WO2001025442A1 - Dna polymerase lambda and uses thereof - Google Patents
Dna polymerase lambda and uses thereof Download PDFInfo
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- WO2001025442A1 WO2001025442A1 PCT/GB2000/003784 GB0003784W WO0125442A1 WO 2001025442 A1 WO2001025442 A1 WO 2001025442A1 GB 0003784 W GB0003784 W GB 0003784W WO 0125442 A1 WO0125442 A1 WO 0125442A1
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- nucleic acid
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Classifications
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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
- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/10—Transferases (2.)
- C12N9/12—Transferases (2.) transferring phosphorus containing groups, e.g. kinases (2.7)
- C12N9/1241—Nucleotidyltransferases (2.7.7)
- C12N9/1252—DNA-directed DNA polymerase (2.7.7.7), i.e. DNA replicase
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P17/00—Drugs for dermatological disorders
- A61P17/06—Antipsoriatics
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P19/00—Drugs for skeletal disorders
- A61P19/02—Drugs for skeletal disorders for joint disorders, e.g. arthritis, arthrosis
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P25/00—Drugs for disorders of the nervous system
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
- A61P37/02—Immunomodulators
- A61P37/06—Immunosuppressants, e.g. drugs for graft rejection
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
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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
- A01K2217/05—Animals comprising random inserted nucleic acids (transgenic)
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
Definitions
- the present invention relates to the identification and isolation of a DNA polymerase and uses of this polymerase.
- the present invention describes the nucleotide sequence of the human gene for DNA polymerase lambda (Pol ⁇ ) , the amino acid sequence of Pol ⁇ , and the amino acid sequence of several isoforms derived from alternative splicing of its mRNA. The association of some of these isoforms with tumour samples makes Pol ⁇ a marker for the diagnosis, prognosis and evolution of tumoral processes.
- DNA repair defects can cause cellular transformation.
- Carcinogenesis is a complex process initiated by a damage in the DNA, followed by the mutation or translocation of a DNA segment, and ending with a phenotypic transformation of the cell.
- proto-oncogenes can become tumoral (oncogenes) by the action of several agents that produce DNA strand breaks. Frequently, these changes directly affect the sequence of the proto-oncogene, that is translocated to another breaking point in a different chromosome.
- most cells are endowed with DNA repair mechanisms that recognize and eliminate this genomic damage. The absence or dysfunction of these systems would increase the probability of cell transformation.
- PARP Poly ADP-ribose polymerase
- mutator phenotype is accompanied by a several hundred fold increase in spontaneous mutations [Eshleman et al, (1995), Oncogene 10, 33-37; Eshleman et al, (1996), Oncogene 12, 1425-1432], that appears to be due to dysfunction of genes involved in the process of DNA mismatch repair [Hoffman & Cazaux, (1998), Int. J. Oncol. 12, 377-382; Umar & Kunkel, (1996), Eur.
- the basis for a predisposition to colon cancer can based on the existence of a germ line mutation (inherited) in some of those genes (hMSH2, hMLHl, PMSl, PMS2, hMSH3 and hMSH6) required for postreplicative mismatch repair [Prolla et al, (1998), Nature Genetics 18, 276-279]; a second sporadic mutation, that could appear as a consequence of a defective DNA repair, could increase the mutator phenotype if targets the other allele of the same gene, or targets another gene involved in DNA repair (second mutator) , allowing the further selection of proliferative variants, and leading to tumour formation.
- DNA polymerases ⁇ , ⁇ , ⁇ , ⁇ , e, ⁇ , ⁇ , ⁇ , i, and K DNA polymerases ⁇ , ⁇ and e are involved in DNA replication [Wood & Shivji, (1997), Carcinogenesis 18, 605-610].
- Most DNA repair mechanisms have associated DNA synthesis steps to replace the damaged nucleotides, or to bridge the ends of broken DNA.
- base excision repair which eliminates slightly modified bases or abasic nucleotides.
- the DNA synthesizing enzyme involved in this process appears to be Pol ⁇ , acting in concert with XRCC1 and DNA ligase III [Dianov & Lindahl, (1994), Nature 362, 709-715; Sobol et al, (1996), Nature 379, 183-186; Nicholl et al, (1997), Biochemistry 36, 7557- 7566] .
- XRCC1 DNA ligase III
- PCNA processivity factor
- DNA polymerases ⁇ and e The elimination of thymidine dimers and bulk adducts in the DNA, carried out in a process named "nucleotide excision repair", appears to involve also DNA polymerases ⁇ or e.
- DNA polymerases ⁇ or e are invoked in catalysing the post-replicative repair of insertion errors (mismatch repair) , since this process is normal in Pol ⁇ -deficient cells.
- the expression of Pol ⁇ a house keeping gene, is constant, and is neither stimulated by cell growth nor cell cycle controlled [Zmudzka et al, (1988), Nucleic Acids Res. 16, 9587- 9596] .
- mismatch repair must be coupled to DNA replication, both processes should be co- regulated.
- DNA polymerases ⁇ , ⁇ and ⁇ are not appropriate to correct replication errors. On the contrary, their biochemical properties support that these enzymes are involved in the bypass of DNA lessions, an alternative to DNA repair [Lawrence & Hinkle, (1996), Cancer Surv. 28, 21-31; Masutani et al, (1999), Nature
- DNA polymerases involved in the acquisition of a mutator phenotype. These polymerases may be clinically extremely important for providing the tools for identifying individuals with a predisposition of developing cancer, improve the efficiency of clinic surveillance for an early detection and intervention at early stages [de la Chapelle & Peltomaki, (1995), Annual Rev. Genet. 29, 329-348], and develop novel strategies of therapy based on these targets. It is also possible that some of these DNA polymerases could be involved in neurodegenerative diseases of the central nervous system, since these processes are probably related with a defective or error-prone DNA repair.
- the present invention discloses the nucleic acid sequence of the human and murine genes for DNA polymerase lambda (Pol ⁇ ) , the amino acid sequence of Pol ⁇ , and the amino acid sequence of several isoforms derived from alternative splicing of its mRNA.
- Pol ⁇ DNA polymerase lambda
- the association of some of these isoforms with tumoral samples makes Pol ⁇ a potential marker for prognosis, diagnosis and evolution of some tumoral processes.
- An allelic variant corresponding to a single nucleotide polymorphism located close to the active site and a double mutation close to the polyA that could be related with tumorogenesis are also disclosed.
- Pol ⁇ is a DNA polymerase with a very low insertion fidelity opens up the possibility that dysregulation of this enzyme could increase the mutation frequency of the genome, both at germinal and somatic cells. Moreover, alteration of the expression of Pol ⁇ could be relevant in pathological processes associated with DNA repair deficiencies, that lead to the appearance of a mutator phenotype.
- the present invention provides isolated DNA polymerase ⁇ (Pol ⁇ ) polypeptide comprising the amino acid sequence as set out in SEQ ID No: 4. This is the wild type amino acid sequence of human Pol ⁇ .
- the present invention provides isolated polypeptides which are isoforms of human Pol ⁇ , the polypeptides having the amino acid sequences as set out in SEQ ID Nos: 7, 9 and 11.
- the present invention provides isolated DNA polymerase ⁇ (Pol ⁇ ) polypeptide comprising the amino acid sequence as set out in SEQ ID No: 1. This is the wild type amino acid sequence of murine Pol ⁇ .
- the present invention provides an isolated polypeptide having greater than 40% amino acid sequence identity with any one of the above Pol ⁇ amino acid sequences.
- the present invention provides an isolated polypeptide encoded by nucleic acid capable of hybridising to one of the nucleic acid sequences encoding human or murine Pol ⁇ , or an isoform thereof, under stringent conditions.
- the present invention provides a substance which is a polypeptide which is a sequence variant or allele of any one of the above polypeptides.
- the present invention provides a substance which is a fragment or active portion of one of the above polypeptides.
- the present invention provides isolated nucleic acid molecules encoding one of the above polypeptides.
- the cDNA sequence of full length human Pol ⁇ is set out in SEQ ID No: 5.
- the full length murine Pol ⁇ cDNA sequence is provided as SEQ ID No: 1 and the corresponding genomic sequence is set out in SEQ ID No: 3.
- the nucleic acid sequences of the human isoforms are provided as SEQ ID Nos: 6, 8 and 10.
- the present invention also include nucleic molecules having greater than a 90% sequence identity with one of the above nucleic acid sequence.
- the present invention relates to nucleic acid sequences which hybridise to the sequence set out in SEQ ID No: 1, 5, 6, 8 or 10, e.g. under stringent conditions as disclosed herein.
- the present invention provides an expression vector comprising one of the above nucleic acid operably linked to control sequences to direct its expression, and host cells transformed with the vectors.
- the present invention also includes a method of producing Pol ⁇ polypeptide, or an isoform, fragment or active portion thereof, comprising culturing the host cells and isolating the polypeptide thus produced.
- the present invention provides an expression vector comprising Pol ⁇ nucleic acid for use in methods of gene therapy.
- the present invention provides a composition comprising a Pol ⁇ nucleic acid molecule as defined herein.
- the present invention provides a composition comprising one or more Pol ⁇ polypeptides as defined above.
- the present invention provides the above Pol ⁇ polypeptides or nucleic acid molecules for use in methods of medical treatment.
- the present invention provides the use of a Pol ⁇ polypeptide for screening for candidate compounds which (a) share a Pol ⁇ biological activity or (b) bind to the Pol ⁇ polypeptide or (c) inhibit a biological activity of a Pol ⁇ polypeptide, e.g. to find peptidyl or non-peptidyl mimetics of the Pol ⁇ polypeptides to develop as lead compounds in pharmaceutical research.
- the present invention provides antibodies capable of specifically binding to the above Pol ⁇ polypeptides. These antibodies can be used in assays to detect and quantify the presence of Pol ⁇ polypeptide, in methods of purifying Pol ⁇ polypeptides, and as inhibitors of Pol ⁇ biological activity.
- the present invention method for determining the presence of Pol ⁇ nucleic acid and/or mutations within a nucleic acid sequence in a test sample comprising detecting the hybridization of test sample nucleic acid to a nucleic acid probe based on the Pol ⁇ nucleic acid sequences provided herein.
- the present invention provides a method of amplifying a nucleic acid test sample comprising priming a nucleic acid polymerase reaction with nucleic acid encoding a Pol ⁇ polypeptide as defined above.
- the present invention also provides the use of the above nucleic acid in the search for mutations in the Pol ⁇ genes, e.g. using techniques such as single stranded conformation polymorphism (SSCP) .
- SSCP single stranded conformation polymorphism
- Figure 1 Scheme of the procedure for cloning human POLL gene.
- the different cloning steps are represented by the alignment of the different cDNA fragments obtained.
- Fragments 1-3 were obtained from placenta.
- Fragments 4 to 14 represent sequences obtained from the dbEST/GenBank database, indicated with their accession numbers.
- the EST identified as H11886 presented an internal deletion. Asterisks indicate the relative position of the initiation and termination codons.
- Figure 2 RT-PCR amplification of the mRNA corresponding to the human POLL gene. Specific primers were used to selectively amplify the portion of the mRNA that shows differences in splicing.
- M size marker
- a) Amplification of samples proceeding from fetal and adult brain b) Amplification of samples obtained from cell lines and human tumours
- Figure 3 RT-PCR amplification of the splicing variant D ⁇ corresponding to Pol ⁇ mRNA.
- the reaction was carried out using splicing specific primers (described in the text) in order to amplify selectively the splicing variant D6, both in normal and tumoral tissues.
- M size markers
- ? uncharacterized amplification product.
- Figure 4 RT-PCR amplification of the splicing variant D ⁇ +7 corresponding to Pol ⁇ mRNA.
- the reaction was carried out using splicing specific primers (described in the text) in order to amplify selectively the splicing variant D6+7, both in normal and tumoral tissues.
- M size markers
- ? uncharacterized amplification product.
- Figure 5 A. Single-strand conformational polymorphism (SSCP) analysis demonstrating the occurrence of a possible allelic variant in the coding sequence of human Pol ⁇ . This variant was initially found in an ovarian carcinoma cell line from CLONTECH (lanes 3 and 4). Lanes 1 and 2 represent a normal ovarian tissue. B. After cloning and sequencing, a single nucleotide polymorphism (C to T) , located at position 1389 of the human Pol ⁇ cDNA, was observed. This polymorphism, confirmed in the Spanish population, produces a change of one amino acid residue (Arg436 into Trp) in a portion of the enzyme located very close to the active site.
- SSCP Single-strand conformational polymorphism
- Figure 6 A putative allelic variant of human Pol ⁇ associated with tumourogenesis .
- Figure 7 shows that Pol ⁇ polymerisation is strongly inhibited by non-complementary dNTPs (polydT/polydA, 1 mMMnC12, Pol ⁇ (PC 0.5 M) , 10 min at 30°C) .
- Figure 8 shows that Pol ⁇ polymerisation is strongly inhibited by non-complementary dNTPs using a polydA/dT template in the presence of either manganese or magnesium ions .
- Polymerase of the present invention is referred to in the art and herein as “Pol ⁇ ” or “POLL” for the gene encoding it.
- Poly ⁇ biological activity refers to the activity of these polypeptides as DNA polymerases .
- the novel DNA polymerase (Pol ⁇ ) of the present invention was identified by similarity searches using the amino acid sequence of African swine fever virus (ASFV) Pol X as a probe [Oliveros et al, (1997), J. Biol. Chem. 272, 30899-30911] .
- This viral DNA polymerase belongs to the family of Pol ⁇ -like DNA polymerases, named Pol X family.
- a first indication on the existence of this DNA polymerase was obtained from the finding of a genomic DNA fragment, whose translation showed a low, but significant similarity with Pol X family members, particularly in the most conserved regions of the catalytic core.
- This DNA fragment (clone CIT282B21: gb AC003694), which maps at chromosome 19 in mouse (Mus musculus) was obtained from the HTGS (High Throughput Genome Sequences) database, that contained a further 1849 DNA fragments when Pol ⁇ was identified.
- EST dbEST/GenBank
- the resulting sequence corresponded to an open reading of 2277 nucleotides, coding for 573 amino acid protein. Additional sequence (59 nucleotides) corresponding to the 5 ' -end of the cDNA was obtained by RACE 5', starting from mRNA from murine testis.
- the cDNA corresponding to the Pol ⁇ gene (POLL) consists of a total of 2336 bp (SEQ ID No: 1), with a 5'- untranslated region of 83 bp (nucleotides 1 to 83) , a coding region of 1722 bp (nucleotides 84 to 1805) , and a 3 ' -untranslated region of 531 bp (nucleotides 1806-2336).
- the derived protein, murine Pol ⁇ has 573 amino acids (SEQ ID No: 1 or 2) .
- This gene spans about 8 kilobases and maps to mouse chromosome 19.
- This genomic sequence contains several microsatellites located in several introns: (A) 12 in positions 1079..1156 y 3088..3138; (CA)32 in positions 3779..3823 y 4914..4982; (GCCTCT)40 in positions 4017..4272; "AT-rich” in positions 1565..1589, and (TGG)n in positions 3874..3901.
- the mRNA transcript is made of 9 exons.
- the C-terminal segment encompassing amino acid residues 247 to 573 shows a high similarity with members of the DNA polymerase X family [Ito & Braithwaite, (1991), Nucleic Acids Res. 19, 4045-4057].
- Members of this family are: Pol ⁇ , the only eukaryotic DNA polymeras that has been selectively involved in DNA repair; AFSV PolX, involved in viral DNA repair; terminal deoxynucleotidyl transferase (TdT) , involved in the generation of antigen receptor variability.
- Murine Pol ⁇ has a 32% amino acid sequence identity with Pol ⁇ , in the portion that can be aligned (amino acid residues 240 to 573).
- the first 239 amino acids of Pol ⁇ which have no counterpart in Pol ⁇ , contain a BRCT domain (amino acid residues 34 to 125) .
- the BRCT domain has been recently described to be present in single of multiple copies either in the N-terminus or in the C- terminus of proteins directly involved in DNA repair or involved in cell-cycle control checkpoints in response to DNA damage. It is worth noting that the BRCT domain, initially identified in the BRCA1 protein, is also present in other proteins involved in tumorogenesis as the ECT2 oncogene, protein p53BP, and human RB .
- Pol ⁇ in transformed E . coli cells, using a vector that contains the complete sequence of the mouse cDNA, allowing us to obtain high amounts of purified recombinant Pol ⁇ , and to obtain specific polyclonal antibodies, the expression of the protein and the generation of antibodies capable of specifically binding to Pol ⁇ protein being part of the present invention (see further below) .
- the present invention thus includes, inter alia, Pol ⁇ gene sequence; Pol ⁇ cDNA sequence; Pol ⁇ amino acid sequence; vector comprising Pol ⁇ nucleic acid, transformed cells expressing Pol ⁇ ; and monoclonal and polyclonal antibodies that are specific for Pol ⁇ .
- the intrinsic DNA polymerase activity associated to Pol ⁇ can be demonstrated using an in si tu DNA polymerase analysis in SDS-polyacrylamide gels [Blanco & Salas, (1984) , P.N.A.S. USA 81, 5325-5329], and crude E . coli extracts in which the expression of Pol ⁇ had been induced.
- the DNA polymerase activity of this novel enzyme that is the basis for the application of this novel DNA polymerase as a tool in molecular biology, forms part of the present invention.
- the availability of 8 kilobases of Pol ⁇ genomic sequence allowed us to identify and determine of sequence of the human cDNA for Pol ⁇ (SEQ ID No: 4), together with the amino acid sequence of the encoded protein (SEQ ID No: 5), both forming part of the present invention.
- the murine and human homologues of Pol ⁇ share more than 80% of amino acid identity, that reaches the 90% in the most conserved regions, and 57% in the Ser/Pro -rich flexible hinge.
- the identification of the human homologue of Pol ⁇ was initially based in similarity searches of the dbEST/GeneBank database. Among a total of 1,323,073 non- redundant sequences, 11 entries had significant similarity with mouse Pol ⁇ .
- Pol ⁇ mRNA is highly abundant in testis (both in human and mouse) , although there is a basal expression in most tissues. Therefore, the expression data suggest that the normal or predominant function of this DNA polymerase could be to repair the DNA breaks occurring at somatic cells, and to participate in meiosis, a process that is triggered by programmed double-strand breaks in the DNA of germinal cells.
- biochemical properties of this novel DNA polymerase are the basis for its potential use as a novel DNA modification enzyme in molecular biology, and constitute a further aspect of the present invention.
- human Pol ⁇ presents a significant number of splicing variants that can be detected in normal tissues, tumoral tissues and cell lines.
- one of the non-truncated variants corresponds to the omission of exon 6, and other to the simultaneous omission of exons 6 and 7.
- the third non-truncated variant is produced by the use of a cryptic splicing site present inside exon 5 of the human sequence.
- hPOL ⁇ delta5 (clone type a60b4): has a deletion of nucleotides 987-1262 in the cDNA; it loses 87% of exon 5, deleting 277 bases from position 607 (SEQ ID No: 6); the resulting amino acid sequence is shown in SEQ ID No: 7.
- hP0L ⁇ delta6 (clone type a31m) : has a deletion of nucleotides 1263-1436 in the cDNA; it completely loses exon 6, 175 bases from position 26 (SEQ ID No: 8); the resulting amino acid sequence is shown in SEQ ID No: 9.
- hP0L ⁇ delta ⁇ +7 (clon type a31c) : has a deletion of nucleotides 1263-1565; it completely loses exons 6 and 7 (304 bases from position 26 (SEQ ID No: 10) ) , and whose resulting amino acid sequence is shown in SEQ ID No: 11.
- the other two splicing variants are less interesting "a priori", since they produce an early truncation of the open reading frame.
- splicing-specific pair of PCR-primers were designed. These primers, able to amplify selectively each splicing variant (see Example 2), serve to identify their presence and relative amount in different biological samples. Methods of assessing the relative amounts of the variants also forms part of the present invention.
- variant D6 absent in adult brain but present in fetal brain, was also absent in most of the normal tissues analysed (with the exception of pancreas), but on the contrary it can be detected in primary tumours of the corresponding tissues ( Figure 3).
- variant D6+7 The selective amplification of variant D6+7 showed that, as it occurs in fetal brain, but not in adult brain, this variant is present in most of the normal tissues, and is present in similar or slightly increased amounts in the corresponding tumours (Figure 4). Interestingly, a new variant was observed in adult brain, that corresponds to the additional retention of intron 8. This novel isoform is only detectable in normal pancreas and it appears in tumour samples corresponding to tissues in which is normally absent. The most significant example is colon, in which there is a complete substitution of isoforms when comparing a normal versus tumoral tissue.
- deletion D6+7 produces the loss of part of the subdomain 8 kDa, and the complete loss of the "fingers" subdomain, with the consequent loss of two important DNA binding domains of the enzyme, the so called “helix-hairpin-helix motifs [Doherty et al, (1996), Nucleic Acids Res. 24, 2488-2497].
- the three variants D5, D ⁇ and D ⁇ +7 do not give rise to the truncation of the protein, and maintain the subdomains that form the catalytic site.
- DNA polymerase variants produced by alternative splicing represent "mutator" DNA polymerases that could act as dominant error-prone versions, able to interfere and/or alter the normal levels of DNA repair, inducing cellular transformation of those cells in which these variants are expressed, or favouring other processes related to a deficient DNA repair capacity, as it occurs in neurodegenerative diseases and aging.
- Pol ⁇ will serve to generate a model of Pol ⁇ -deficiency in mouse (knock out), in which this gene can be selectively deleted [Schawartzberg et al, (1989), Science 246, 799-803], that will be very useful to study the induction of pathologies, and to identify novel therapeutic compounds.
- the mutated ESTs had the identification number: AI970471; AA576526; AA922738; AI612820; AA927738; AI538103; AA468875. Three of the latter derive from germ cell tumours, one from ovary tumour, one from uterus adenocarcinoma, and the two remaining from breast and colon carcinomas. In some nucleic acid embodiments of the invention, these ESTs are excluded from the present invention. Therefore, and in the absence of a more exhaustive and significant statistic analysis, the incidence of this double mutation in tumoral samples from different nature reaches the surprisingly high value of 64%. The most reasonable interpretation is that this double-mutation corresponds to an allelic variant, with a high linkage or probability to develop tumours.
- This correlation could be the consequence of an altered stability of the Pol ⁇ mRNA in those individuals harbouring the allelic variant, that could imply a deficiency in Pol ⁇ function, and therefore, in the capacity of the cell to carry out specific processes of DNA repair.
- the identification of this double-mutation in human biological samples by different techniques of molecular biology, as in situ hybridization or PCR, will allow the early diagnosis of the individuals harbouring the mutation, helping to define appropriate control and surveillance of the population at a risk.
- Poly ⁇ nucleic acid includes a nucleic acid molecule which has a nucleotide sequence encoding a polypeptide which includes the amino acid sequence shown in SEQ ID No: 1 or 4.
- the Pol ⁇ coding sequence may be the full length sequence shown in SEQ ID No: 1 or 4 , a complementary nucleic acid sequence, or it may be a mutant, derivative or allele of these sequences.
- the sequence may differ from that shown by a change which is one or more of addition, insertion, deletion and substitution of one or more nucleotides of the sequence shown. Changes to a nucleotide sequence may result in an amino acid change at the protein level, or not, as determined by the genetic code.
- nucleic acid according to the present invention may include a sequence different from the sequence shown in SEQ ID No: 1 or 4 yet encode a polypeptide with the same amino acid sequence .
- the encoded polypeptide may comprise an amino acid sequence which differs by one or more amino acid residues from the amino acid sequence shown in SEQ ID No: 1 or .
- Nucleic acid encoding a polypeptide which is an amino acid sequence mutant, variant, derivative or allele of the sequence shown in SEQ ID No: 1 or 4 is further provided by the present invention. Such polypeptides are discussed below. Nucleic acid encoding such a polypeptide preferably have at least 40% sequence identity with the coding sequence shown in SEQ ID No: 1 or 4, more preferably at least 80% sequence identity, more preferably at least 90% sequence identity, more preferably at least 95% sequence identity, and most preferably at least 98% sequence identity.
- the present invention also includes fragments of the Pol ⁇ nucleic acid sequences described herein, the fragments preferably being at least 60, 120, 180, 240, or 480 nucleotides in length.
- nucleic acid according to the present invention is provided as an isolate, in isolated and/or purified form, or free or substantially free of material with which it is naturally associated, such as free or substantially free of nucleic acid flanking the gene in the human genome, except possibly one or more regulatory sequence (s) for expression.
- Nucleic acid may be wholly or partially synthetic and may include genomic DNA, cDNA or RNA. Where nucleic acid according to the invention includes RNA, reference to the sequence shown should be construed as reference to the RNA equivalent, with U substituted for T.
- Nucleic acid sequences encoding all or part of the POLL gene and/or its regulatory elements can be readily prepared by the skilled person using the information and references contained herein and techniques known in the art (for example, see Sambrook, Fritsch and Maniatis, "Molecular Cloning, A Laboratory Manual, Cold Spring Harbor Laboratory Press, 1989, and Ausubel et al, Short Protocols in Molecular Biology, John Wiley and Sons, 1992). These techniques include (i) the use of the polymerase chain reaction (PCR) to amplify samples of such nucleic acid, e.g. from genomic sources, (ii) chemical synthesis, or (iii) amplification in E . coli . Modifications to the Pol ⁇ sequences can be made, e.g. using site directed mutagenesis, to provide expression of modified Pol ⁇ polypeptide or to take account of codon preference in the host cells used to express the nucleic acid.
- PCR polymerase chain reaction
- the sequences can be incorporated in a vector having control sequences operably linked to the Pol ⁇ nucleic acid to control its expression.
- the vectors may include other sequences such as promoters or enhancers to drive the expression of the inserted nucleic acid, nucleic acid sequences so that the Pol ⁇ polypeptide is produced as a fusion and/or nucleic acid encoding secretion signals so that the polypeptide produced in the host cell is secreted from the cell.
- Pol ⁇ polypeptide can then be obtained by transforming the vectors into host cells in which the vector is functional, culturing the host cells so that the Pol ⁇ polypeptide is produced and recovering the Pol ⁇ polypeptide from the host cells or the surrounding medium.
- Prokaryotic and eukaryotic cells are used for this purpose in the art, including strains of E . coli , yeast, and eukaryotic cells such as COS or CHO cells.
- the choice of host cell can be used to control the properties of the Pol ⁇ polypeptide expressed in those cells, e.g. controlling where the polypeptide is deposited in the host cells or affecting properties such as its glycosylation and phosphorylation.
- PCR techniques for the amplification of nucleic acid are described in US Patent No. 4,683,195. In general, such techniques require that sequence information from the ends of the target sequence is known to allow suitable forward and reverse oligonucleotide primers to be designed to be identical or similar to the polynucleotide sequence that is the target for the amplification.
- PCR comprises steps of denaturation of template nucleic acid (if double-stranded) , annealing of primer to target, and polymerisation.
- the nucleic acid probed or used as template in the amplification reaction may be genomic DNA, cDNA or RNA.
- PCR can be used to amplify specific sequences from genomic DNA, specific RNA sequences and cDNA transcribed from mRNA, bacteriophage or plasmid sequences.
- the Pol ⁇ nucleic acid sequences provided herein readily allow the skilled person to design PCR primers. References for the general use of PCR techniques include Mullis et al, Cold Spring Harbor Symp. Quant. Biol., 51:263, (1987), Ehrlich (ed) , PCR Technology, Stockton Press, NY, 1989, Ehrlich et al, Science, 252:1643-1650, (1991), "PCR protocols; A Guide to Methods and Applications", Eds. Innis et al, Academic Press, New York, (1990) .
- the nucleic acid sequences provided herein are useful for identifying nucleic acid of interest (and which may be according to the present invention) in a test sample.
- the present invention provides a method of obtaining nucleic acid of interest, the method including hybridising a probe sharing all or part of the sequence provided herein, or a complementary sequence, to the target nucleic acid. Hybridization is generally followed by identification of successful hybridization and isolation of nucleic acid which has hybridized to the probe, which may involve one or more steps of PCR.
- Nucleic acid according to the present invention is obtainable using one or more oligonucleotide probes or primers designed to hybridize with one or more fragments of the nucleic acid sequence shown herein, particularly- fragments of relatively rare sequence, based on codon usage or statistical analysis.
- a primer designed to hybridize with a fragment of the nucleic acid sequence shown in the above figures may be used in conjunction with one or more oligonucleotides designed to hybridize to a sequence in a cloning vector within which target nucleic acid has been cloned, or in so-called "RACE" (rapid amplification of cDNA ends) in which cDNA's in a library are ligated to an oligonucleotide linker and PCR is performed using a primer which hybridizes with the sequence shown herein and a primer which hybridizes to the oligonucleotide linker.
- RACE rapid amplification of cDNA ends
- Such oligonucleotide probes or primers, as well as the full-length sequence (and mutants, alleles, variants and derivatives) are also useful in screening a test sample containing nucleic acid for the presence of alleles, mutants and variants, especially those that lead to the production of inactive or dysfunctional forms of Pol ⁇ protein, the probes hybridizing with a target sequence from a sample obtained from the individual being tested.
- the conditions of the hybridization can be controlled to minimise non-specific binding, and preferably stringent to moderately stringent hybridization conditions are preferred.
- the skilled person is readily able to design such probes, label them and devise suitable conditions for the hybridization reactions, assisted by textbooks such as Sambrook et al (1989) and Ausubel et al (1992) .
- the probes may also be used to determine whether mRNA encoding Pol ⁇ is present in a cell or tissue.
- An example of polymorphism is the single nucleotide polymorphism at position 1389, discussed in detail in Example 5.
- Nucleic acid isolated and/or purified from one or more cells may be probed under conditions for selective hybridization and/or subjected to a specific nucleic acid amplification reaction such as the polymerase chain reaction (PCR) .
- PCR polymerase chain reaction
- cloning it may be necessary for one or more gene fragments to be ligated to generate a full- length coding sequence. Also, where a full-length encoding nucleic acid molecule has not been obtained, a smaller molecule representing part of the full molecule, may be used to obtain full-length clones. Inserts may be prepared from partial cDNA clones and used to screen cDNA libraries. The full-length clones isolated may be subcloned into expression vectors and activity assayed by transfection into suitable host cells, e.g. with a reporter plasmid.
- a method may include hybridization of one or more (e.g. two) probes or primers to target nucleic acid. Where the nucleic acid is double-stranded DNA, hybridization will generally be preceded by denaturation to produce single- stranded DNA. The hybridization may be as part of a PCR procedure, or as part of a probing procedure not involving PCR. An example procedure would be a combination of PCR and low stringency hybridization. A screening procedure, chosen from the many available to those skilled in the art, is used to identify successful hybridization events and isolated hybridized nucleic acid.
- Binding of a probe to target nucleic acid may be measured using any of a variety of techniques at the disposal of those skilled in the art.
- probes may be radioactively, fluorescently or enzymatically labelled.
- Other methods not employing labelling of probe include examination of restriction fragment length polymorphisms, amplification using PCR, RNAse cleavage and allele specific oligonucleotide probing.
- Probing may employ the standard Southern blotting technique. For instance DNA may be extracted from cells and digested with different restriction enzymes. Restriction fragments may then be separated by electrophoresis on an agarose gel, before denaturation and transfer to a nitrocellulose filter. Labelled probe may be hybridized to the DNA fragments on the filter and binding determined. DNA for probing may be prepared from RNA preparations from cells.
- Preliminary experiments may be performed by hybridizing under low stringency conditions various probes to Southern blots of DNA digested with restriction enzymes. Suitable conditions would be achieved when a large number of hybridizing fragments were obtained while the background hybridization was low. Using these conditions, nucleic acid libraries, e.g. cDNA libraries representative of expressed sequences, may be searched.
- oligonucleotide probes or primers may be designed, taking into account the degeneracy of the genetic code, and where appropriate, codon usage of the organism from the candidate nucleic acid is derived.
- An oligonucleotide for use in nucleic acid amplification may have about 10 or fewer codons (e.g. 6, 7 or 8), i.e. be about 30 or fewer nucleotides in length (e.g. 18, 21 or 24) .
- Generally specific primers are upwards of 14 nucleotides in length, but not more than 18-20. Those skilled in the art are well versed in the design of primers for use processes such as PCR.
- a further aspect of the present invention provides an oligonucleotide or polynucleotide fragment of the one of the nucleotide sequence disclosed herein, or a complementary sequence, in particular for use in a method of obtaining and/or screening nucleic acid.
- the sequences referred to above may be modified by addition, substitution, insertion or deletion of one or more nucleotides, but preferably without abolition of ability to hybridize selectively with nucleic acid with the sequence shown herein, that is wherein the degree of sequence identity of the oligonucleotide or polynucleotide with one of the sequences given is sufficiently high.
- oligonucleotides according to the present invention that are fragments of any of the nucleic acid sequences provided herein, or complementary sequences thereof, are at least about 10 nucleotides in length, more preferably at least about 15 nucleotides in length, more preferably at least about 20 nucleotides in length. Such fragments themselves individually represent aspects of the present invention. Fragments and other oligonucleotides may be used as primers or probes as discussed but may also be generated (e.g. by PCR) in methods concerned with determining the presence of Pol ⁇ nucleic acid in a test sample.
- Nucleic acid according to the present invention may be used in methods of gene therapy, for instance in treatment of individuals with the aim of preventing or curing (wholly or partially) the above mentioned conditions. This too is discussed below.
- a convenient way of producing a polypeptide according to the present invention is to express nucleic acid encoding it, by use of the nucleic acid in an expression system.
- the use of expression systems has reached an advanced degree of sophistication.
- the present invention also encompasses a method of making a polypeptide (as disclosed) , the method including expression from nucleic acid encoding the polypeptide (generally nucleic acid according to the invention) .
- This may conveniently be achieved by growing a host cell in culture, containing such a vector, under appropriate conditions which cause or allow expression of the polypeptide.
- Polypeptides may also be expressed in in vi tro systems, such as reticulocyte lysate.
- Suitable host cells include bacteria, eukaryotic cells such as mammalian and yeast, and baculovirus systems.
- Mammalian cell lines available in the art for expression of a heterologous polypeptide include Chinese hamster ovary cells, HeLa cells, baby hamster kidney cells, COS cells and many others.
- a common, preferred bacterial host is E. coli .
- Suitable vectors can be chosen or constructed, containing appropriate regulatory sequences, including promoter sequences, terminator fragments, polyadenylation sequences, enhancer sequences, marker genes and other sequences as appropriate.
- Vectors may be plasmids, viral e.g. 'phage, or phagemid, as appropriate.
- plasmids viral e.g. 'phage, or phagemid, as appropriate.
- Many known techniques and protocols for manipulation of nucleic acid for example in preparation of nucleic acid constructs, mutagenesis, sequencing, introduction of DNA into cells and gene expression, and analysis of proteins, are described in detail in Current Protocols in Molecular Biology, Ausubel et al. eds., John Wiley & Sons, 1992.
- a further aspect of the present invention provides a host cell containing nucleic acid as disclosed herein.
- the nucleic acid of the invention may be integrated into the genome (e.g. chromosome) of the host cell.
- the nucleic acid may be on an extra-chromosomal vector within the cell.
- a still further aspect provides a method which includes introducing the nucleic acid into a host cell.
- the introduction which may (particularly for in vi tro introduction) be generally referred to without limitation as "transformation", may employ any available technique.
- suitable techniques may include calcium phosphate transfection, DEAE-Dextran, electroporation, liposome-mediated transfection and transduction using retrovirus or other virus, e.g. vaccinia or, for insect cells, baculovirus.
- suitable techniques may include calcium chloride transformation, electroporation and transfection using bacteriophage.
- direct injection of the nucleic acid could be employed.
- Marker genes such as antibiotic resistance or sensitivity genes may be used in identifying clones containing nucleic acid of interest, as is well known in the art.
- the introduction may be followed by causing or allowing expression from the nucleic acid, e.g. by culturing host cells (which may include cells actually transformed although more likely the cells will be descendants of the transformed cells) under conditions for expression of the gene, so that the encoded polypeptide is produced. If the polypeptide is expressed coupled to an appropriate signal leader peptide it may be secreted from the cell into the culture medium.
- a polypeptide may be isolated and/or purified from the host cell and/or culture medium, as the case may be, and subsequently used as desired, e.g. in the formulation of a composition which may include one or more additional components, such as a pharmaceutical composition which includes one or more pharmaceutically acceptable excipients, vehicles or carriers (e.g. see below ) .
- a host cell containing nucleic acid according to the present invention may be comprised (e.g. in the soma) within an organism which is an animal, particularly a mammal, which may be human or non-human, such as rabbit, guinea pig, rat, mouse or other rodent, cat, dog, pig, sheep, goat, cattle or horse, or which is a bird, such as a chicken. Genetically modified or transgenic animals or birds comprising such a cell are also provided as further aspects of the present invention .
- host cells may be used as a nucleic acid factory to replicate the nucleic acid of interest in order to generate large amounts of it. Multiple copies of nucleic acid of interest may be made within a cell when coupled to an amplifiable gene such as DHFR.
- Host cells transformed with nucleic acid of interest, or which are descended from host cells into which nucleic acid was introduced, may be cultured under suitable conditions, e.g. in a fermenter, taken from the culture and subjected to processing to purify the nucleic acid. Following purification, the nucleic acid or one or more fragments thereof may be used as desired, for instance in a diagnostic or prognostic assay as discussed elsewhere herein.
- a further aspect of the present invention provides a polypeptide which has the amino acid sequence shown in SEQ ID No: 1 or 4, which may be in isolated and/or purified form, free or substantially free of material with which it is naturally associated, such as other polypeptides or such as human polypeptides other than Pol ⁇ polypeptide or (for example if produced by expression in a prokaryotic cell) lacking in native glycosylation, e.g. unglycosylated.
- Polypeptides which are amino acid sequence variants, alleles, derivatives or isoforms are also provided by the present invention.
- a polypeptide which is a variant, allele, derivative or isoform may have an amino acid sequence which differs from that provided herein by one or more of addition, substitution, deletion and insertion of one or more amino acids.
- Preferred polypeptides have Pol ⁇ polymerase function, as defined above.
- a polypeptide which is an amino acid sequence variant, allele, derivative or mutant of the amino acid sequence shown in SEQ ID No: 1 or 4 has at least 40% sequence identity to one of those sequences, more preferably at least 50% sequence identity, more preferably at least 60% sequence identity, more preferably at least 70% sequence identity, more preferably at least 80% sequence identity, more preferably at least 90% sequence identity, and most preferably at least 95% sequence identity to the sequences of SEQ ID Nos: 1 or 4.
- sequence comparisons and determine identity using techniques well known in the art, e.g. using the GCG program which is available from Genetics Computer Group, Oxford Molecular Group, Madison, Wisconsin, USA, Version 9.1.
- Particular amino acid sequence variants may differ from those shown in SEQ ID Nos: 1 or 4 by insertion, addition, substitution or deletion of 1 amino acid, 2, 3, 4, 5-10, 10-20 20-30, 30- 50, 50-100, 100-150, or more than 150 amino acids.
- “Stringency” of hybridization reactions is readily determinable by one of ordinary skill in the art, and generally is an empirical calculation dependent upon probe length, washing temperature, and salt concentration. In general, longer probes require higher temperatures for proper annealing, while shorter probes need lower temperatures. Hybridization generally depends on the ability of denatured DNA to reanneal when complementary strands are present in an environment below their melting temperature. The higher the degree of desired homology between the probe and hybridizable sequence, the higher the relative temperature which can be used. As a result, it follows that higher relative temperatures would tend to make the reaction conditions more stringent, while lower temperatures less so. For additional details and explanation of stringency of hybridization reactions, see Ausubel et al, Current Protocols in Molecular Biology, Wiley Interscience Publishers, (1995) .
- “Stringent conditions” or “high stringency conditions”, as defined herein, may be identified by those that: (1) employ low ionic strength and high temperature for washing, for example 0.015 M sodium chloride/0.0015 M sodium citrate/ 0.1% sodium dodecyl sulfate at 50°C; (2) employ during hybridization a denaturing agent, such as formamide, for example, 50% (v/v) formamide with 0.1% bovine serum albumin/0.1% Ficoll/0.1% polyvinylpyrrolidone/50mM sodium phosphate buffer at pH 6.5 with 760 mM sodium chloride, 75 mM sodium citrate at 42°C; or (3) employ 50% formamide, 5 x SSC (0.75 M NaCl, 0.075 M sodium citrate), 50 mM sodium phosphate (pH 6 8), 0.1% sodium pyrophosphate, 5 x Denhardt ' s solution, sonicated salmon sperm DNA (50 lg/ml) , 0.1% SDS, and 10% dex
- Percent (%) amino acid sequence identity with respect to the Pol ⁇ polypeptide sequences identified herein is defined as the percentage of amino acid residues in a candidate sequence that are identical with the amino acid residues in the Pol ⁇ sequence, after aligning the sequences and introducing gaps, if necessary, to achieve the maximum percent sequence identity, and not considering any conservative substitutions as part of the sequence identity.
- the % identity values used herein are generated by WU-BLAST-2 which was obtained from [Altschul et al, Methods in Enzymology, 266:460-480 (1996); http: //blast. wustl/edu/blast/README. html] . WU-BLAST-2 uses several search parameters, most of which are set to the default values.
- the HSP S and HSPS2 parameters are dynamic values and are established by the program itself depending upon the composition of the particular sequence and composition of the particular database against which the sequence of interest is being searched; however, the values may be adjusted to increase sensitivity.
- a % amino acid sequence identity value is determined by the number of matching identical residues divided by the total number of residues of the "longer" sequence in the aligned region.
- the "longer" sequence is the one having the most actual residues in the aligned region (gaps introduced by WU-Blast-2 to maximize the alignment score are ignored) .
- percent (%) nucleic acid sequence identity with respect to the coding sequence of the Pol ⁇ polypeptides identified herein is defined as the percentage of nucleotide residues in a candidate sequence that are identical with the nucleotide residues in the Pol ⁇ coding sequence as provided in SEQ ID No: 1 and 4.
- identity values used herein were generated by the BLASTN module of WU BL AST-2 set to the default parameters, with overlap span and overlap fraction set to 1 and 0.125, respectively.
- the present invention also includes active portions, and fragments of the Pol ⁇ polypeptides of the invention.
- An "active portion" of Pol ⁇ polypeptide means a peptide which is less than said full length Pol ⁇ polypeptide, but which retains at least some of its essential biological activity, e.g. as a DNA polymerase. For instance, smaller fragments of Pol ⁇ can act as sequestrators or competitive antagonists by interacting with other proteins.
- a "fragment" of the Pol ⁇ polypeptide means a stretch of amino acid residues of at least 5 contiguous amino acids from the sequences set out as SEQ ID No: 1, 4, 7, 9 or 11, or more preferably at least 7 contiguous amino acids, or more preferably at least 10 contiguous amino acids or more preferably at least 20 contiguous amino acids or more preferably at least 40 contiguous amino acids. Fragments of the Pol ⁇ polypeptide sequences may be useful as antigenic determinants or epitopes for raising antibodies to a portion of the Pol ⁇ amino acid sequence.
- a “derivative" of the Pol ⁇ polypeptide or a fragment thereof means a polypeptide modified by varying the amino acid sequence of the protein, e.g. by manipulation of the nucleic acid encoding the protein or by altering the protein itself. Such derivatives of the natural amino acid sequence may involve insertion, addition, deletion or substitution of one, two, three, five or more amino acids, without fundamentally altering the essential activity of the Pol ⁇ polypeptide.
- a polypeptide according to the present invention may be isolated and/or purified (e.g. using an antibody) for instance after production by expression from encoding nucleic acid (for which see below). Polypeptides according to the present invention may also be generated wholly or partly by chemical synthesis.
- the isolated and/or purified polypeptide may be used in formulation of a composition, which may include at least one additional component, for example a pharmaceutical composition including a pharmaceutically acceptable excipient, vehicle or carrier.
- a composition including a polypeptide according to the invention may be used in prophylactic and/or therapeutic treatment as discussed below.
- a polypeptide, peptide fragment, allele, mutant or variant according to the present invention may be used as an immunogen or otherwise in obtaining specific antibodies.
- Antibodies are useful in purification and other manipulation of polypeptides and peptides, diagnostic screening and therapeutic contexts. This is discussed further below.
- a polypeptide according to the present invention may be used in screening for molecules which affect or modulate its activity or function. Such molecules may be useful in a therapeutic (possibly including prophylactic) context.
- the Pol ⁇ polypeptides can also be linked to a coupling partner, e.g. an effector molecule, a label, a drug, a toxin and/or a carrier or transport molecule.
- a coupling partner e.g. an effector molecule, a label, a drug, a toxin and/or a carrier or transport molecule.
- Antibodies capable of binding Pol ⁇ polypeptides A further important use of the Pol ⁇ polypeptides is in raising antibodies that have the property of specifically binding to the Pol ⁇ polypeptides, or fragments or active portions thereof.
- Monoclonal antibodies can be subjected to the techniques of recombinant DNA technology to produce other antibodies or chimeric molecules which retain the specificity of the original antibody. Such techniques may involve introducing DNA encoding the immunoglobulin variable region, or the complementarity determining regions (CDRs) , of an antibody to the constant regions, or constant regions plus framework regions, of a different immunoglobulin. See, for instance, EP-A-184187, GB-A-2188638 or EP-A-239400.
- a hybridoma producing a monoclonal antibody may be subject to genetic mutation or other changes, which may or may not alter the binding specificity of antibodies produced.
- a further aspect of the present invention provides anti-Pol ⁇ antibodies.
- Such an antibody may be specific in the sense of being able to distinguish between the polypeptide it is able to bind and other human polypeptides for which it has no or substantially no binding affinity (e.g. a binding affinity of about lOOOx worse) .
- Specific antibodies bind an epitope on the molecule which is either not present or is not accessible on other molecules.
- Antibodies according to the present invention may be specific for the wild-type polypeptide.
- Antibodies according to the invention may be specific for a particular mutant, variant, allele or derivative polypeptide as between that molecule and the wild-type Pol ⁇ polypeptide, so as to be useful in diagnostic and prognostic methods as discussed below. Antibodies are also useful in purifying the polypeptide or polypeptides to which they bind, e.g. following production by recombinant expression from encoding nucleic acid.
- Preferred antibodies according to the invention are isolated, in the sense of being free from contaminants such as antibodies able to bind other polypeptides and/or free of serum components. Monoclonal antibodies are preferred for some purposes, though polyclonal antibodies are within the scope of the present invention.
- Antibodies may be obtained using techniques which are standard in the art. Methods of producing antibodies include immunising a mammal (e.g. mouse, rat, rabbit, horse, goat, sheep or monkey) with the protein or a fragment thereof. Antibodies may be obtained from immunised animals using any of a variety of techniques known in the art, and screened, preferably using binding of antibody to antigen of interest. For instance, Western blotting techniques or immunoprecipitation may be used (Armitage et al, Nature, 357:80-82, 1992). Isolation of antibodies and/or antibody-producing cells from an animal may be accompanied by a step of sacrificing the animal.
- a mammal e.g. mouse, rat, rabbit, horse, goat, sheep or monkey
- Antibodies may be obtained from immunised animals using any of a variety of techniques known in the art, and screened, preferably using binding of antibody to antigen of interest. For instance, Western blotting techniques or immunoprecipitation may be used (Armitage
- an antibody specific for a protein may be obtained from a recombinantly produced library of expressed immunoglobulin variable domains, e.g. using lambda bacteriophage or filamentous bacteriophage which display functional immunoglobulin binding domains on their surfaces; for instance see WO92/01047.
- the library may be naive, that is constructed from sequences obtained from an organism which has not been immunised with any of the proteins (or fragments), or may be one constructed using sequences obtained from an organism which has been exposed to the antigen of interest.
- Antibodies according to the present invention may be modified in a number of ways.
- antibody should be construed as covering any binding substance having a binding domain with the required specificity.
- the invention covers antibody fragments, derivatives, functional equivalents and homologues of antibodies, including synthetic molecules and molecules whose shape mimics that of an antibody enabling it to bind an antigen or epitope.
- Example antibody fragments capable of binding an antigen or other binding partner are the Fab fragment consisting of the VL, VH, Cl and CHI domains; the Fd fragment consisting of the VH and CHI domains; the Fv fragment consisting of the VL and VH domains of a single arm of an antibody; the dAb fragment which consists of a VH domain; isolated CDR regions and F(ab')2 fragments, a bivalent fragment including two Fab fragments linked by a disulphide bridge at the hinge region. Single chain Fv fragments are also included.
- Humanised antibodies in which CDRs from a non-human source are grafted onto human framework regions, typically with the alteration of some of the framework amino acid residues, to provide antibodies which are less immunogenic than the parent non-human antibodies, are also included within the present invention.
- a hybridoma producing a monoclonal antibody according to the present invention may be subject to genetic mutation or other changes. It will further be understood by those skilled in the art that a monoclonal antibody can be subjected to the techniques of recombinant DNA technology to produce other antibodies or chimeric molecules which retain the specificity of the original antibody. Such techniques may involve introducing DNA encoding the immunoglobulin variable region, or the complementarity determining regions (CDRs), of an antibody to the constant regions, or constant regions plus framework regions, of a different immunoglobulin. See, for instance, EP-A-184187, GB-A-2188638 or EP-A-0239400. Cloning and expression of chimeric antibodies are described in EP-A-0120694 and EP-A-0125023.
- Hybridomas capable of producing antibody with desired binding characteristics are within the scope of the present invention, as are host cells, eukaryotic or prokaryotic, containing nucleic acid encoding antibodies (including antibody fragments) and capable of their expression.
- the invention also provides methods of production of the antibodies including growing a cell capable of producing the antibody under conditions in which the antibody is produced, and preferably secreted.
- the reactivities of antibodies on a sample may be determined by any appropriate means. Tagging with individual reporter molecules is one possibility.
- the reporter molecules may directly or indirectly generate detectable, and preferably measurable, signals.
- the linkage of reporter molecules may be directly or indirectly, covalently, e.g. via a peptide bond or non- covalently. Linkage via a peptide bond may be as a result of recombinant expression of a gene fusion encoding antibody and reporter molecule.
- fluorochromes include fluorescein, rhodamine, phycoerythrin and Texas Red.
- Suitable chromogenic dyes include diaminobenzidine .
- Other reporters include macromolecular colloidal particles or particulate material such as latex beads that are coloured, magnetic or paramagnetic, and biologically or chemically active agents that can directly or indirectly cause detectable signals to be visually observed, electronically detected or otherwise recorded.
- These molecules may be enzymes which catalyse reactions that develop or change colours or cause changes in electrical properties, for example. They may be molecularly excitable, such that electronic transitions between energy states result in characteristic spectral absorptions or emissions. They may include chemical entities used in conjunction with biosensors.
- Biotin/avidin or biotin/streptavidin and alkaline phosphatase detection systems may be employed.
- the mode of determining binding is not a feature of the present invention and those skilled in the art are able to choose a suitable mode according to their preference and general knowledge.
- Antibodies according to the present invention may be used in screening for the presence of a polypeptide, for example in a test sample containing cells or cell lysate as discussed, and may be used in purifying and/or isolating a polypeptide according to the present invention, for instance following production of the polypeptide by expression from encoding nucleic acid therefor. Antibodies may modulate the activity of the polypeptide to which they bind and so, if that polypeptide has a deleterious effect in an individual, may be useful in a therapeutic context (which may include prophylaxis) .
- An antibody may be provided in a kit, which may include instructions for use of the antibody, e.g. in determining the presence of a particular substance in a test sample.
- One or more other reagents may be included, such as labelling molecules, buffer solutions, elutants and so on. Reagents may be provided within containers which protect them from the external environment, such as a sealed vial.
- a number of methods are known in the art for analysing biological samples from individuals to determine whether the individual carries a Pol ⁇ allele which is wild type or which includes a polymorphism.
- the purpose of such analysis may be used for diagnosis or prognosis, in particular for the diagnosis or prognosis of tumours or tumour malignancy, to assist a physician in determining the severity or likely course of the condition and/or to optimise treatment of it.
- the methods divide into those screening for the presence of Pol ⁇ nucleic acid sequences and those that rely on detecting the presence or absence of the Pol ⁇ polypeptide or isoforms thereof.
- the methods make use of biological samples from individuals that are suspected of contain the nucleic acid sequences or polypeptide. Examples of biological samples include blood, plasma, serum, tissue samples, tumour samples, saliva and urine.
- Exemplary approaches for detecting Pol ⁇ nucleic acid or polypeptides include:
- a specific binding member capable of binding to a Pol ⁇ nucleic acid sequence (either a normal sequence or a known mutated sequence) , the specific binding member comprising nucleic acid hybridisable with the Pol ⁇ nucleic acid sequence, or substances comprising an antibody domain with specificity for a native or mutated Pol ⁇ nucleic acid sequence or the polypeptide encoded by it, the specific binding member being labelled so that binding of the specific binding member to its binding partner is detectable; or,
- a “specific binding pair” comprises a specific binding member (sbm) and a binding partner (bp) which have a particular specificity for each other and which in normal conditions bind to each other in preference to other molecules.
- specific binding pairs are antigens and antibodies, molecules and receptors and complementary nucleotide sequences. The skilled person will be able to think of many other examples and they do not need to be listed here. Further, the term “specific binding pair” is also applicable where either or both of the specific binding member and the binding partner comprise a part of a larger molecule.
- the specific binding pair are nucleic acid sequences, they will be of a length to hybridise to each other under the conditions of the assay, preferably greater than 10 nucleotides long, more preferably greater than 15 or 20 nucleotides long.
- the sample will initially be amplified, e.g. using PCR, to increase the amount of the analyte as compared to other sequences present in the sample. This allows the target sequences to be detected with a high degree of sensitivity if they are present in the sample. This initial step may be avoided by using highly sensitive array techniques that are becoming increasingly important in the art.
- a variant form of the POLL gene may contain one or more insertions, deletions, substitutions and/or additions of one or more nucleotides compared with the wild-type sequence which may or may not disrupt the gene function. Differences at the nucleic acid level are not necessarily reflected by a difference in the amino acid sequence of the encoded polypeptide, but may be linked to a known dysfunction. However, a mutation or other difference in a gene may result in a frame-shift or stop codon, which could seriously affect the nature of the polypeptide produced (if any) , or a point mutation or gross mutational change to the encoded polypeptide, including insertion, deletion, substitution and/or addition of one or more amino acids or regions in the polypeptide.
- a mutation in a promoter sequence or other regulatory region may prevent or reduce expression from the gene or affect the processing or stability of the mRNA transcript.
- An example of a single nucleotide polymorphism associated tumorigenesis is the single base pair change transition (C to T) at position 1389 of Pol ⁇ cDNA which results in a change of the amino acid residue 436 (Arg) to tryptophan (Trp) in the coding region of Pol ⁇ .
- exemplary tests include nucleotide sequencing, hybridization using nucleic acid immobilized on chips, molecular phenotype tests, protein truncation tests (PTT), single-strand conformation polymorphism (SSCP) tests, mismatch cleavage detection and denaturing gradient gel electrophoresis (DGGE) .
- PTT protein truncation tests
- SSCP single-strand conformation polymorphism
- DGGE denaturing gradient gel electrophoresis
- Tests may be carried out on preparations containing genomic DNA, cDNA and/or mRNA.
- Testing cDNA or mRNA has the advantage of the complexity of the nucleic acid being reduced by the absence of intron sequences, but the possible disadvantage of extra time and effort being required in making the preparations.
- RNA is more difficult to manipulate than DNA because of the widespread occurrence of RNAses.
- Nucleic acid in a test sample may be sequenced and the sequence compared with the sequence shown in SEQ ID No : 4 , to determine whether or not a difference is present. If so, the difference can be compared with known susceptibility alleles to determine whether the test nucleic acid contains one or more of the variations indicated. Since it will not generally be time- or labour-efficient to sequence all nucleic acid in a test sample or even the whole POLL gene, a specific amplification reaction such as PCR using one or more pairs of primers may be employed to amplify the region of interest in the nucleic acid, for instance the POLL gene or a particular region in which mutations associated with a susceptibility to one of the conditions mentioned above.
- a specific amplification reaction such as PCR using one or more pairs of primers may be employed to amplify the region of interest in the nucleic acid, for instance the POLL gene or a particular region in which mutations associated with a susceptibility to one of the conditions mentioned above.
- the amplified nucleic acid may then be sequenced as above, and/or tested in any other way to determine the presence or absence of a particular feature.
- Nucleic acid for testing may be prepared from nucleic acid removed from cells or in a library using a variety of other techniques such as restriction enzyme digest and electrophoresis.
- Nucleic acid may be screened using a variant- or allele- specific probe.
- a probe corresponds in sequence to a region of the POLL gene, or its complement, containing a sequence alteration known to be associated with a susceptibility to the conditions mentioned above.
- specific hybridisation of such a probe to test nucleic acid is indicative of the presence of the sequence alteration in the test nucleic acid.
- more than one probe may be used on the same test sample.
- Allele- or variant-specific oligonucleotides may similarly be used in PCR to specifically amplify particular sequences if present in a test sample.
- Assessment of whether a PCR band contains a gene variant may be carried out in a number of ways familiar to those skilled in the art.
- the PCR product may for instance be treated in a way that enables one to display the mutation or polymorphism on a denaturing polyacrylamide DNA sequencing gel, with specific bands that are linked to the gene variants being selected.
- An alternative or supplement to looking for the presence of variant sequences in a test sample is to look for the presence of the normal sequence, e.g. using a suitably specific oligonucleotide probe or primer.
- RNAse A cleaves at the site of a mis-match. Cleavage can be detected by electrophoresing test nucleic acid to which the relevant probe or probe has annealed and looking for smaller molecules (i.e. molecules with higher electrophoretic mobility) than the full length probe/test hybrid.
- Other approaches rely on the use of enzymes such as resolvases or endonucleases .
- an oligonucleotide probe that has the sequence of a region of the normal POLL gene (either sense or anti- sense strand) in which mutations are known to occur may be annealed to test nucleic acid and the presence or absence of a mis-match determined. Detection of the presence of a mis-match may indicate the presence in the test nucleic acid of a mutation.
- an oligonucleotide probe that has the sequence of a region of the POLL gene including a mutation may be annealed to test nucleic acid and the presence or absence of a mis ⁇ match determined. The absence of a mis-match may indicate that the nucleic acid in the test sample has the normal sequence. In either case, a battery of probes to different regions of the gene may be employed.
- the presence of differences in sequence of nucleic acid molecules may be detected by means of restriction enzyme digestion, such as in a method of DNA fingerprinting where the restriction pattern produced when one or more restriction enzymes are used to cut a sample of nucleic acid is compared with the pattern obtained when a sample containing the normal gene or a variant or allele is digested with the same enzyme or enzymes.
- the presence or the absence of an important regulatory element in a promoter or other regulatory sequence located in introns may also be assessed by determining the level of mRNA production by transcription or the level of polypeptide production by translation from the mRNA.
- a test sample of nucleic acid may be provided for example by extracting nucleic acid from cells, e.g. in saliva or preferably blood, or for pre-natal testing from the amnion, placenta or foetus itself.
- a sample may be tested for the presence of a binding partner for a specific binding member such as an antibody (or mixture of antibodies) , specific for one or more particular variants of the Pol ⁇ polypeptide.
- a binding partner for a specific binding member such as an antibody (or mixture of antibodies) , specific for one or more particular variants of the Pol ⁇ polypeptide.
- a sample may be tested for the presence of a binding partner for a specific binding member such as an antibody (or mixture of antibodies), specific for the polypeptide.
- a binding partner for a specific binding member such as an antibody (or mixture of antibodies), specific for the polypeptide.
- the sample may be tested by being contacted with a specific binding member such as an antibody under appropriate conditions for specific binding, before binding is determined, for instance using a reporter system as discussed.
- a specific binding member such as an antibody under appropriate conditions for specific binding
- different reporting labels may be employed for each antibody so that binding of each can be determined.
- a specific binding member such as an antibody may be used to isolate and/or purify its binding partner polypeptide from a test sample, to allow for sequence and/or biochemical analysis of the polypeptide to determine whether it has the sequence and/or properties of the Pol ⁇ polypeptide, or if it is a mutant or variant form.
- Amino acid sequence is routine in the art using automated sequencing machines.
- Pol ⁇ polypeptides and antagonists and agonists may be useful in the treatment of a wide range of disorders.
- inhibitors of the Pol ⁇ enzyme could be used to treat cancer, in particular in combination with drugs produce DNA damage, e.g. to drive cells into apoptosis, thereby preventing the diseased cells from repairing damage caused by the treatment with the drug.
- the role of Pol ⁇ in the error-prone DNA repair processes can lead to the generation of the secondary immune response, such as class switch recombination and somatic hypermutation .
- Pol ⁇ inhibitors might be used in the treatment of immunosuppression, psoriasis, arthritis and graft rejection.
- compositions can be formulated in pharmaceutical compositions.
- These compositions may comprise, in addition to one of the above substances, a pharmaceutically acceptable excipient, carrier, buffer, stabiliser or other materials well known to those skilled in the art. Such materials should be non-toxic and should not interfere with the efficacy of the active ingredient.
- a pharmaceutically acceptable excipient e.g. oral, intravenous, cutaneous or subcutaneous, nasal, intramuscular, intraperitoneal routes .
- compositions for oral administration may be in tablet, capsule, powder or liquid form.
- a tablet may include a solid carrier such as gelatin or an adjuvant.
- Liquid pharmaceutical compositions generally include a liquid carrier such as water, petroleum, animal or vegetable oils, mineral oil or synthetic oil. Physiological saline solution, dextrose or other saccharide solution or glycols such as ethylene glycol, propylene glycol or polyethylene glycol may be included.
- the active ingredient will be in the form of a parenterally acceptable aqueous solution which is pyrogen-free and has suitable pH, isotonicity and stability.
- a parenterally acceptable aqueous solution which is pyrogen-free and has suitable pH, isotonicity and stability.
- isotonic vehicles such as Sodium Chloride Injection, Ringer's Injection, Lactated Ringer's Injection.
- Preservatives, stabilisers, buffers, antioxidants and/or other additives may be included, as required.
- administration is preferably in a "prophylactically effective amount” or a "therapeutically effective amount” (as the case may be, although prophylaxis may be considered therapy) , this being sufficient to show benefit to the individual.
- a prophylaxis may be considered therapy
- the actual amount administered, and rate and time-course of administration, will depend on the nature and severity of what is being treated. Prescription of treatment, e.g. decisions on dosage etc, is within the responsibility of general practitioners and other medical doctors, and typically takes account of the disorder to be treated, the condition of the individual patient, the site of delivery, the method of administration and other factors known to practitioners. Examples of the techniques and protocols mentioned above can be found in Remington' s Pharmaceutical Sciences, 16th edition, Osol, A. (ed) , 1980.
- targeting therapies may be used to deliver the active agent more specifically to certain types of cell, by the use of targeting systems such as antibody or cell specific ligands.
- Targeting may be desirable for a variety of reasons; for example if the agent is unacceptably toxic, or if it would otherwise require too high a dosage, or if it would not otherwise be able to enter the target cells.
- they could be produced in the target cells by expression from an encoding gene introduced into the cells, eg in a viral vector (a variant of the VDEPT technique - see below) .
- the vector could be targeted to the specific cells to be treated, or it could contain regulatory elements which are switched on more or less selectively by the target cells .
- the agent could be administered in a precursor form, for conversion to the active form by an activating agent produced in, or targeted to, the cells to be treated.
- an activating agent produced in, or targeted to, the cells to be treated.
- This type of approach is sometimes known as ADEPT or VDEPT; the former involving targeting the activating agent to the cells by conjugation to a cell- specific antibody, while the latter involves producing the activating agent, e.g. an enzyme, in a vector by expression from encoding DNA in a viral vector (see for example, EP-A-415731 and WO90/07936) .
- a composition may be administered alone or in combination with other treatments, either simultaneously or sequentially, dependent upon the condition to be treated.
- a polypeptide according to the present invention may be used in screening for molecules which affect or modulate its activity or function. Such molecules may be useful in a therapeutic (possibly including prophylactic) context.
- a method of screening for a substance which modulates activity of a polypeptide may include contacting one or more test substances with the polypeptide in a suitable reaction medium, testing the activity of the treated polypeptide and comparing that activity with the activity of the polypeptide in comparable reaction medium untreated with the test substance or substances. A difference in activity between the treated and untreated polypeptides is indicative of a modulating effect of the relevant test substance or substances.
- Combinatorial library technology provides an efficient way of testing a potentially vast number of different substances for ability to modulate activity of a polypeptide.
- Such libraries and their use are known in the art.
- the use of peptide libraries is preferred.
- test substances Prior to or as well as being screened for modulation of activity, test substances may be screened for ability to interact with the polypeptide, e.g. in a yeast two-hybrid system (which requires that both the polypeptide and the test substance can be expressed in yeast from encoding nucleic acid) .
- This may be used as a coarse screen prior to testing a substance for actual ability to modulate activity of the polypeptide.
- the screen could be used to screen test substances for binding to a Pol ⁇ specific binding partner, to find mimetics of the Pol ⁇ polypeptide, e.g. for testing as therapeutics.
- the substance may be investigated further. Furthermore, it may be manufactured and/or used in preparation, i.e. manufacture or formulation, of a composition such as a medicament, pharmaceutical composition or drug. These may be administered to individuals.
- the present invention extends in various aspects not only to a substance identified using a nucleic acid molecule as a modulator of polypeptide activity, in accordance with what is disclosed herein, but also a pharmaceutical composition, medicament, drug or other composition comprising such a substance, a method comprising administration of such a composition to a patient, use of such a substance in manufacture of a composition for administration, and a method of making a pharmaceutical composition comprising admixing such a substance with a pharmaceutically acceptable excipient, vehicle or carrier, and optionally other ingredients.
- Example 1 Cloning of the cDNA corresponding to human Pol ⁇ .
- Cloning of the human POLL gene was initiated by the identification, in the public database dbEST/GeneBank, of a collection of ESTs that showed a high similarity with the cDNA sequence of the mouse POLL gene, previously obtained in our laboratory. These ESTs have the following identification numbers: AA742404, AA922738, AI091150, AA989195, W69567, AI123218, AI199486, AA576526, W69888, T81701 y H11886. All of them corresponded to the 3 ' -untranslated region, with the exception of the EST H11886, that seemed to contain part of the coding region of Pol ⁇ .
- the cDNA corresponding to Pol ⁇ was obtained as a series of overlapping fragments (Figure 1) by PCR amplification.
- the first fragment (al36-20, Figure 1) was obtained by specific PCR using primers derived form the ESTs described above. This fragment overlapped with the sequence of the EST H11886, and with the collection of ESTs corresponding to the 3 '-end. This fragment, 1419 bp long, spans positions 1107 to 2525 of the complete cDNA described here.
- the 3 '-terminal segment, from 2526 to 2678 was deduced from the consensus of the ESTs.
- the second fragment (a60-a, Figure 1) was obtain by semi-specific PCR, with a sense primer derived from the murine sequence close to the initiation codon, and an antisense primer derived from the human PCR fragment al36-20.
- This second fragment 996 bp long, contains the coding sequence corresponding to positions 380 and 1375 of human Pol ⁇ cDNA.
- the cDNA sequence sequence was completed with fragment a91 ( Figure 1), obtained by RACE 5', a 504 bp long fragment that contains the untranslated 5 '-region, and the initial portion of the coding region.
- the complete cDNA of human Pol ⁇ contains a total of 2678 bp, with a 5 ' -untranslated region of 371 bp (1-371), a coding sequence spanning 1728 bp (372-2099), and a 3 ' -untranslated region of 579 bp (2100-2678).
- the corresponding protein, Pol ⁇ has 575 amino acid residues.
- the coding sequences corresponding to the mouse and human homologues of Pol lambda share a 84% identity at the DNA level.
- the mouse and human Pol ⁇ have an overall 80% identity, that reaches 90% in the most conserved domains, and is reduced to 57% in the region connecting the BRCT domain and the Pol ⁇ core.
- Example 2 PCR analysis of Pol ⁇ variants in cDNA from different origin, normal and tumoral.
- splicing variants hPOLLdelta ⁇ and hPOLLdelta ( 6+7 ) we developed assays to detect these variants at the cDNA level.
- the assay relies on the use of specific primers that allow to amplify cDNA fragments corresponding to each particular variant of Pol ⁇ .
- specific primers able to distinguish among the different variants, splicing-specific sense primers were used, whereas a common antisense primer was used in all cases.
- Antisense primer for both variants named 2B2, corresponding to a common region located at exon 9: 2B2 5'-GGAGCGGTTGAAGTGTGC-3'
- Sense primer specific for the variant hPOLLdelta6, named 2B3, was designed in such a way that its first 11 5 ' -nucleotides correspond to the end of exon 5, whereas the rest of the primer correspond to the initial sequences of exon 7:
- the specific primer corresponding to the variant hPOLLdelta ( 6+7 ) was designed in such a way that its first 5 ' -nucleotides correspond to the end of exon 5, and the rest of nucleotides correspond to the initial sequence of exon 8: 2B4 5 ' -CACCTCGTACCAGGTCCAGA-3 ' .
- reaction tubes contained cDNA samples from different origins, and the following combination of primers: 1) 2B3 and 2B2 ( Figures 2 and 3) 2B4 and 2B2 ( Figure 4), at an individual concentration of -l ⁇ M.
- the reaction mixture contained Tris-HCl 10 mM pH 9, KC1 50 mM, MgC12 1.5 mM, each nucleotide (dATP, dCTP, dGTP y dTTP) at 0.2 mM, and Taq DNA pol at 0.025 U/ml.
- the reactions took place during 40 cycles of PCR, being each cycle: 10 s at 94°C and 20 s at 60°C. The identity of the fragments was confirmed by cloning and sequencing.
- Example 3 Expression and purification of mouse Pol ⁇ and generation of specific antibodies .
- the cDNA region coding for Pol ⁇ was PCR-amplified from the plasmid provided by the LLNL, using primers designed for a further cloning into sites EcoRI and Ndel of vector pT7, or into site EcoRI and BamHI of the expression plasmid pRSET-A (Invitrogen) . In the latter case, a 6xHistidine tag is added at the N-terminus of the recombinant protein.
- Induction of Pol ⁇ expression was carried out at 30, 32 and 37°C, at an optical density of 0.6 (A600) .
- IPTG (Sigma), at a concentration of 0.5 mM, was added.
- Rifampicine (Sigma) was added 20 min after induction, at a concentration of 120 ⁇ g/ml. The optimal time of induction was shown to be 2 hours.
- induction was carried out in the presence of 2.5 mM Betaina (Sigma) and 1M sorbitol (BDH) . In all the conditions assayed, the mouse Pol ⁇ was insoluble.
- Example 5 PCR/SSCP screening of the entire coding region of human Pol ⁇ .
- a panel of cDNA libraries from normal versus tumoral human tissues (Clontech) was used as a template to search for possible genetic alterations in the human Pol ⁇ gene.
- Sets of primers were selected to cover the entire coding sequence of the human Pol ⁇ gene.
- the amplimers obtained were separately screened by SSCP. Using primers: sense 5' GGCATGTGGTTCATACCGAC and antisense
- PCR reactions were conducted at standard conditions using 10 pmol of each primer, 0.25 mM dNTPs, 1 x Taq buffer (lOmM Tris, 50 mM, KCl, gelatin, 0.2 mg/ml BSA, pH 8.5), 0.25 U of Taq polymerase to a total volume of PCR mixture 10 ml.
- PCR parameteres were as follows, during 35 cycles: 94°C/15 sec for denaturation; 60°C/ 30 sec, for primer annealing, and 72°C /15 sec, for extension. PCR products were then subjected to SSCP analysis.
- Genomic DNA from 12 unrelated individuals was prepared from peripheral blood lymphocytes as described. PCRs were performed with approximately 20-50 ng of genomic DNA at standard conditions: 10 pmol of each primer, 0.25 mM dNTPs, 1 x Taq buffer (lOmM Tris, 50 mM, KCl, gelatin, 0.2 mg/ml BSA, pH 8.5), 0.25 U of Taq polymerase to a total volume of PCR mixture 10 ml. Sequence of the primers to amplify the portion of the catalytic domain of human pol ⁇ (entire exon 8) were: sense 5'GGCATGTGGTTCATACCGAC; antisense 5' TTCCTGCCGAAGACTGTCA.
- PCR parameteres were as follows, during 35 cycles: 94°C/15 sec for denaturation; 60°C/ 30 sec, for primer annealing, and 72°C /15 sec, for extension. PCR products were cloned into TA cloning vector pCRII. (Invitrogen) and sequenced by automated dideoxy termination dye method on ABI 373 (Applied Biosystems) automatic sequencer.
- SSCP Single strand conformational polymorphism analysis
- SSCP Single strand conformational polymorphism
- DNA sequencing were used to analyze overlapping PCR products covering the complete cDNA of human Pol ⁇ , searching for the presence of mutations associated to cancer.
- a panel of normal versus tumoral human tissues (Clontech) was used.
- SSCP has revealed an altered mobility in the SSCP analysis was observed in the case of ovarian carcinoma cDNA library in a portion of human Pol ⁇ close to the catalytic site.
- Cloning and sequencing of these fragments identified a single base pair substitution present in a homozygous form in ovarian carcinoma cDNA, while a heterozygous constitution was detected in the SCCP profiles corresponding to normal ovarian tissue cDNA library.
- a single base pair change transition (C to T) at position 1389 of Pol ⁇ cDNA results in a change of the amino acid residue 436 (Arg) to tryptophan (Trp) in the coding region of Pol ⁇ .
- Arg amino acid residue 436
- Trp tryptophan
- Non-radioactive in si tu hybridization was performed on tissue sections at 12-14 ⁇ m thickness mounted on poly-L- lysine coated glass slides. Testes from 20 days postnatal and adult were dissected and immediately fixed in a 4% paraformaldehyde in DEPC-treated PBS at 4°C overnight. Agar-embedded sections were hybridized with O.l ⁇ g/ml sense or antisense digoxigenin-labelled riboprobes (Boehringer Mannheim) . Finally, the slides were stained with Hoechst 33258, observed under fluorescence and bright field microscopy and CCD camera recorded. Then, the coverslips were removed, the slides were dehydrated and mounted with DePeX (Serva) .
- Figure 8 also shows that the inhibition of Pol ⁇ is independent of the nature of the activating magnesium or manganese ions used in the assay.
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NZ518458A NZ518458A (en) | 1999-10-01 | 2000-10-02 | Isolate DNA polymerase lambda and uses thereof |
AT00964482T ATE313631T1 (en) | 1999-10-01 | 2000-10-02 | DNA POLYMERASE LAMBDA AND THEIR USES |
AU75415/00A AU770704C (en) | 1999-10-01 | 2000-10-02 | DNA polymerase lambda and uses thereof |
CA2388363A CA2388363C (en) | 1999-10-01 | 2000-10-02 | Dna polymerase lambda and uses thereof |
ES00964482T ES2258474T3 (en) | 1999-10-01 | 2000-10-02 | LAMBDA POLYMERASE OF DNA AND ITS USES. |
US10/089,653 US7883880B1 (en) | 1999-10-01 | 2000-10-02 | DNA polymerase lambda and uses thereof |
EP00964482A EP1218518B1 (en) | 1999-10-01 | 2000-10-02 | Dna polymerase lambda and uses thereof |
JP2001528594A JP3801917B2 (en) | 1999-10-01 | 2000-10-02 | DNA polymerase lambda and use thereof |
DE60025011T DE60025011T2 (en) | 1999-10-01 | 2000-10-02 | DNA POLYMERASE LAMBDA AND ITS USES |
US12/928,030 US20120009648A1 (en) | 1999-10-01 | 2010-11-30 | DNA polymerase lambda and uses thereof |
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US10109606B2 (en) | 2011-10-27 | 2018-10-23 | Global Circuit Innovations, Inc. | Remapped packaged extracted die |
US10147660B2 (en) | 2011-10-27 | 2018-12-04 | Global Circuits Innovations, Inc. | Remapped packaged extracted die with 3D printed bond connections |
US10177054B2 (en) | 2011-10-27 | 2019-01-08 | Global Circuit Innovations, Inc. | Method for remapping a packaged extracted die |
US10002846B2 (en) | 2011-10-27 | 2018-06-19 | Global Circuit Innovations Incorporated | Method for remapping a packaged extracted die with 3D printed bond connections |
US10128161B2 (en) | 2011-10-27 | 2018-11-13 | Global Circuit Innovations, Inc. | 3D printed hermetic package assembly and method |
US11993800B2 (en) * | 2017-05-26 | 2024-05-28 | Nuclera Ltd. | Use of terminal transferase enzyme in nucleic acid synthesis |
US10115645B1 (en) | 2018-01-09 | 2018-10-30 | Global Circuit Innovations, Inc. | Repackaged reconditioned die method and assembly |
CN116731184B (en) * | 2022-11-25 | 2024-06-14 | 厦门康基生物科技有限公司 | Monoclonal antibody F6H12 specifically binding to Taq enzyme and application thereof |
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