val Pro Ile Pro Lys Gly Arg His Arg Gly Val Thr 65 70 75 Val Val Arg Ser His His Gly Val Leu Ile Cys Ile Gln Val Leu Val 80 85 90 Arg Arg Pro His Ser Leu Ser Ser Glu Leu Thr Gly Thr Cys Ser Leu 95 100 105 110 Leu Gly Pro Asp Leu Arg Pro Gln Ala Gln Ala Asn Phe Phe Asp Leu 115 120 125 Glu Asn Leu Leu Asp Pro Asp Ala Arg Val Asp Thr Gly Asp Cys Tyr 130 135 140 Ser Asn Lys Glu Gly Gly Gly Glu Asp Asp Val Asn Thr Ala Arg Gln 145 150 155 Arg Arg Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu 160 165 170 Asp Glu Glu Glu Glu Glu Ala Gly Thr Glu Ile Ala Ile Ile Leu Asp 175 180 185 190 Gly Ser Gly Ser Ile Asp Pro Pro Asp Phe Gln Arg Ala Lys Asp Phe 195 200 205 Ile Ser Asn Met Met Arg Asn Phe Tyr Glu Lys Cys Phe Glu Cys Asn 210 215 220 Phe Ala Leu Val Gln Tyr Gly Gly Val Ile Gln Thr Glu Phe Asp Leu 225 230 235 Arg Asp Ser Gln Asp Val Met Ala Ser Leu Ala Arg Val Gln Asn Ile 240 245 250 Thr Gln Val Gly Ser Val Thr Lys Thr Ala Ser Ala Met Gln His Val 255 260 265 270 Leu Asp Ser Ile Phe Thr Ser Ser His Gly Ser Arg Arg Lys Ala Ser 275 280 285 Lys Val Met Val Val Leu Thr Asp Gly Gly Ile Phe Glu Asp Pro Leu 290 295 300 Asn Leu Thr Thr Val Ile Asn Ser Pro Lys Met Gln Gly Val Glu Arg 305 310 315 Phe Ala Ile Gly Val Gly Glu Glu Phe Lys Ser Ala Arg Thr Ala Arg 320 325 330 Glu Leu Asn Leu Ile Ala Ser Asp Pro Asp Glu Thr His Ala Phe Lys 335 340 345 350 Val Thr Asn Tyr Met Ala Leu Asp Gly Leu Leu Ser Lys Leu Arg Tyr 355 360 365 Asn Ile Ile Ser Met Glu Gly Thr Val Gly Asp Ala Leu His Tyr Gln 370 375 380 Leu Ala Gln Ile Gly Phe Ser Ala Gln Ile Leu Asp Glu Arg Gln Val 385 390 395 Leu Leu Gly Ala Val Gly Ala Phe Asp Trp Ser Gly Gly Ala Leu Leu 400 405 410 Tyr Asp Thr Arg Ser Arg Arg Gly Arg Phe Leu Asn Gln Thr Ala Ala 415 420 425 430 Ala Ala Ala Asp Ala Glu Ala Ala Gln Tyr Ser Tyr Leu Gly Tyr Ala 435 440 445 Val Ala Val Leu His Lys Thr Cys Ser Leu Ser Tyr Val Ala Gly Ala 450 455 460 Pro Gln Tyr Lys His His Gly Ala Val Phe Glu Leu Gln Lys Glu Gly 465 470 475 Arg Glu Ala Ser Phe Leu Pro Val Leu Glu Gly Glu Gln Met Gly Ser 480 485 490 Tyr Phe Gly Ser Glu Leu Cys Pro Val Asp Ile Asp Met Asp Gly Ser 495 500 505 510 Thr Asp Phe Leu Leu Val Ala Ala Pro Phe Tyr His Val His Gly Glu 515 520 525 Glu Gly Arg Val Tyr Val Tyr Arg Leu Ser Glu Gln Asp Gly Ser Phe 530 535 540 Ser Leu Ala Arg Ile Leu Ser Gly His Pro Gly Phe Thr Asn Ala Arg 545 550 555 Phe Gly Phe Ala Met Ala Ala Met Gly Asp Leu Ser Gln Asp Lys Leu 560 565 570 Thr Asp Val Ala Ile Gly Ala Pro Leu Glu Gly Phe Gly Ala Asp Asp 575 580 585 590 Gly Ala Ser Phe Gly Ser Val Tyr Ile Tyr Asn Gly His Trp Asp Gly 595 600 605 Leu Ser Ala Ser Pro Ser Gln Arg Ile Arg Ala Ser Thr Val Ala Pro 610 615 620 Gly Leu Gln Tyr Phe Gly Met Ser Met Ala Gly Gly Phe Asp Ile Ser 625 630 635 Gly Asp Gly Leu Ala Asp Ile Thr Val Gly Thr Leu Gly Gln Ala Val 640 645 650 Val Phe Arg Ser Arg Pro Val Val Arg Leu Lys Val Ser Met Ala Phe 655 660 665 670 Thr Pro Ser Ala Leu Pro Ile Gly Phe Asn Gly Val Val Asn Val Arg 675 680 685 Leu Cys Phe Glu Ile Ser Ser Val Thr Thr Ala Ser Glu Ser Gly Leu 690 695 700 Arg Glu Ala Leu Leu Asn Phe Thr Leu Asp Val Asp Val Gly Lys Gln 705 710 715 Arg Arg Arg Leu Gln Cys Ser Asp Val Arg Ser Cys Leu Gly Cys Leu 720 725 730 Arg Glu Trp Ser Ser Gly Ser Gln Leu Cys Glu Asp Leu Leu Leu Met 735 740 745 750 Pro Thr Glu Gly Glu Leu Cys Glu Glu Asp Cys Phe Ser Asn Ala Ser 755 760 765 Val Lys Val Ser Tyr Gln Leu Gln Thr Pro Glu Gly Gln Thr Asp His 770 775 780 Pro Gln Pro Ile Leu Asp Arg Tyr Thr Glu Pro Phe Ala Ile Phe Gln 785 790 795 Leu Pro Tyr Glu Lys Ala Cys Lys Asn Lys Leu Phe Cys Val Ala Glu 800 805 810 Leu Gln Leu Ala Thr Thr Val Ser Gln Gln Glu Leu Val Val Gly Leu 815 820 825 830 Thr Lys Glu Leu Thr Leu Asn Ile Asn Leu Thr Asn Ser Gly Glu Asp 835 840 845 Ser Tyr Met Thr Ser Met Ala Leu Asn Tyr Pro Arg Asn Leu Gln Leu 850 855 860 Lys Arg Met Gln Lys Pro Pro Ser Pro Asn Ile Gln Cys Asp Asp Pro 865 870 875 Gln Pro Val Ala Ser Val Leu Ile Met Asn Cys Arg Ile Gly His Pro 880 885 890 Val Leu Lys Arg Ser Ser Ala His Val Ser Val Val Trp Gln Leu Glu 895 900 905 910 Glu Asn Ala Phe Pro Asn Arg Thr Ala Asp Ile Thr Val Thr Val Thr 915 920 925 Asn Ser Asn Glu Arg Arg Ser Leu Ala Asn Glu Thr His Thr Leu Gln 930 935 940 Phe Arg His Gly Phe Val Ala Val Leu Ser Lys Pro Ser Ile Met Tyr 945 950 955 Val Asn Thr Gly Gln Gly Leu Ser His His Lys Glu Phe Leu Phe His 960 965 970 Val His Gly Glu Asn Leu Phe Gly Ala Glu Tyr Gln Leu Gln Ile Cys 975 980 985 990 Val Pro Thr Lys Leu Arg Gly Leu Gln Val Ala Ala Val Lys Lys Leu 995 1000 1005 Thr Arg Thr Gln Ala Ser Thr Val Cys Thr Trp Ser Gln Glu Arg Ala 1010 1015 1020 Cys Ala Tyr Ser Ser Val Gln His Val Glu Glu Trp His Ser Val Ser 1025 1030 1035 Cys Val Ile Ala Ser Asp Lys Glu Asn Val Thr Val Ala Ala Glu Ile 1040 1045 1050 Ser Trp Asp His Ser Glu Glu Leu Leu Lys Asp Val Thr Glu Leu Gln 1055 1060 1065 1070 Ile Leu Gly Glu Ile Ser Phe Asn Lys Ser Leu Tyr Glu Gly Leu Asn 1075 1080 1085 Ala Glu Asn His Arg Thr Lys Ile Thr Val Val Phe Leu Lys Asp Glu 1090 1095 1100 Lys Tyr His Ser Leu Pro Ile Ile Ile Lys Gly Ser Val Gly Gly Leu 1105 1110 1115 Leu Val Leu Ile Val Ile Leu Val Ile Leu Phe Lys Cys Gly Phe Phe 1120 1125 1130 Lys Arg Lys Tyr Gln Gln Leu Asn Leu Glu Ser Ile Arg Lys Ala Gln 1135 1140 1145 1150 Leu Lys Ser Glu Asn Leu Leu Glu Glu Glu Asn 1155 1160 3 165 DNA Homo sapien 3 gaaaatctcc tggatccaga tgcacgtgtg gacactggag actgctacag caacaaagaa 60 ggcggtggag aagacgatgt gaacacagcc aggcagcgcc gggctctgga gaaggaggag 120 gaggaagaca aggaggagga ggaagacgag gaggaggagg aagct 165 4 55 PRT Homo sapien 4 Glu Asn Leu Leu Asp Pro Asp Ala Arg Val Asp Thr Gly Asp Cys Tyr 1 5 10 15 Ser Asn Lys Glu Gly Gly Gly Glu Asp Asp Val Asn Thr Ala Arg Gln 20 25 30 Arg Arg Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu 35 40 45 Asp Glu Glu Glu Glu Glu Ala 50 55 5 21 PRT Homo sapien 5 Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu Asp Glu 1 5 10 15 Glu Glu Glu Glu Ala 20 6 34 PRT Homo sapien 6 Glu Asn Leu Leu Asp Pro Asp Ala Arg Val Asp Thr Gly Asp Cys Tyr 1 5 10 15 Ser Asn Lys Glu Gly Gly Gly Glu Asp Asp Val Asn Thr Ala Arg Gln 20 25 30 Arg Arg 7 102 DNA Homo sapien 7 gaaaatctcc tggatccaga tgcacgtgtg gacactggag actgctacag caacaaagaa 60 ggcggtggag aagacgatgt gaacacagcc aggcagcgcc gg 102 8 10 PRT Homo sapien 8 Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu 1 5 10 9 10 PRT Homo sapien 9 Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu 1 5 10 10 10 PRT Homo sapien 10 Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu 1 5 10 11 10 PRT Homo sapien 11 Glu Glu Glu Asp Lys Glu Glu Glu Glu Asp 1 5 10 12 10 PRT Homo sapien 12 Glu Glu Asp Lys Glu Glu Glu Glu Asp Glu 1 5 10 13 10 PRT Homo sapien 13 Glu Asp Lys Glu Glu Glu Glu Asp Glu Glu 1 5 10 14 10 PRT Homo sapien 14 Asp Lys Glu Glu Glu Glu Asp Glu Glu Glu 1 5 10 15 10 PRT Homo sapien 15 Lys Glu Glu Glu Glu Asp Glu Glu Glu Glu 1 5 10 16 10 PRT Homo sapien 16 Glu Glu Glu Glu Asp Glu Glu Glu Glu Glu 1 5 10 17 10 PRT Homo sapien 17 Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys 1 5 10 18 14 PRT Homo sapien 18 Glu Glu Asp Lys Glu Glu Glu Glu Asp Glu Glu Glu Glu Glu 1 5 10 19 14 PRT Homo sapien 19 Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu 1 5 10 20 15 PRT Homo sapien 20 Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu Asp Glu Glu 1 5 10 15 21 20 PRT Homo sapien 21 Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu Asp Glu 1 5 10 15 Glu Glu Glu Glu 20 22 12 PRT Artificial Sequence Synthetic Peptide 22 Glu Lys Glu Glu Glu Glu Asp Glu Glu Glu Glu Glu 1 5 10 23 12 PRT Artificial Sequence Synthetic Peptide 23 Asp Lys Asp Asp Asp Asp Asp Asp Asp Asp Asp Asp 1 5 10 24 12 PRT Artificial Sequence Synthetic Peptide 24 Glu Asp Glu Glu Glu Glu Glu Glu Glu Glu Glu Glu 1 5 10 25 13 PRT Artificial Sequence Synthetic Peptide 25 Glu Asn Glu Glu Glu Glu Asp Asn Glu Glu Glu Glu Asp 1 5 10 26 21 PRT Artificial Sequence Synthetic Peptide 26 Ala Leu Glu Lys Glu Glu Glu Glu Asp Lys Glu Glu Glu Glu Asp Glu 1 5 10 15 Glu Glu Glu Glu Cys 20 27 9 PRT Homo sapien VARIANT (2)...(4) unknown or any amino acid 27 Asp Xaa Xaa Xaa Asp Xaa Xaa Xaa Asp 1 5 28 5 PRT Drosophila melanogaster 28 Gly Phe Phe Asn Arg 1 5 29 5 PRT Gallus Gallus 29 Gly Phe Phe Asp Arg 1 5 30 5 PRT Cricetinae gen. sp. (Hamster) 30 Asp Phe Phe Lys Pro 1 531 5 PRT Homo sapien 31 Gly Phe Phe Lys Arg 1 5
Claims (2)
1. A method for treating psoriasis, the method comprising administering to a subject in need of such treatment a therapeutically effective amount of an antibody that selectively binds to an αEβ7 integrin.
2. A method for treating psoriasis, the method comprising administering to a subject in need of such treatment a therapeutically effective amount of an antibody that selectively binds to an integrin αE subunit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/177,550 US20030133933A1 (en) | 1994-02-18 | 2002-06-21 | Novel integrin alpha subunit |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US08/199,776 US5594120A (en) | 1994-02-18 | 1994-02-18 | Integrin alpha subunit |
US08/663,731 US6057423A (en) | 1994-02-18 | 1996-06-14 | Integrin alpha subunit |
US08/879,338 US6063906A (en) | 1994-02-18 | 1997-06-20 | Antibodies to integrin alpha subunit |
US09/293,238 US6455042B1 (en) | 1994-02-18 | 1999-04-16 | Method of treating ulcerative colitis or crohn's disease by administering an antibody toαEβ7 integrin |
US10/177,550 US20030133933A1 (en) | 1994-02-18 | 2002-06-21 | Novel integrin alpha subunit |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US09/293,238 Division US6455042B1 (en) | 1994-02-18 | 1999-04-16 | Method of treating ulcerative colitis or crohn's disease by administering an antibody toαEβ7 integrin |
Publications (1)
Publication Number | Publication Date |
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US20030133933A1 true US20030133933A1 (en) | 2003-07-17 |
Family
ID=22738979
Family Applications (5)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US08/199,776 Expired - Lifetime US5594120A (en) | 1994-02-18 | 1994-02-18 | Integrin alpha subunit |
US08/663,731 Expired - Fee Related US6057423A (en) | 1994-02-18 | 1996-06-14 | Integrin alpha subunit |
US08/879,338 Expired - Fee Related US6063906A (en) | 1994-02-18 | 1997-06-20 | Antibodies to integrin alpha subunit |
US09/293,238 Expired - Fee Related US6455042B1 (en) | 1994-02-18 | 1999-04-16 | Method of treating ulcerative colitis or crohn's disease by administering an antibody toαEβ7 integrin |
US10/177,550 Abandoned US20030133933A1 (en) | 1994-02-18 | 2002-06-21 | Novel integrin alpha subunit |
Family Applications Before (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US08/199,776 Expired - Lifetime US5594120A (en) | 1994-02-18 | 1994-02-18 | Integrin alpha subunit |
US08/663,731 Expired - Fee Related US6057423A (en) | 1994-02-18 | 1996-06-14 | Integrin alpha subunit |
US08/879,338 Expired - Fee Related US6063906A (en) | 1994-02-18 | 1997-06-20 | Antibodies to integrin alpha subunit |
US09/293,238 Expired - Fee Related US6455042B1 (en) | 1994-02-18 | 1999-04-16 | Method of treating ulcerative colitis or crohn's disease by administering an antibody toαEβ7 integrin |
Country Status (3)
Country | Link |
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US (5) | US5594120A (en) |
AU (1) | AU1923095A (en) |
WO (1) | WO1995022610A1 (en) |
Families Citing this family (25)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5594120A (en) * | 1994-02-18 | 1997-01-14 | Brigham And Women's Hospital, Inc. | Integrin alpha subunit |
US5610281A (en) | 1994-05-03 | 1997-03-11 | Brigham & Women's Hospital, Inc. | Antibodies for modulating heterotypic E-cadherin interactions with human T lymphocytes |
US6551593B1 (en) * | 1995-02-10 | 2003-04-22 | Millennium Pharmaceuticals, Inc. | Treatment of Inflammatory bowel disease by inhibiting binding and/or signalling through α 4 β 7 and its ligands and madcam |
US7803904B2 (en) * | 1995-09-01 | 2010-09-28 | Millennium Pharmaceuticals, Inc. | Mucosal vascular addressing and uses thereof |
US6107287A (en) * | 1997-09-25 | 2000-08-22 | The Regents Of The University Of California | Lunasin peptides |
US6046316A (en) * | 1997-12-09 | 2000-04-04 | Wayne State University | Nucleic acid encoding truncated integrins |
DE69929712T2 (en) * | 1998-11-25 | 2006-10-19 | The Government Of The United States Of America As Represented By The Secretary, Department Of Health And Human Services | Alpha-E-beta-7 integrin antagonists as therapeutic agents against inflammatory diseases |
WO2000040604A2 (en) * | 1999-01-08 | 2000-07-13 | The Brigham And Women's Hospital, Inc. | METHODS AND COMPOSITIONS FOR MODULATING CYTOKINE RELEASE BY αEβ7-EXPRESSING CELLS |
WO2000047102A2 (en) * | 1999-02-11 | 2000-08-17 | The General Hospital Corporation | COMPOSITIONS AND METHODS FOR MODULATING TGF-β SIGNALING |
US20080318890A1 (en) * | 1999-04-08 | 2008-12-25 | Antisoma Research Limited | Antiproliferative activity of G-rich oligonucleotides and method of using same to bind to nucleolin |
US8114850B2 (en) * | 1999-04-08 | 2012-02-14 | Advanced Cancer Therapeutics, Llc | Antiproliferative activity of G-rich oligonucleotides and method of using same to bind to nucleolin |
US20080318889A1 (en) * | 1999-04-08 | 2008-12-25 | Antisoma Research Limited | Antiproliferative activity of G-rich oligonucleotides and method of using same to bind to nucleolin |
WO2000061597A1 (en) * | 1999-04-08 | 2000-10-19 | Uab Research Foundation | Antiproliferative activity of g-righ oligonucleotides and method of using same to bind to nucleolin |
US7960540B2 (en) * | 1999-04-08 | 2011-06-14 | Advanced Cancer Therapeutics, Llc | Antiproliferative activity of G-rich oligonucleotides and method of using same to bind to nucleolin |
US7033780B1 (en) * | 1999-06-14 | 2006-04-25 | Millennium Pharmaceuticals, Inc. | Nucleic acids corresponding to TANGO 294 a gene encoding a lipase—like protein |
US7160694B2 (en) | 1999-06-14 | 2007-01-09 | Millennium Pharmaceuticals, Inc. | Nucleic acids encoding TANGO405 and functional fragments and uses thereof |
AU2769101A (en) * | 2000-01-07 | 2001-07-24 | Millennium Pharmaceuticals, Inc. | Novel genes encoding proteins having prognostic, diagnostic, preventive, therapeutic, and other uses |
CA2427747A1 (en) * | 2000-10-30 | 2002-05-10 | Kalobios, Inc. | Affinity maturation by competitive selection |
WO2002066989A2 (en) * | 2001-02-20 | 2002-08-29 | The Board Of Trustees Of The University Of Illinois | Diagnostics, assay methods and amelioration of muscular dystrophy symptoms |
US20050069985A1 (en) * | 2001-02-20 | 2005-03-31 | The Board Of Trustees Of The University Of Illinois | Assay methods and amelioration of muscular dystrophy symptoms |
US20030232387A1 (en) * | 2002-06-14 | 2003-12-18 | Millennium Pharmaceuticals, Inc. | Antibodies that bind alphaE integrin |
US20050266001A1 (en) * | 2004-04-02 | 2005-12-01 | Hadley Gregg A | Therapeutic blockade of CD103 interactions to prevent clinical renal allograft rejection |
US20090131351A1 (en) * | 2007-11-16 | 2009-05-21 | Antisoma Research Limited | Methods, compositions, and kits for modulating tumor cell proliferation |
UA116189C2 (en) | 2011-05-02 | 2018-02-26 | Мілленніум Фармасьютікалз, Інк. | FORMULATION FOR ANTI-α4β7 ANTIBODY |
WO2012151247A2 (en) | 2011-05-02 | 2012-11-08 | Millennium Pharmaceuticals, Inc. | FORMULATION FOR ANTI-α4β7 ANTIBODY |
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- 1996-06-14 US US08/663,731 patent/US6057423A/en not_active Expired - Fee Related
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Also Published As
Publication number | Publication date |
---|---|
US6063906A (en) | 2000-05-16 |
AU1923095A (en) | 1995-09-04 |
US6057423A (en) | 2000-05-02 |
US5594120A (en) | 1997-01-14 |
WO1995022610A1 (en) | 1995-08-24 |
US6455042B1 (en) | 2002-09-24 |
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