WO1996019580A2 - Telomerase protein component - Google Patents
Telomerase protein component Download PDFInfo
- Publication number
- WO1996019580A2 WO1996019580A2 PCT/US1995/016531 US9516531W WO9619580A2 WO 1996019580 A2 WO1996019580 A2 WO 1996019580A2 US 9516531 W US9516531 W US 9516531W WO 9619580 A2 WO9619580 A2 WO 9619580A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- telomerase
- dna
- cells
- sample
- eukaryotic
- Prior art date
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- 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.)
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- 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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- 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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- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K48/00—Medicinal preparations containing genetic material which is inserted into cells of the living body to treat genetic diseases; Gene therapy
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Definitions
- Chromosome stability is essential for cell viability.
- Eukaryotes have linear chromosomes and the telomeres that cap the ends protect chromosomes from degradation and recombination. Loss of telomeric DNA during cell proliferation may play a role in ageing and cancer.
- Telomeric sequences are highly conserved in eukaryotes. The DNA sequence contains simple tandem repeats of specific GT-rich motifs.
- telomere function is also conserved in eukaryotes. Tetrahymena and human telomeres function in the yeast Saccharomyces cerevisiae, and yeast telomeres function in other fungi. Szostak, J. . and E.H. Blackburn (1982) Cell , 29 : 245 -255 . Thus the mechanisms for maintaining a stable end must share essential features in diverse eukaryotes.
- telomere sequences are synthesized onto chromosome ends by a highly specialized DNA polymerase called telomerase.
- Telomerase is a ribonucleoprotein enzyme in which both the RNA and the protein components are essential for telomerase activity.
- the RNA component provides the template for the telomere repeat synthesis. Blackburn, E.H. (1992) An ⁇ u. Rev. Bioche . , 61 : 113 - 129 .
- Telomere replication involves the establishment of an equilibrium between telomere shortening and telomere lengthening. DNA replication leads to telomere shortening because DNA-template dependent DNA polymerase cannot replicate the very end of a DNA molecule. Telomerase elongates chromosomes through de novo sequence addition. Double-stranded synthesis by DNA-template dependent DNA polymerase and primers then fill in the complementary C- rich strand.
- RNA component of telomerase has been sequenced for humans (Feng, J. , et al . (1995) Science 269 : 1236 - 1241) , mice, and several mammalian species (Greider, C, unpublished data) , as well as Saccharomyces cerevisiae, Tetrahymena, Euplotes and Oxytricha . See Singer and Gottschling, (1994) Science, 266 : 404 -409 ; Lingner, et al . (1994 ) Genes & Development, 8 :1984-1988; Romero, D.P. and E.H. Blackburn (1994) Cell , £.7:343-353.
- the protein component of a telomerase from any species has not previously been sequenced or cloned.
- telomerase protein component of eukaryotic, including mammalian, origin, telomerase proteins encoded by the genes, RNA encoding the polypeptides described, and sequences that hybridize to these genes.
- genomic sequences encoding a telomerase protein component have been determined by the Applicants. Both the RNA and the protein components of telomerase are essential in the maintenance of telomeric length in chromosomes.
- the protein component of a telomerase can be used by itself or coupled with the RNA component in diagnostic or therapeutic methods and in assays for telomerase.
- telomeres As described herein, a Tetrahymena gene encoding a Tetrahymena telomerase protein component has been isolated and sequenced.
- the polypeptides encoded by these genes have been shown to be an 80 kD and a 95 kD polypeptide (p80 and p95, respectively) .
- the polypeptides comprise a protein that, coupled with the RNA component, acts to add telomeric TTGGGG repeats to stabilize chromosomal telomere length.
- the present invention also provides DNA sequences and portions thereof, sequences complementary to these DNA sequences, and sequences, such as probes, that hybridize to either the sense or the complementary (antisense) sequences or fragments thereof that encode the polypeptides disclosed.
- an 80 kD and a 95 kD polypeptide which are components of Tetrahymena telomerase protein have been isolated and sequenced.
- the amino acid sequences of the 80 kD and 95 kD polypeptides of the protein component are disclosed herein, as are the DNA (nucleic acid) sequences which encode the 80 kD and 95 kD proteins.
- nucleotide sequences encoding p80 and p95 telomerase polypeptides which are translated by most eukaryotes. These DNA sequences have been incorporated into plasmids, and the plasmids transfected into vectors. Host cells comprising these vectors are provided for the production of recombinant telomerase protein component.
- the present work also makes available methods of determining whether a mammal, especially a human individual, is likely to be affected with a disorder or disease in which abnormal telomerase activity is a symptom or cause.
- Methods of detecting telomerase expression are provided as a means of diagnosing a predisposition to the development of immortal or cancer cells in a human or in another animal.
- DNA or RNA present in a cell or tissue sample is hybridized to a DNA or RNA probe which is complementary to all or a portion of a telomerase protein component gene.
- telomerase protein component gene includes the genes whose sequence is described herein, genes which hybridize to the genes or portions thereof, and equivalent genes from other species, such as those from human, mouse, rat, dog, cat, pig, chimpanzee, monkey, or Tetrahymena . Detection of hybridization is an indication of a predisposition to the development of or the presence of cancer, or another disorder in which immortal cells arise.
- telomerase protein component can be used to screen for telomerase inhibitors which can be used to prevent telomerase expression and/or activity in cells.
- the protein component can be used as a basis for a method to identify and treat individuals affected by abnormal telomerase activity either within their own cells and tissues, or in foreign cells of invading parasites or disease organisms which are eukaryotes.
- the present invention provides a diagnostic tool through which inhibitors of telomerase activity can be tested and developed, and by which diseases such as cancer, or infections, such as yeast or protozoan diseases, can be diagnosed.
- telomerase protein component such as antibodies to one or both of the 80 kD or 95kD polypeptides, synthetic telomerase polypeptide sequences, or portions of these polypeptides.
- telomerase protein component such as antibodies to one or both of the 80 kD or 95kD polypeptides, synthetic telomerase polypeptide sequences, or portions of these polypeptides.
- polyclonal and monoclonal antibodies such as polyclonal and monoclonal antibodies which bind either or both the 80 kD and 95 kD polypeptides of this invention.
- Such anti- telomerase antibodies are useful to detect telomerase activity in cells and tissues- Further embodiments include methods of therapy and treatment involving recombinant and/or transgenic cells containing either or both of the genes for the telomerase subunits, by themselves or in combination with other genes, such as a gene encoding the telomerase RNA component.
- Recombinant or transgenic cells producing anti-telomerase antibodies are included as well. Such methods can be applied to the treatment of disorders arising from abnormal telomerase activity or can be used to increase or trigger expression of telomerase to prevent cell mortality.
- Figure 1 is the nucleotide sequence (SEQ ID NO:l) of the Tetrahymena 80 kD protein gene.
- the nucleotide sequence is derived from genomic and cDNA clones.
- Figure 2 is the amino acid sequence (SEQ ID NO:2) of the 80 kD protein deduced from the nucleotide sequence shown in Figure 1.
- Figure 3 is the nucleotide sequence (SEQ ID NO:3) of the Tetrahymena 95 kD protein gene.
- Figure 4 is the amino acid sequence (SEQ ID NO:4) of the 95 kD protein deduced from the nucleotide sequence shown in Figure 3.
- Figure 5 is primer set 1 consisting of 12 deoxyribonucleotide sequences (primers 1-12) .
- Figure 6 is primer set 2 consisting of 12 deoxyribonucleotide sequences (primers 13-24) .
- Figure 7 is primer set 3 consisting of 10 deoxyribonucleotide sequences (primers 25-34) .
- Figures 8A-8B show primer set 4 consisting of 18 deoxyribonucleotide sequences (primers F1-F9 and R1-R9) .
- Figure 9 is primer set 5 consisting of 10 deoxyribonucleotide sequences (primers F10-F14 and R10- R14) .
- Figure 10 is the DNA sequence (SEQ ID NO:8) of the genetically-engineered p80 gene.
- Figure 11 is the DNA sequence (SEQ ID NO:9) of the genetically-engineered p95 gene.
- This invention relates to genes encoding a eukaryotic telomerase protein component, the polypeptides encoded by these genes, as well as the RNA encoding the polypeptides, complementary nucleotide sequences, and probes that hybridize to sense and complementary portions of the nucleotide sequences.
- synthesized genes encoding 80 kD and 95 kD telomerase protein components, the recombinant polypeptides encoded by these genes, the RNA encoding the polypeptides, the primers used to synthesize these genes, and complementary nucleotide sequences or fragments thereof.
- DNA sequences can encode a single protein.
- contemplated within this invention are DNA sequences which encode catalytically active, telomerase protein components, and nucleotide sequences that hybridize to these DNA sequences. Generally, these will hybridize under moderately stringent conditions.
- stringent conditions means hybridization conditions comprising a salt concentration of 4X SSC (NaCl-citrate buffer) at 62° -66° C
- high stringent conditions means hybridization conditions comprising a salt concentration of 0.1X SSC at 68° C. Ausubel, et al .
- telomerase protein component of eukaryotic origin, including the polypeptides herein described. All polypeptides which comprise a telomerase protein component and are active as a component of a telomerase are encompassed by the present invention and the term telomerase protein component as used herein.
- the telomerase protein component has been produced by the following method in “substantially pure” form. “Substantially pure” is defined as the minimum amino acid sequence that, when combined with the telomerase RNA component, demonstrates telomerase activity.
- Tetrahymena telomerase enzyme was purified using readily available chromatography matrixes. Two criteria were used to follow enzyme purification. First, activity assays were performed using the standard telomerase assay (Greider, C.W. (1987) Cell , 51 : 887-898) and 32P-dGTP incorporation was quantitated by spotting on DE-81 paper and determining the counts incorporated (Greider, C.W. (1987) Ph.D. Thesis, Univ. Calif. Berkeley) . Second, telomerase RNA was followed by Northern blot analysis and quantitated by comparison to a titration of a known amount of a synthetic telomerase RNA standard.
- telomere fractions Purification over hydroxylapatite, spermine agarose, Sepharose CL-6B sizing column, phenyl-Sepharose, DEAE agarose (or Q-Sepharose) and a 15- or 20-35% glycerol gradient, yielded highly purified telomerase fractions. Two predominant proteins of 80 and 95 kD were identified in the active fractions which co- purified with telomerase activity and were present in a stoichiometry similar to the telomerase RNA.
- telomere RNA Two samples of the material purified as described above were separated on a non-denaturing gel. One lane of the gel was Northern blotted to identify the position of the telomerase RNA and the other lane was cut from the native gel and run in a second dimension on an SDS PAGE gel. Most of the proteins remained near the well of the first native gel; however, both the telomerase RNA and the p80 and p95 proteins ran approximately one-third of the way into the native gel at equivalent positions, indicating that p80 and p95 are components of telomerase. Beginning with over 300 L or 1.2xlO ⁇ cells, the active fraction in the final glycerol gradient contained over a microgram of telomerase RNA. This indicated there was enough material to sequence the co-purifying polypeptides.
- telomerase was treated with micrococcal nuclease. Previous experiments have shown that limited cleavage of the telomerase RNA does not completely inactivate telomerase activity. Greider, C.W. and E.H. Blackburn (1989) Nature, 337:331-337. Two fractions of purified telomerase were prepared for glycerol gradient analysis, to determine whethei- cleavage of the RNA would alter the mobility of the RNP in a glycerol gradient. One sample was briefly treated with micrococcal nuclease; the other was incubated with buffer only.
- the partial peptide sequences from both p80 and p95 were determined.
- the complete amino acid sequences of the two polypeptides can be determined in the same manner.
- Telomerase from 344 L of Tetrahymena cells was purified according to the procedures described above with the addition of a DEAE agarose concentration step followed by non-denaturing gel electrophoresis and SDS PAGE electrophoresis. To avoid problems associated with direct N-terminal sequencing of proteins, the excised protein bands were digested with Lysylendopeptidase from
- Achromobacter The peptide fragments were extracted from the gel and resolved on a C18 reverse phase HPLC column. Several well defined peptide peaks were subjected to successive rounds of Edman degradation on an Applied Biosystems automated sequencer. From two separate preparations of telomerase, the amino acid sequence was determined for 7 peptides from p80 and for 25 peptides from p95. Degenerate oligonucleotides were designed using the Tetrahymena codon bias as a guide. Martindale, D.W. (1989) J. Protozol . 36 : 29-34 . Oligonucleotides were used in sets of two to obtain PCR products from either reverse transcribed RNA or from genomic DNA.
- the nucleotide sequence is derived from genomic and cDNA clones; polyadenylation of the mRNA occurs near the 3' end of the reported sequence.
- Third, the suggested translation of the mRNAs from the first methionine codon in the longest ORF yields predicted protein products of equal or slightly greater molecular mass than predicted from analysis of the proteins by SDS-PAGE.
- sequences outside the region translated as coding contain a higher content of A/T than coding regions, typical of Tetrahymena genes. Prescott, D.M. (1994) Microbiol . Rev. , 58 : 233 -261 . Neither of the genes has a counterpart in Genbank, EKMBL, PIR and Swissprot databases.
- polyclonal antibodies were generated against the two proteins. Synthetic peptides were synthesized that corresponded to two different regions from each protein. Two polyclonal antibodies to peptides of the 80 kD protein (designated A81 and A82) and four antibodies to peptides of the 95 kD protein (designated A83, A84, A85, and A86) showed good titre against the respective proteins.
- Table 1 lists the antibodies obtained to various peptide sequences used.
- the peptide sequence list was obtained directly from protein sequencing of PCR products. The first peptide was derived from a preliminary sequencing trial and was determined to be incorrect after the gene was cloned. This peptide and the antibodies directed against it were subsequently used as controls. The peptide injected into rabbits to produce A85 and A86 has one error (a missing T at the penultimate position) relative to the cloned sequence; however, the antibodies against this peptide cross react with the 95 kD protein. An N-terminal C residue was added to each peptide during synthesis in order to couple the peptide to carrier protein.
- telomerase protein components were produced in other eukaryotes in which the Tetrahymena genetic code was altered to enable correct translation and transcription in organisms having the genetic code which is used/translated in most eukaryotes; i.e., mammals such as humans.
- the genes were synthesized as gene fragments from overlapping sets of oligonucleotides (primer sets) , which were then cloned into plasmids. The full-length genes were constructed by combining the fragments in the plasmids.
- the p80 gene was constructed in the plasmid Bluescript; the p95 gene in the plasmid pSE280, although any plasmid can be used.
- the synthesized genes were cloned into different restriction sites of the pRSET and pBlueBac vectors. Transcription and translation of the genes in PRSET and pBlueBac generates the recombinant proteins in E. coli and baculovirus, respectively. A His-tag and cleavage site at the end of each recombinant protein facilitates the purification of the proteins.
- telomere protein components can be expressed recombinantly.
- a vector such as pRSET containing the p80 and p95 gene constructs or, alternatively, baculovirus and a vector such as pBlueBac containing the same constructs.
- applicants have produced the first known bacterial strains or expression vectors which permit expression of the p80 and p95 telomerase protein components.
- One embodiment of this invention is the production of one or more recombinant telomerase protein components in a host cell.
- One method comprises culturing a host cell containing the gene encoding the protein, or a homolog thereof, under conditions which permit production of the protein.
- the method further comprises the steps of recovering quantities of protein, , as well as purification procedures. Skilled artisans will appreciate the various ways in which recombinant proteins of this invention can be prepared.
- the recombinant proteins, or fragments thereof, are useful to detect agents that stimulate or inhibit telomerase catalytic activity. They are also useful to produce antibodies for screening assays, such as to detect telomerase activity in tumor cells, or stimulated or inhibited production of telomerase in response to exposure to a compound.
- telomerase polypeptide which varies in amino acid sequence from a telomerase polypeptide encoded by genomic DNA (i.e., differs from a naturally-occurring telomerase polypeptide, such as Tetrahymena telomerase polypeptide) , without affecting the ability of the polypeptide to combine with the other telomerase protein and RNA components or affect the enzymatic activity of telomerase.
- telomerase polypeptide which varies in amino acid sequence from a telomerase polypeptide encoded by genomic DNA (i.e., differs from a naturally-occurring telomerase polypeptide, such as Tetrahymena telomerase polypeptide) , without affecting the ability of the polypeptide to combine with the other telomerase protein and RNA components or affect the enzymatic activity of telomerase.
- These variations may include additions, deletions, substitutions and other alterations (e . g. , modification of an amino acid residue)
- the genes encoding the Tetrahymena telomerase protein component, the synthesized genes, or the primers can be used to clone the human telomerase protein component and other mammalian telomerase protein components, using known methods described herein.
- DNA sequence hybridization is used to identify and clone a human homologue of the Tetrahymena protein. Human genomic DNA and mRNA blots are probed with the Tetrahymena gene at a series of increasing stringencies. If specific bands are identified, cDNA or genomic libraries cloned into phage lambda vectors are probed at a similar stringency to identify the gene for the human homologue. Positive phage are restriction mapped, subcloned and sequenced.
- a second approach is to produce a series of antibodies to various regions of both the p80 and p95 proteins.
- the antibodies described above (A62 and A86) can be used. Additional antibodies can also be generated as synthetic peptides and fusion proteins and used to identify hurrtan telomerase proteins by cross-reactivity.
- Libraries of human or other mammalian cDNAs which express a portion of the protein can be probed with the antibodies to clone the human or mammalian genes by standard molecular biology procedures. See, Sambrook, et al. (1989) Molecular Cloning - A Labora tory Manual , Cold Spring Harbor Press, Cold Spring Harbor Laboratory, NY.
- telomere length maintenance does not occur in primary human somatic cells that have a limited life span. When primary cells divide, either in vi tro or in vivo, telomere length shortens. Germline cells do not show this shortening. Allsopp, et al .
- telomere activity is present in immortalized human HeLa cells (Morin, G.B. (1989) Cell 55:521-529), telomerase has not been detected in primary fibroblast cultures.
- Applicants established SV40 immortalized lines from primary human cells to investigate the connection between telomerase and telomere shortening. In both primary and SV40 transfected human embryonic kidney cells, telomeres shortened but telomerase was not detected as the cells were passaged.
- telomere activity has been demonstrated in human ovarian carcinoma cells, but not in normal cervical endothelial cells.
- telomere shortening before crisis may be lethal, but those cells that can reactivate telomerase maintain telomere length and survive crisis. This model suggests that if telomerase is required for the growth of immortalized cells, telomerase inhibitors may be excellent anti-cancer drugs.
- the present work provides a method by which cancers may be diagnosed prior to or during clinical manifestation of symptoms by means of detecting telomerase activity in somatic cells that normally do not express telomerase.
- Telomerase mR ⁇ A expression in a sample of somatic cells or tissue can be detected using D ⁇ A or R ⁇ A probes; this is indicative of expression of telomerase which, in turn, is an indication of immortal cancer cells since somatic cells do not normally produce telomerase.
- Detection of hybridization is an indication of a predisposition to cellular immortalization or cancer, or to the presence of cancer or immortal cells.
- hybridization it is meant that D ⁇ A and/or R ⁇ A molecules or portions thereof are used in a hybridization analysis to detect complementary polynucleotides under conditions of moderate stringency according to methods described in Ausubel, et al . , (1994) Current Protocols in Molecular Biology, (Suppl. 26), John Wiley & Sons, Inc.
- nucleic acids are used as probes or primers.
- This embodiment may comprise the steps of: a) obtaining a tissue sample or a sample of cells from the eukaryote; and b) determining the presence of telomerase in the sample, wherein if the sample demonstrates the presence of telomerase, immortal cells or the predisposition to immortalization is present.
- the same method may be used to detect a predisposition to cancer or the presence of cancer cells or tissue.
- the expression of mammalian telomerase can be detected using polyclonal or monoclonal antibodies to the p80 or p95 polypeptide subunits, to both subunits or fragments thereof.
- An antibody can detect both subunits or two antibodies can be used, each of which detects a different subunit.
- a sample of somatic or tumor cells from an individual can be contacted with anti- telomerase antibodies after the sample has been processed or treated to render the telomerase (if present) available for binding to the antibody. Binding of the antibody is indicative of the presence of telomerase and, thus, an indication of cellular immortalization or a predisposition to cancer, or the presence of cancer or immortal cells.
- a method using antibodies to detect telomerase in a eukaryotic tissue sample or a sample of eukaryotic cells may comprise the steps of: a) obtaining a tissue sample or a sample of cells from the eukaryote; and b) treating the sample to render telomerase available for binding to anti-telomerase antibodies, thereby producing a treated sample; c) contacting the treated sample with anti-telomerase antibodies against (polyclonal or monoclonal) telomerase; and d) detecting binding of the antibodies to telomerase, wherein if binding occurs, telomerase is present.
- antibody detection can be useful not only to detect cellular immortalization such as occurs with the development of cancer cells, and the presence of cancer or immortal cells, but also to detect the presence of foreign eukaryotic cells in the cells and tissues of a multicellular organism, as described below.
- the present invention also provides a means for developing drugs and pharmaceutical compounds that destroy or otherwise inactivate or interfere with the activity of telomerase.
- a compound that inhibits or inactivates A compound that inhibits or inactivates
- Tetrahymena telomerase activity can also be assessed for its effects on mammalian telomerases.
- the telomerase protein component either with or without the RNA component, can be used to screen for drugs and pharmaceutical compounds effective as anti-cancer and anti ⁇ microbial agents, as described below.
- telomere length since additional telomerase activity may have an anti-aging effect and result in restoration of cells by stabilizing telomere length, compounds can be screened for their ability to stimulate or trigger telomerase activity.
- the protein components can also be combined with the RNA component of telomerase to produce a functional telomerase molecule which can be delivered to cells by conventional methods.
- DNA encoding a telomerase molecule can be introduced into target cells by recombinant DNA methods and transformation technology. The incorporation of extra copies of functional telomerase molecules may extend the replicative life span of the host cell by stabilizing telomere length.
- this invention includes methods for gene therapy in mammals.
- Another application of this invention is the detection of eukaryotic disease-causing organisms in somatic cells and tissues of mammals and treatment of the resulting disease.
- diseases include, but are not limited to, aspergillosis, histoplasmosis, candidiasis, paracoccidioidomycosis, malaria, trichinosis, filariasis, trypanosomiasis (sleeping sickness) , schistosomiasis, toxoplasmosis, and leishmaniasis.
- These organisms require telomerase and express this enzyme as they multiply inside host cells which do not normally produce telomerase.
- the above- described methods to detect telomerase can be used to develop early detection and diagnosis procedures for these eukaryotic microbial parasites.
- An example of such a method to detect a disease caused by a eukaryotic microbial organism in a tissue sample or a sample of eukaryotic cells from an individual may comprise the steps of: a) obtaining a tissue sample or a sample of cells from the individual; and b) determining the telomerase in the sample, wherein if the sample demonstrates telomerase of a eukaryotic microbe, a disease caused by a eukaryotic microbial organism is presen .
- the telomerase in the sample can be determined by the use of nucleic acid probes or primers, including, but not limited to those described herein; or, by the use of antibodies which bind to a telomerase protein component.
- nucleic acid probes or primers including, but not limited to those described herein; or, by the use of antibodies which bind to a telomerase protein component.
- inhibitors of and antibiotics against telomerase will provide a method of treatment for such diseases that is nontoxic or exhibits little toxicity to the host.
- most of the drugs used to treat diseases caused by Tr ⁇ panosoma species can cause serious side effects and even death.
- telomerase or drugs against telomerase can be used to inhibit telomerase and thus prevent the multiplication of species of this parasite in an individual without affecting the host's somatic cells and tissues.
- antisense nucleic acids that inhibit the translation of mRNA encoding the protein component of telomerase.
- telomerase activity can be formulated into pharmaceutical compositions containing a pharmaceutically acceptable carrier and/or other excipients using conventional materials and means. They can be administered to an animal, either human or non- human, for therapy of a disease or condition resulting from an abnormal level of telomerase activity. Administration may be by any conventional route (parenteral, oral, inhalation, and the like) using appropriate formulations, many of which are well known.
- the compounds can be employed in admixture with conventional excipients, such as pharmaceutically acceptable organic or inorganic carrier substances suitable for parenteral administration that do not deleteriously react with the active derivatives.
- the formulations described herein may be used for veterinary as well as human applications and that the term "individual” or “host” should not be construed in a limiting manner. These terms include human and nonhuman vertebrates, particularly mammals.
- the present invention provides a process for producing a recombinant product comprising:
- telomerase a gene that encodes a telomerase sequence that codes for the RNA and protein components of telomerase, and for construction of vectors with appropriate promoters for enzyme expression in a host cell. Suitable host cell/vector systems, transfection or infection methods and culture methods are well known in the ar . These systems may also be used to produce antibodies to telomerase.
- transgenic biological materials that comprise the protein components of telomerase from eukaryotes, including mammals.
- Tetrahymena thermophila were grown to a density of 4.0 x lOVml in PPYS (2% proteose peptone, 0.2% yeast extract, 10 ⁇ M FeCl 3 ) , harvested by centrifugation in a GSA rotor (Sorvall) , and starved for 18 h in Dryls (1.7 mM NaC 6 H 8 0 7 , 1.2 mM NaH 2 P0 4 , 1.3 mM Na 2 HP0 4 , 2 mM CaCl 2 ) .
- Starved cells were again harvested, resuspended in T2MG buffer (20 mM Tris-HCl pH 8.0, 1 mM MgCl 2 , 10% glycerol, 2 mM DTT or ⁇ - mercaptoethanol, 0.1 mM PMSF, 2 ⁇ g/ml leupeptin, 1 ⁇ g/ml pepstatin) , and lysed by addition of a final concentration of 0.2% NP-40.
- S-100 extract was obtained by centrifugation of lysed cells at 130,000 x g for 50 min at 4oC. All subsequent steps were done at 4oc.
- S-100 extract derived from l-2xlO ⁇ cells
- Fractions with peak activity were pooled and loaded on a 1 L column of Sepharose CL-6B (Pharmacia) equilibrated and run in T2MG with 20 mM KG and 3 mM NaN 3 . Fractions with peak activity were pooled, adjusted to 0.4 M KG, and applied to Phenyl Sepharose (Pharmacia) equilibrated in T2MG with .0.4 M KG. The column was washed in T2MG, then telomerase was eluted in T2MG with 1% Triton X-100. Fractions with peak activity were pooled and applied to DEAE agarose (BioRad) equilibrated in T2MG.
- Telomerase was eluted with a gradient or a step to 0.4 M KG in T2MG. Fractions with peak activity were sometimes diluted with distilled water and were layered on 15- or 20- 35% glycerol gradients. Gradients were centrifuged for 20 h in an SW41 rotor (Beckman) . Glycerol gradient-purified telomerase was used in several experiments described in this invention.
- Telomerase was additionally purified prior to proteolytic digests for peptide sequencing. Glycerol gradient fractions of peak activity were pooled and applied to DEAE agarose equilibrated in T2MG. Telomerase was eluted in T2MG with 0.4 M KG. Peak fractions were dialyzed against T2MG then applied to a 6% acrylamide, 50 mM Tris- acetate gel run in 50 mM Tris-acetate buffer, pH 8.0. The native gel was run for approximately 12 h at approximately 250 V.
- the native gel lane containing telomerase was excised, soaked briefly in 2X SDS sample buffer (0.125 M Tris-HCl pH6.8, 4% SDS, 10% /3-mercaptoethanol, 20% glycerol, bromophenol blue) and sealed into the well of a denaturing 7% acrylamide gel with 0.1% agarose in mM Tris- acetate. SDS-PAGE was performed in Tris-glycine-SDS buffer (25 mM Tris-HCl pH 8.3, 192 mM glycine, 0.1% SDS) .
- Fractions were adjusted to at least 10% glycerol and loaded on a native gel of 6% acrylamide, 50 mM Tris-acetate minigel .
- the native gel was run in 50 mM Tris-acetate buffer, pH 8.0.
- the native gel lane containing telomerase was excised, soaked briefly in 2X SDS sample buffer, and sealed into the well of a denaturing 5-15% or 5-20% gradient acrylamide minigel with 0.1% agarose in 25 mM Tris-acetate.
- SDS-PAGE was performed in Tris-glycine-SDS buffer (25 mM Tris-HCl pH 8.3, 192 mM glycine, 0.1% SDS) .
- telomeres The 80 and 95 kD subunits of telomerase were purified as described above. Preparative SDS gels containing telomerase were stained in 0.05% Coomassie brilliant blue (Aldrich) , 20% methanol, 0.5% acetic acid and destained in methanol-acetic acid. Polypeptides were excised from the gel after soaking 10 min in distilled water. Gel slices were crushed and soaked in 50% methanol 2 x 20 min, decanted, and dried briefly under vacuum. Proteins were digested with approximately 300 ng of Achromobacter protease I in 0.1 M Tris-HCl pH 9.0, 0.01% Tween-20 for 24 h at 37°C.
- Peptides were separated from gel fragments by spin filtration, concentrated by Speed-Vac, and applied to a C-18 column (Vydac) . Peptides were eluted with a gradient of acetonitrile:isopropanol (3:1) in 0.09% trifluoroacetic acid. Peaks of absorbance at 214 nm were collected, lyophilized, and applied to a protein sequencer (ABI) .
- PCR products from PCR amplification were purified, cloned in E. coli , and sequenced by standard protocols. PCR products were confirmed to derive from p80 or p95 gene or cDNA if the PCR product encoded additional peptide sequence not specified by the PCR primer, either as an entirely internal peptide or as sequence adjacent to that specified by the degenerate PCR primer used in the reaction.
- PCR products were used to screen an oligo dT-primed Tetrahymena cDNA library in ⁇ gtlO (Takemasa, et al . (1989) J. Biol . Chem. 2 4:19293-19301) . Only partial clones (0.8 kb or less) were obtained. Genomic libraries were constructed in Bluescript KS+ (Stratagene) with EcoRI or Clal digested Tetrahymena genomic DNA. A 3.2 kb clone was obtained that contained most of the gene for p80. A 1.1 kb clone was obtained that contained an internal region of coding sequence for the p95 gene.
- the sequences of lambda and genomic clones were compared; the lambda clones obtained for p80 terminate at the 3' end with poly-A sequence present only as four adenine residues in the genomic clone.
- the results of 3' RACE for p80 support this region as the site of polyadenylation.
- nucleic acid sequence of p95 Previous determination of the nucleic acid sequence of p95 had indicated the nucleotide at position 405 to be “G” and nucleotides at positions 977-979 to be “CGT” . This resulted in an "R” instead of "Q” and "A”, respectively, in the encoded protein.
- Synthetic peptides were synthesized that corresponded to two different regions from each protein.
- Peptides were purchased from Genosys Biotechnologies. These peptides were coupled to Keyhole Lymphet Hemocyanine (KLH) carrier protein via an amino terminal additional cystine residue using standard protocols. Harlow, et al . (1988) Antibodies - A Labora tory Manual , Cold Spring Harbor Press, Cold Spring Harbor, NY. Each of the peptides coupled to KLH protein were injected into two separate rabbits using standard protocols including periodic boosts with the antigen. Harlow, et al . , supra . Sera from the rabbits was sampled every several weeks. The animal injections were generated at Hazelton Corporation.
- A81 and A82 The antibodies from each of these rabbits are designated A81 and A82.
- four rabbits immunized with two peptides had a good titre against the 95 kD protein and these antibodies are designated A83, A84, A85 and A86.
- A82 had the highest affinity for the 80 kD protein and A86 had the highest affinity for the 95 kD protein.
- the antibodies were then affinity purified by binding to a column with the specific peptide coupled to it.
- Antibodies were eluted from the column first with an acetate buffer (0.1 M NaOAc, pH 4.0) and subsequently with a glycine buffer (0.1 M glycine, pH 2.7) to remove the tighter binding antibodies.
- the affinity purified antibodies were used for both western blots and immuno ⁇ precipitation.
- Western analysis with sera containing A82 and A86 antibodies showed that both the 80 and 95 kD polypeptides co-purified with telomerase activity throughout the entire column purification scheme (see Example 1) .
- the level of both the 95 and 80 kD protein paralleled the fold increase in enzyme activity at each stage in the purification, consistent with these proteins being telomerase components.
- Telomerase activity was specifically immuno- precipitated by the highest affinity antibody directed against the 80 kD protein (A82) .
- Immuno-precipitation was carried out using standard techniques (Harlow, et al . , supra) .
- the affinity purified antibody was incubated with agarose beads (Pharmacia) coupled to protein G. After the initial binding reaction the highly purified fraction from a non-peak region of the glycerol gradient (see Example 1) , was incubated with the beads and telomerase was allowed to bind for 3-4 hours at 4°C. The beads were then spun at a very low speed in an eppendorf tube and the supernatant was removed.
- the beads were washed three times in T2MG plus 0.1 M KG 0.5% NP-40 and resuspended in the same buffer. Telomerase activity was then assayed in the supernatant, the final wash and pellet fraction for each antibody.
- Antibody A82 showed telomerase activity in the pellet and the supernatant was depleted for activity.
- an affinity purified antibody which did not recognize either the 80 or 95 kD on Western blots (A80) was used in the immuno-precipitation. With this antibody, activity remained in the supernatant as was the case with the lower affinity antibodies directed against the other 80 and 95 kD polypeptides (A83, A84, A85 and A86) .
- Each oligonucleotide is approximately 100 nt long and is designed to overlap with its compliment to give a hybrid of 20 base pairs.
- Each oligonucleotide also has a phosphorothioate linkage in place of the usual phosphodiester at the 3' end of the oligonucleotide. This phosphorothioate will prevent exonuclease removal of the 20 bp hybrid overlap during the initial polymerase elongation step. Skerr, A. (1992) Nucl . Acid Res . 20:3551-3554.
- the p80 gene was constructed in two pieces by combining the first set of oligonucleotides (primer set 4, Figures 8A-8B) pair-wise, then using PCR to amplify the entire region as described.
- the second half was constructed in a similar manner using primer set 5 ( Figure 9) .
- Each half of the gene was cloned into the plasmid Bluescript and sequenced in its entirety to be sure no new mutations were introduced.
- the 5' half was cloned on a Bam HI-JScoRI fragment and the 3' half was cloned on a EcdRl - Kpnl fragment.
- the full-length gene was then constructed by combining the two fragments in pBluescript (Stratagene) in the appropriate order.
- the p95 gene was constructed in three pieces by combining each set of oligonucleotides pair-wise and then using PCR to amplify the entire region.
- the first fragment was constructed using primer set 1, the second fragment was constructed with primer set 2 and the third with primer set 3.
- Each of the three fragments of the gene were cloned into the plasmid pSE280 (Invitrogen) and sequenced in its entirety.
- the 5' fragment (Fragment and primer set 1) was cloned on a NcoI -BstBI fragment, the internal piece (Fragment and primer set 2) was on a BstBI-EcoRI fragment, and the 3' fragment (Fragment and primer set 3) was cloned on an __.coRI--_i ⁇ _dIII fragment.
- the full-length gene was then constructed by first combining fragments 1 and 2 in the pSE280 plasmid, and subsequently adding the 3' fragment to complete the gene.
- the p80 and p95 proteins is expressed in E. coli and baculovirus by cloning the full length construct into pRSET and pBlueBac vectors respectively (Invitrogen) by methods known to those of skill in the art (See, e . g. , Ausubel, supra ; Sambrook, supra) . These vectors allow expression and purification of the recombinant proteins.
- the p80 is cloned into the Ba ⁇ HI and Hindlll sites of pRSET and pBlueBac and the p95 is cloned into the Ncol and Hindlll sites.
- His-tag histidines
- EK Enterokinase
- the first approach takes advantage of the DNA sequence of the Tetrahymena genes to directly identify the human homologues.
- Those skilled in the art will recognize three different strategies that are used to clone homologues based on DNA sequence: (1) direct hybridization of human genomic or cDNA libraries with the Tetrahymena gene; (2) identification of conserved regions in telomerase protein in other species and PCR amplification of a human gene based on these regions; and (3) systematic strategy to saturate all regions of the telomerase genes with PCR probes and identification of a human homologue using PCR to "walk" along the length of the gene. All of the methodology is based on standard molecular genetic laboratory procedures (Sambrook, et al . , supra) .
- the Tetrahymena gene is used to probe human genomic DNA and mRNA blots at a series of increasing stringencies. When specific bands are identified, the cDNA or genomic library can be probed at a similar stringency to identify the gene for the human homologue. Positive phage is then restriction mapped, subcloned, and sequenced.
- the second strategy involves cloning the telomerase proteins from other ciliates first because telomerase proteins may have only limited conservation at the DNA sequence level between humans and Tetrahymena . Then the mammalian counterparts are cloned using information obtained from these cDNAs.
- Tetrahymena genes libraries from distantly related Tetrahymena or Oxytricha and .Euplotes can be probed at medium stringency to identify genes which cross hybridize. Since the ciliates Oxytricha and Euplotes have telomerase enzymes which are functionally similar to the Tetrahymena telomerase (Lingner, et al . (1994) Genes Dev. 5:1984-1998; Shippen-Lentz, D. and E.H. Blackburn (1990) Science 247 : 546-552) , it is likely that homologue proteins can be identified with this method.
- the genes for both the p95 and p80 homologues from both ciliates can be fully sequenced and regions of the highest degree of similarity between the different species can be identified. Three conserved regions are chosen for each protein to use in Reverse transcriptase PCR-based approaches to cloning the human gene. The same approach is taken to clone the genes for both the p80 and p95 genes. Degenerate oligonucleotides encoding the conserved regions in the Tetrahymena, Oxytricha and Euplotes telomerase proteins are synthesized using human translational codon biases. PCR is initially carried out with two of the three oligonucleotides.
- the 3' most oligonucleotide (oligo 1) can be complementary to the mRNA.
- cDNA is synthesized from isolated mRNA using oligo 1 as a primer.
- the 5' most oligo (oligo 2) can be oriented 5' to 3' in the direction opposite to oligo 1 and can be identical in sequence to the mRNA strand.
- This oligonucleotide is then used in a PCR step along with oligo 1 to amplify the region between oligo 1 and oligo 2.
- a third primer (oligo 3) is directed against a conserved region of the protein which lies between the regions targeted by oligos 1 and 2. The sequence of the oligo will be complementary to the mRNA.
- the PCR product amplified with oligos 1 and 2 is reamplified using oligo 2 and oligo 3. This is to assure that the specific products generated all have three conserved regions of the telomerase proteins.
- the PCR products are sequenced to identify those that contain protein homologues.
- the third strategy is a systematic scanning approach to find regions of homology between the Tetrahymena and human genes, and then to amplify these regions by PCR. Using the protein sequence of the Tetrahymena genes as a guide, a series of primer oligonucleotides is generated that encode regions of the Tetrahymena genes yet utilize the human codon bias in the DNA sequence.
- a set of primers differing in the region to which they hybridize by 10 amino acids is generated against the 3' end of the gene. These are used in an RT PCR reaction to generate cDNA.
- a set of primers oriented from the 5' of the gene toward the 3' end are used to amplify the cDNA. All possible combinations of two PCR primers from the 5' end and 3' end can be used together to identify bands that are the size expected for the regions in the Tetrahymena protein. If specific products are generated they are reamplified using primers that should anneal within the initial two primers. Specific products which are not generated by any primer alone are subcloned and sequenced.
- This method takes advantage of conserved epitopes on the protein surface that are recognized by antibodies.
- a series of antibodies are made to various regions of both the p80 and p95 proteins.
- Antibodies such as those described in Example 5 can be used.
- the antigens for antibody production are generated as synthetic peptides or as fusion proteins. It is faster to produce synthetic peptides, since the fusion proteins do not have to be generated first; however, these peptides may not give as high a titer compared to synthetic peptides.
- Approximately 10-15 residues of the peptides are selected, preferably at the 5' and 3' ends of the protein since these residues are likely to be unstructured and thus antigenic.
- the synthetic peptide is coupled to a carrier such as KLH and used to inoculate rabbits. If the appropriate amino acids for coupling to the carrier are not present in the peptide, a linker cysteine residue is added to the N-terminus. Fusion proteins are generated with the T7 polymerase system (Studier, et al . (1990) Meth . Enzymol . 185 : 60 - 89 ) and purified for inoculation into rabbits or mice. The sera is then screened on Western blots using extracts from E.
- Both polyclonal and monoclonal antibodies against retrahyme ⁇ a telomerase proteins can be used to identify cross-reacting telomerase proteins from human and mouse cells on Western blots. If a positive signal is found, purified fractions of human telomerase is used to determine if the reactive band co-purifies with telomerase activity. Evidence of co-purification indicates that the cross- reacting band is a component of human telomerase. Antibodies which give the best signal are then used to probe expression libraries of lambda GT11. If monoclonal antibodies are used, several different antibodies are pooled for probing the expression libraries. For polyclonal antibodies, two or three different antibodies are used on duplicate plates. Only those phage which light up with both probes are considered positive. These plaques are purified and the inserts subcloned and sequenced.
- Mouse telomerase clones can be useful in testing cancer therapies and for understanding the biology of mammalian telomerase. Identification of mouse telomerase will also allow the use of transgenic mice to test the roles of telomere length and telomerase in vivo.
- either clone is applied to deduce the sequence of the other organism. Sequence similarity is high between human and mouse genes making it a straightforward process to obtain the clone for one with a probe from the other.
- Both genomic and cDNA libraries are then plated and probed at a moderate stringency to identify cross hybridizing plaques. The positive plaques are then'selected, restriction mapped and sequenced, to determine if the telomerase protein homologue has been cloned. Further functional analysis, such as reconstitution and gene disruption is then applied with the human and mouse clones.
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WO1996019580A3 (en) | 1996-08-29 |
JPH10513343A (en) | 1998-12-22 |
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