WO1999015640A1 - Detecting cow, sheep and pig prions in a sample and transgenic animal used for same - Google Patents
Detecting cow, sheep and pig prions in a sample and transgenic animal used for same Download PDFInfo
- Publication number
- WO1999015640A1 WO1999015640A1 PCT/US1998/017879 US9817879W WO9915640A1 WO 1999015640 A1 WO1999015640 A1 WO 1999015640A1 US 9817879 W US9817879 W US 9817879W WO 9915640 A1 WO9915640 A1 WO 9915640A1
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- WIPO (PCT)
- Prior art keywords
- prp
- mouse
- prp gene
- prions
- mice
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- A01K2267/00—Animals characterised by purpose
- A01K2267/03—Animal model, e.g. for test or diseases
- A01K2267/0337—Animal models for infectious diseases
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2267/00—Animals characterised by purpose
- A01K2267/03—Animal model, e.g. for test or diseases
- A01K2267/0337—Animal models for infectious diseases
- A01K2267/0343—Animal model for prion disease
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/28—Neurological disorders
- G01N2800/2814—Dementia; Cognitive disorders
- G01N2800/2828—Prion diseases
Definitions
- This invention relates generally to methods of assaying and to transgenic animals used in such assays. More specifically, this invention relates to methods of assaying samples for pathogenic bovine prions and to transgenic mice which can be infected with prions which generally only infect cows.
- Prions are infectious pathogens that cause central nervous system spongiform encephalopathies in humans and animals. Prions are distinct from bacteria, viruses and viroids. The predominant hypothesis at present is that no nucleic acid component is necessary for infectivity of prion protein. Further, a prion which infects one species of animal (e.g., a human) will not infect another (e.g., a mouse).
- PrP prion protein
- PrP Sc prion diseases result from conversion of PrP c into a modified form called PrP Sc .
- PrP Sc scrapie isoform of the prion protein
- the most common prion diseases of animals are scrapie of sheep and goats and bovine spongiform encephalopathy (BSE) of cattle [Wilesmith, J. and Wells, Microbiol. Immunol. 772:21-38 (1991)].
- Iatrogemc CJD has been caused by human growth hormone derived from cadaveric pituitaries as well as dura mater grafts [Brown et al , Lancet 340 24- 27 (1992)] Despite numerous attempts to link CJD to an infectious source such as the consumption of scrapie infected sheep meat, none has been identified to date [Har ⁇ es-Jones et al , J Neurol Neurosurg Psychiatry 57 1113-1119 (1988)] except in cases of latrogemcally induced disease On the other hand, kuru, which for many decades threatened the Fore and neighboring tribes of the New Guinea highlands, is believed to have been spread by infection during ritualistic cannibalism [Alpers, M P , Slow Transmissible Diseases of the Nervous
- Prusiner et al eds (London Ellis Horwood), pp 129-134 (1992)]
- the infrequent transmission of human prion disease to rodents has been cited as an example of the "species barrier" first described by Pattison in his studies of passaging the scrapie agent between sheep and rodents [Pattison, I H , NTNDB Monograph 2.
- a mouse of the invention will consistently become infected with prions which generally will only infect a cow and symptoms of the infection will become apparent in a short period e.g., 350 days or less.
- the animals of the invention are used in assays to test samples of any given material to determine if the material includes prions which would infect another animal (such as a cow) if the material were ingested or injected.
- a method of testing samples from cows is disclosed which method comprises inoculating a mouse with a sample from a cow wherein the mouse has its genome manipulated such that the mouse will become sick when inoculated with cow prions.
- the mouse genome is manipulated such that the indogenous PrP genes of the mouse are ablated and a bovine PrP gene is operatively inserted into the mouse genome.
- the mouse is observed for symtoms of prion infection, and when those symptoms are observed, a determination can be made that the sample contains infectious prions.
- An aspect of the invention includes a mouse genome wherein both the alleles of the mouse PrP gene are ablated and a bovine PrP gene is operatively inserted into the mouse genome.
- a preferred transgenic animal of the invention is a mouse with both alleles of its endogenous PrP gene ablated and having therein a bovine PrP gene.
- a mouse is inoculated with prions which generally only infect a cow the transgenic mouse of the invention develops observable symptoms of prion disease in about 350 or more preferably 250 days or less.
- Transgenic mice containing a bovine PrP gene are designated Tg(BoPrP) and may be crossed with mice with an ablated endogenous PrP gene which are designated
- An object of the invention is to provide a transgenic, hybrid, non-human mammal preferably a mouse which has its endogenous PrP gene(preferably both alleles) ablated and which includes a PrP gene from a genetically diverse mammal alone or with a manipulated
- PrP gene such as a chimeric PrP gene comprised of codons from the host mammal and a genetically diverse mammal.
- Yet another object of the invention is to provide for a method of testing samples for the presence of prions.
- the method involves creating two groups of non-human mammals which have their genome altered so that they are susceptible to infection with prions which generally only infect a genetically diverse animal. The first group of animals is infected with a test sample and the second group is infected with a standardized prion preparation. Both groups of mammals are observed and the presence of prions in the sample can be deduced if the first group of animals develop symptoms of prion infection.
- An advantage of the invention is that a standardized prion preparation can be used to provide a control group when testing samples for the presence of prions.
- Another object is to provide a transgenic animal (e.g. mouse) with an ablated endogenous PrP gene and an exogenous PrP gene from a genetically diverse animal which transgenic animal is obtained by microinjecting the exogenous PrP gene into an embryonic cell (e.g. a fertilized mouse egg) and implanting the injected cell in a female.
- an embryonic cell e.g. a fertilized mouse egg
- Another object is to provide a hybrid animal which is obtained by crossing an animal (e.g. a mouse) having an ablated endogenous PrP gene with a transgenic animal containing the PrP gene of a genetically diverse animal (e.g. a cow) which gene may be present at elevated levels.
- an animal e.g. a mouse
- a transgenic animal containing the PrP gene of a genetically diverse animal e.g. a cow
- Another object of the invention is to provide a transgenic host mammal (which is small, e.g., less than 1 kg when full grown, and inexpensive to maintain) such as a mouse, rat or hamster which has an ablated endogenous PrP gene and a PrP gene from a genetic diverse large animal (e.g. greater than 2 kg when full grown, and expensive to maintain) such as a human, cow, pig, sheep, cat or dog.
- a transgenic host mammal which is small, e.g., less than 1 kg when full grown, and inexpensive to maintain
- a mouse, rat or hamster which has an ablated endogenous PrP gene and a PrP gene from a genetic diverse large animal (e.g. greater than 2 kg when full grown, and expensive to maintain) such as a human, cow, pig, sheep, cat or dog.
- Another object of the invention is to provide a transgenic host animal which includes elevated levels of expression of a native PrP gene of a genetically diverse animal wherein the elevated levels of expression are obtained by the inclusion of a high copy number of the
- PrP gene of the genetically diverse mammal and/or fusing an enhanced promoter to the PrP gene of the genetically diverse animal which transgenic animal may be used by itself to assay for prions or for cross-breeding with an animal which has an ablated endogenous PrP gene.
- An advantage of the present invention is that the transgenic and hybrid animal can be used to assay for the presence of prions (particularly for bovine prions) in a sample in a manner which is substantially faster, more efficient and cheaper than presently available assay methods.
- transgenic and hybrid animals can detect prions in a sample at very low levels, e.g., 1 part or less per million, and even as low as 1 part or less per billion. Still another advantage is that the transgenic and hybrid animals provide an assay which is highly accurate, i.e., does not provide false positives and consistently determines the presence of prions.
- Yet another advantage is that by increasing the copy number of an exogenous PrP gene of the invention in a transgenic or hybrid and disrupting the endogenous PrP gene of, the incubation time for prion caused disease is decreased.
- a feature of the present invention is that the transgenic and hybrid animals injected with a sample containing pathogenic prions will consistently develop the disease effects of the prions within a relatively short time, e.g. about 200 days or less after injection.
- FVB refers to a mouse strain commonly used in the production of transgenic mice.
- PrP mouse PrP
- Prnp 00 or Prnp-Abl refers to a transgenic animal which has its PrP gene ablated with the " 0/0 " indicating that both alleles are ablated whereas o/+ indicates only one is ablated.
- the animal being refe ⁇ ed to is generally a transgenic mouse which has its PrP gene ablated i.e., a PrP knockout mouse. In that the PrP gene is disrupted no mouse PrP protein is expressed.
- CJD sporadic CJD
- CJD Creutzfeldt-Jakob Disease
- ICJD is aterogenic CJD
- iCJD refers to disease resulting from accidental infection of people with human prions. The most noted example of such is the accidental infection of children with human prions from contaminated preparations of human growth hormone.
- GSS Garnier-Strassler-Scheinker Disease
- prion shall mean an infectious particle known to cause diseases (spongiform encephalopathies) in animals including cows and humans.
- the term “prion” is a contraction of the words “protein” and “infection” and the particles are comprised largely if not exclusively of PrP S ⁇ molecules encoded by a PrP gene.
- Prions are distinct from bacteria, viruses and viroids. Known prions include those which infect animals to cause scrapie, a transmissible, degenerative disease of the nervous system of sheep and goats as well as bovine spongiform encephalopathies (BSE) or "mad cow” disease and feline spongiform encephalopathies of cats.
- BSE bovine spongiform encephalopathies
- prion diseases known to affect humans are (1) kuru, (2) Creutzfeldt-Jakob Disease (CJD), (3) Gerstmann-Strassler-Scheinker Disease (GSS), and (4) fatal familial insomnia (FFI).
- CJD Creutzfeldt-Jakob Disease
- GSS Gerstmann-Strassler-Scheinker Disease
- FFI fatal familial insomnia
- prion includes all forms of prions causing all or any of these diseases or others in any animals used — and in particular in humans, cows and other domesticated farm animals.
- PrP gene and “PrP gene” are used interchangeably herein to describe genetic material which expresses proteins (for example those shown in Figures 3-5 of U.S. Patent 5,565,186 issued October 15, 1996) and polymorphisms and mutations such as those listed herein under the subheading "Pathogenic Mutations and Polymorphisms.”
- the PrP gene can be from any animal including the “host” and “test” animals described herein and any and all polymorphisms and mutations thereof, it being recognized that the terms include other such PrP genes that are yet to be discovered.
- standardized prion preparation a composition containing prions which composition is obtained from brain tissue of mammals which contain substantially the same genetic material as relates to PrP proteins, e.g., brain tissue from a set of mammals which exhibit signs of prion disease which mammals may comprise any of (1) a PrP chimeric transgene; (2) have an ablated endogenous PrP gene; (3) have a high copy number of PrP genes from a genetically diverse species; (4) are hybrids with an ablated endogenous PrP gene and a PrP gene from a genetically diverse species; or (5) combinations of any of 1-4.
- the mammals from which standardized prion preparations are obtained exhibit clinical signs of CNS dysfunction as a result of inoculation with prions and/or due to developing the disease due to their genetically modified make up, e.g., high copy number of PrP genes.
- PrP gene refers generally to any gene of any species which encodes any form of a PrP amino acid sequences including any prior protein, the non-disease form of the protein being referred to as PrP c and the disease form refe ⁇ ed to as PrP Sc .
- PrP c the non-disease form of the protein
- PrP Sc the disease form refe ⁇ ed to as PrP Sc .
- an artificial PrP gene is used herein to encompass the term “chimeric PrP gene” as well as other recombinantly constructed genes which when included in the genome of a host animal (e.g., a mouse) will render the mammal susceptible to infection from prions which naturally only infect a genetically diverse test mammal, e.g., human, bovine or ovine.
- an artificial gene will include the codon sequence of the PrP gene of the mammal being genetically altered with one or more (but not all, and generally less than 40) codons of the natural sequence being replaced with a different codon — preferably a co ⁇ esponding codon of a genetically diverse mammal (such as a human).
- the genetically altered mammal being used to assay samples for prions which only infect the genetically diverse mammal.
- artificial genes are mouse PrP genes encoding the sequence as shown in Figures 3, 4 and 5 of U.S. Patent 5,565,186 with one or more different replacement codons selected from the codons shown in these Figures for humans, cows and sheep replacing mouse codons at the same position, with the proviso that not all the mouse codons are replaced with differing human, cow or sheep codons.
- Artificial PrP genes of the invention can include not only codons of genetically diverse animals but may include codons and codon sequences associated with genetic prion diseases such as CJD and codons and sequences not associated with any native PrP gene but which, when inserted into an animal render the animal susceptible to infection with prions which would normally only infect a genetically diverse animal.
- chimeric gene means an artificially constructed gene containing the codons of a host animal such as a mouse with one or more of the codons being replaced with corresponding codons from a genetically diverse test animal such as a human, cow or sheep.
- the chimeric gene is comprised of the starting and terminating sequence (i.e., N- and C- terminal codons) of a PrP gene of a mammal of a host species (e.g. a mouse) and also containing a nucleotide sequence of a corresponding portion of a PrP gene of a test mammal of a second species (e.g.
- a chimeric gene will, when inserted into the genome of a mammal of the host species, render the mammal susceptible to infection with prions which normally infect only mammals of the second species.
- the preferred chimeric gene disclosed herein is MHu2M which contains the starting and terminating sequence of a mouse PrP gene and a non-terminal sequence region which is replaced with a co ⁇ esponding human sequence which differs from a mouse PrP gene in a manner such that the protein expressed thereby differs at nine residues.
- the term "genetic material related to prions" is intended to cover any genetic material which effects the ability of an animal to become infected with prions.
- the term encompasses any "PrP gene”, “artificial PrP gene”, “chimeric PrP gene” or “ablated PrP gene” which terms are defined herein as well as mutations and modifications of such which effect the ability of an animal to become infected with prions.
- Standardized prion preparations of the invention are produced using animals which all have substantially the same genetic material related to prion so that all of the animals will become infected with the same type of prions and will exhibit signs of infection at about the same time.
- host animal and "host mammal” are used to describe animals which will have their genome genetically and artificially manipulated so as to include genetic material which is not naturally present within the animal.
- host animals include mice, hamsters and rats which have their endogenous PrP gene altered by the insertion of an artificial gene of the present invention or by the insertion of a native PrP gene of a genetically diverse test animal.
- test animal and “test mammal” are used to describe the animal which is genetically diverse from the host animal in terms of differences between the PrP gene of the host animal and the PrP gene of the test animal.
- the test animal may be any animal for which one wishes to run an assay test to determine whether a given sample contains prions with which the test animal would generally be susceptible to infection.
- the test animal may be a human, cow, sheep, pig, horse, cat, dog or chicken, and one may wish to determine whether a particular sample includes prions which would normally only infect the test animal. This is done by including PrP gene sequences of the test animal into the host animal and inoculating the host animal with prions which would normally only infect the test animal.
- a mouse PrP gene is genetically diverse with respect to the PrP gene of a human, cow or sheep, but is not genetically diverse with respect to the PrP gene of a hamster.
- ablated PrP gene means an endogenous PrP gene which has been altered (e.g., add and/or remove nucleotides) in a manner so as to render the gene inoperative.
- hybrid animal transgenic hybrid animal and the like are used interchangeably herein to mean an animal obtained from the cross-breeding of a first animal having an ablated endogenous PrP gene with a second animal which includes either (1) a chimeric gene or artificial PrP gene or (2) a PrP gene from a genetically diverse animal.
- a hybrid mouse is obtained by cross-breeding a mouse with an ablated mouse PrP gene with a mouse containing (1) bovine PrP genes (which may be present in high copy numbers) alone or with (2) chimeric PrP genes.
- hybrid includes any offspring of a hybrid including inbred offspring of two hybrids provided the resulting offspring is susceptible to infection with prions with normal infect only a genetically diverse species and the symptoms of the infection are observable in about 350 days or less, preferably 250 or less.
- transgenic or hybrid test animal of the invention which develops a prion disease if inoculated with prions which would normally only infect a genetically diverse test animal.
- the terms are used to describe a transgenic or hybrid animal of the invention such as a transgenic mouse Tg(MHu2M) which, without the chimeric PrP gene, would not be susceptible to infection with a human prion (less than 20% chance of infection) but with the chimeric gene is susceptible to infection with human prions (80% to 100% chance of infection). If an animal is susceptible to infection with a particular prion that animal, if inoculated with the prion, will show symptoms of prion disease infection in about 350, preferably 250 days or less.
- incubation time shall mean the time from inoculation of an animal with a prion until the time when the animal first develops detectable symptoms of disease resulting from the infection.
- a reduced incubation time is one year or less, preferable about 200 days ⁇ 50 days or less, more preferably about 50 days ⁇ 20 days or less.
- CNS central nervous system
- BSE bovine spongiform encephalopathy
- CJD Creutzfeldt-Jakob Disease
- FFI fatal familial insomnia
- GSS Gerstmann-Strassler-Scheinker Disease
- Hu for human
- HuPrP for a human PrP
- Mo for mouse
- Bo bovine
- MoPrP for a mouse PrP for a mouse PrP; SHa for a Syrian hamster; SHaPrP for a Syrian hamster PrP; Tg for transgenic; Tg(SHaPrP) for a transgenic mouse containing the PrP gene of a Syrian hamster; Tg(HuPrP) for transgenic mice containing the complete human PrP gene; Tg(ShePrP) for transgenic mice containing the complete sheep PrP gene; Tg(BoPrP) for transgenic mice containing the complete cow PrP gene; PrP Sc for the scrapie isoform of the PrP; MoPrP Sc for the scrapie isoform of the mouse PrP;
- MHu2M for a chimeric mouse/human PrP gene wherein a region of the mouse PrP gene is replaced by a co ⁇ esponding human sequence which differs from mouse PrP at 9 codons
- MBo2M for a chimeric mouse/bovine PrP gene wherein a region of the mouse PrP gene is replaced by a co ⁇ esponding bovine sequence which differs from mouse PrP at 8 codons.
- Tg(MHu2M) mice are transgenic mice of the invention which include the chimeric MHu2M gene; MHu2MPrP Sc for the scrapie isoform of the chimeric human/mouse PrP gene; PrP CJD for the CJD isoform of a PrP gene; p m p ⁇ / o f or a bi a ti on 0 f both alleles of an endogenous PrP gene, e.g., the MoPrP gene; Tg(SHaPrP +/0 )81/Prnp 0 0 for a particular line (81) of transgenic mice expressing SHaPrP, +/0 indicates heterozygous; Tg(BoPrP)/Prap 0/0 for a transgenic mouse obtained by microinjecting an FVB mouse egg with an ablated PrP gene with a bovine PrP gene (BoPrP); Tg(MHu2M)/Prnp° ° for
- the present invention includes several aspects including: (1) a transgenic mammal
- a transgenic hybrid animal which is obtained by crossing a animal (e.g. a mouse) having an ablated endogenous PrP gene with an animal with a PrP gene of another genetically diverse animal (e.g.
- a bovine PrP gene therein e.g., as per (1) above; (3) a method of determining whether a sample is infected with prions which method involves inoculating a transgenic or hybrid mammal of the invention with a sample to be tested (and preferably simultaneously inoculating identical test animals with a standardized prion preparation for use as controls) and observing the mammal(s) for a period of time sufficient to determine if the mammal(s) develop(s) symptoms of a disease normally associated with prions; (4) a method of testing the efficacy of a drug in the treatment of disease developed as a result of infection with prions comprising administering a drug to be tested to a transgenic or hybrid animal infected with prions (preferably a standardized prion preparation) and observing and/or testing the mammal to determine if the drug aids in treating or slowing the progress of the disease or its symptoms; and (5) a method for determining the cause of death of an animal comprising inoculating
- Prefe ⁇ ed host animals are mice and hamsters, with mice being most prefe ⁇ ed in that there exists considerable knowledge on the production of transgenic animals.
- Other possible host animals include those belonging to a genus selected from Mus (e.g. mice), Rattus (e.g. rats), Oryctolagus (e.g. rabbits), and Mesocricetus (e.g. hamsters) and Cavia (e.g., guinea pigs). In general mammals with a normal full grown adult body weight of less than 1 kg which are easy to breed and maintain can be used.
- the host PrP gene can be changed to include codons from genetically diverse PrP genes from test animals belonging to a genus selected from Bos, Ovis, Sus and Homo.
- a mouse host PrP gene is changed to include codons from a human, cow or sheep PrP gene, with cow being most prefe ⁇ ed. Cows are prefe ⁇ ed because an important object of the invention is to use the animal to test a statistically significant number of cows in a herd of cows to determine if the cows are infected with prions which cause BSE, known as "mad cow" disease.
- the genetic material which makes up the PrP gene is known for a number of different species of animals [see U.S.
- Patent 5,565,186 issued October 15, 1996 and Gabriel et al., Proc. Natl. Acad. Sci. USA 59:9097-9101 (1992)]. Further, there is considerable homology between the PrP genes in different mammals. For example, see the amino acid sequence of mouse PrP compared to human, cow and sheep PrP in Figures 3, 4 and 5 of U.S. Patent 5,565,186 wherein only the differences are shown. Although there is considerable genetic homology with respect to PrP genes, the differences are significant in some instances. More specifically, due to small differences in the protein encoded by the PrP gene of different mammals, a prion which will infect one mammal (e.g. a cow) will not normally infect a different mammal (e.g. a mouse).
- a prion which will infect one mammal (e.g. a cow) will not normally infect a different mammal (e.g. a mouse).
- mice Due to this "species ba ⁇ ier", it is not generally possible to use normal animals, (i.e., animals which have not had their genetic material related to prions manipulated) such as mice to determine whether a particular sample contains prions which would normally infect a different species of animal such as a human.
- the present invention solves this problem in a surprising manner.
- transgenic animals are preferably small and easy to reproduce; thus, host animals such as mice, hamsters, guinea pigs and rats are preferred, with mice being most prefe ⁇ ed.
- host animals such as mice, hamsters, guinea pigs and rats are preferred, with mice being most prefe ⁇ ed.
- the animals it is necessary for the animals to be susceptible to infection with prions which normally infect only genetically diverse test animals, and in particular animals of commercial significance for testing, such as humans, cows, horses, sheep, pigs, cats, dogs and chickens, with humans being most prefe ⁇ ed.
- transgenic and hybrid animals to be useful in a practical and commercial sense, it is necessary for the animals to demonstrate symptoms of the disease within a relatively short period after inoculation, and for a very high percentage of the animals to demonstrate symptoms of the disease after inoculation e.g., 80% or more of inoculated animals develop clinical symptoms of CNS disease with 350 days or less after inoculation.
- a chimeric gene of cow and mouse PrP genes (co ⁇ esponding to the human/mouse chimeric) was placed in a mouse and the mouse was not susceptible to infection with cow prions.
- a prefe ⁇ ed transgenic animal is a mouse with an ablated endogenous PrP gene and a native bovine PrP gene present in a single copy or in a relatively high copy number, in that increasing the copy number tends to decrease the incubation time for the disease once the animal is inoculated with material containing prions. Notwithstanding such, we now understand that, when the copy number is increased to very high numbers (e.g. 100 copies and above), the transgenic animals may spontaneously demonstrate symptoms of prion disease. Thus, a most prefe ⁇ ed transgenic animal of the invention will include a bovine PrP gene in a sufficiently high copy number so as to shorten the incubation time (e.g.
- the number of copies necessary in order to obtain elevated levels of expression of the PrP gene will vary depending upon the particular gene inserted into the particular host. Adjustments can be made to reduce the copy number if the resulting transgenic animals become spontaneously ill. Alternatively adjustments can be made to increase the copy number if the resulting transgenic animals are not subject to infection with prions which normally infect only a genetically diverse animal. Further, adjustments can be made with respect to the use of specific types of enhanced promoters in order to elevate the levels of expression without increasing copy numbers. Specific types of enhanced promoters are known such as neuronal enolase promoters which would provide enhanced expression to the PrP gene without increased copy numbers. The enhanced promoters may operate constitutively or inducibly.
- the present invention includes transgenic animals wherein the host animal has its genome changed to include multiple copies (2 or more) of the entire PrP gene of a genetically diverse test animal.
- the invention includes transgenic mice and hamsters altered to include two fold or higher levels of expression of the PrP gene of a genetically diverse test animal such as a human, cow or sheep.
- the two fold or higher levels of expression can be obtained by including higher copy numbers such as 2 to 30 or more copies of the PrP gene of the genetically diverse test animal and/or by including an enhanced promoter which elevates the level of expression of even a low copy number of the gene.
- Hybrid animals of the invention can be produced by crossing an animal with an ablated endogenous PrP gene with either of the transgenic animals mentioned above.
- a mouse containing multiple copies of a bovine PrP gene is crossed with a mouse with a disrupted endogenous PrP gene e.g., Tg(Prnp 0/0 ).
- a mouse containing a high copy number of sheep PrP genes e.g., 50 ⁇ 25
- is crossed with a mouse with a disrupted endogenous PrP gene e.g., Tg(Prnp 0/0 ) to obtain a hybrid mouse Tg(ShPrP)/Prap 0/0 .
- a variety of different hybrids can be obtained by crossing an animal with an ablated PrP gene (i.e., a null prion background) with different transgenic animals with different exogenous PrP genes.
- a null prion background means that more than 50% of the endogenous PrP genes are disrupted, preferable more than 80%, more preferable more than 90% and most preferable 100% so that no endogenous PrP is expressed.
- the DNA sequence of the human, sheep, cow, cat, dog and chicken PrP genes have been determined allowing, in each case, the prediction of the complete amino acid sequence of their respective proteins.
- the normal amino acid sequence which occurs in the vast majority of individuals is refe ⁇ ed to as the wild-type PrP sequence
- This wild-type sequence is subject to certain characteristic polymorphic variations
- two polymorphic amino acids occur at residues 129 (Met/Val) and 219 (Glu/Lys)
- Sheep PrP has two amino acid polymorphisms at residues 171 and 136
- bovine PrP has either five or six repeats of an eight amino acid motif sequence in the amino terminal region of the mature PrP While none of these polymorphisms are of themselves pathogenic, they appear to influence prion diseases Distinct from these normal variations of the wild-type PrPs, certain mutations of the human PrP gene which alter either specific amino acid residues of PrP or the number of octarepeats have been identified which segregate with inherited human pri
- PrP genes For example, a chicken, bovine, sheep, rat and mouse PrP gene are disclosed and published within Gabriel et al , Proc Natl Acad Sci USA 59 9097-9101 (1992) The sequence for the Syrian hamster is published in Basler et al , C_e ⁇ 46417-428 (1986) The PrP gene of sheep is published by Goldmann et al , Proc Natl Acad Sci USA 872476-2480 (1990) The PrP gene sequence for bovine is published in Goldmann et al , J Gen Virol 72 201-204 (1991) The sequence for chicken PrP gene is published in Hams et al , Proc Natl Acad Sci USA 55 7664-7668 (1991) The PrP gene sequence for mink is published in Kretzschmar et al , J_ Gen Virol 73 2757-2761 (1992) The human
- PrP gene sequence for mouse is published in Locht et al , Proc Natl Acad Sci USA 53 6372-6376 (1986)
- PrP gene sequence for sheep is published in Westaway et al , Genes Dev 5 959-969 (1994)
- the present invention can be utilized to determine the concentration of prions (which generally only infect a genetically diverse animal) within a given sample
- the transgenic mice make it possible to test for the positive presence of prions within a sample
- the mice are capable of detecting the presence of prions in a concentration as low as 1 ppm or even 1 ppb or less.
- the procedure for doing such will be apparent to those skilled in the art upon a review of the present disclosure in combination with an article entitled "Measurement Of The Scrapie Agent Using An Incubation Time Interval Assay," published by Prusiner, et al, Annals of Neurology 11 :353-358 (1982) which is incorporated herein by reference to disclose such a method of measurement
- the method is ca ⁇ ied out by determining the titer of the prions by carrying out measurements of time intervals from inoculation to onset of symptoms and from inoculation to death.
- the intervals are inversely proportioned to the size of the dose injected intracerebrally
- the logarithms of the time intervals minus a time factor are linear functions of the logarithms of the inoculum size.
- residue 203 which is a Val in Mo and Hu PrP and is an He in BoPrP, might be responsible for this difference in susceptibility to prions.
- residue 203 is a Val and thus, it might prevent conversion of MBo2M PrP c into PrP Sc .
- PrP(90-231) derived by solution NMR. These residues are seen to cluster on one side of the PrP c structure and are spatially distinct from the discontinuous epitope consisting of residues 168, 172, 215 and 219 that binds to the protein that makes the conversion of PrP c to PrP Sc possible.
- residues 168, 172, 215 and 219 that binds to the protein that makes the conversion of PrP c to PrP Sc possible.
- residues we added those known to be polymorphic from an extensive analysis of the PrP genes from over forty species [P. Bamborough et al., Cold Spring Harb. Symp. Quant. Biol. 61:495 (1996)]. These residues are candidates for contributing to the species ba ⁇ ier. Almost all of these residues cluster and enlarge the epitope formed by residues 184, 186, 203 and 205.
- residues that are spatial neighbors of these residues are candidates for this epitope. Their mutation would be expected to create a species ba ⁇ ier.
- a systematic study of residues that should contribute to this epitope will allow us to define the extent of the PrP c /PrP Sc interface and thus reach an understanding of the species ba ⁇ ier at a molecular level.
- This epitope includes regions that are known to remain structurally constant as well as a portion that is known to undergo a substantial conformational reorganization. Perhaps this explains why PrP Sc can homodimerize as well as bind to PrP c and simultaneously act as a template for assisting the conversion of PrP c into PrP Sc .
- Transgenic studies have shown that some mutations associated with inherited human disease create transmissible disease (178, 200, 210) while others create disease in the founder's lineage that are not transmissible to murine hosts expressing wild-type PrP (e.g. 102). Seven point mutations (178, 180, 183, 198, 200, 208, 210) known to cause inherited prion diseases including those that are known to create a transmissible encephalopathy map to this region of the structure as well.
- Bo/Mo chimeric transgenes could contain Mo or Bo residues at positions 184, 186, 203 and 205 in different combinations designed to obtain the desired results. It should also be possible to construct improved Hu/Mo chimeric transgenes by simultaneously mutating Hu residues at these same positions to Mo residues. Mutagenesis at any or all of these positions may overcome the paradoxically long incubation times found in Tg(MHu2M)Prnp 0/0 mice expressing high levels of the transgene product as well as the resistance of Tg(MBo2M) mice to Bo prions (Table 3).
- the Tg(BoPrP) mice make possible, for the first time, an accurate determination of BSE prion titers in brain and other tissues. Determining the titers of BSE prions in muscle, pancreas, liver and intestine that are commonly consumed by humans will be of utmost importance. If the cu ⁇ ent cases of vCJD are due to bovine prions, then it is likely the exposure occu ⁇ ed prior to the specified bovine offals ban of November 1989 that prohibited human consumption of CNS and lymphoid tissues from cattle older than 6 months of age. This legislation was based upon studies in sheep showing that the highest titers of scrapie prions are found in these tissues.
- sheep tissues were inoculated into non-Tg Swiss mice which are slightly more susceptible to sheep prions than bovine prions. Because the bioassay for bovine prions in ordinary mice is so insensitive, the levels of prions in bovine muscle remain unknown. If the distribution of bovine prions proves to be different from that presumed from sheep then assumptions about the efficacy of the offal ban will need to be reassessed.
- Tg(BoPrP) mice also make possible for the first time the evaluation of drugs and other medicinal products derived cattle for prion contamination. For example, collagen from cattle is used widely in plastic and reconstructive surgery and gelatine is used in foods and in the production of a wide variety of drug capsules.
- the availability of Tg(BoPrP) mice will also make possible epidemiologic studies on the frequency of BSE in countries such as the United States and Canada which have been thought to be spared. With these Tg(BoPrP) mice, it is now possible to determine whether or not it will be important to produce Tg cattle that are resistant to prions by genetic ablation of the PrP gene or constructing transgenes which interrupt the formation of PrP Sc from PrP c .
- Tg(BoPrP) mice using FVB mice which express MoPrP-A.
- Two lines designated Tg(BoPrP)883 and Tg(BoPrP)333, were obtained.
- the transgene used to construct these lines was eventually found to be defective since neither line expressed BoPrP at levels detectable by Western blotting when tested using antisera specific for BoPrP [see U. Oberdieck, Arch. Virol. 36:99 (1994)].
- both Tg lines expressed MoPrP-A (Pr p") genes, the mice as Prnp a/a were used as controls. These mice made it possible to assess the remote possibility that sequences other than PrP within the cosTet vector could influence the specificity for passaging of BSE prions.
- mice deficient for PrP were crossed onto the FVB background and used as recipients for microinjection [see H. Bueler et al., Nature 356:577 (1992)].
- Three Tg(MBo2M)Prnp 0/0 founders were obtained. Only two were fertile and could be bred for preliminary screening for expression of MBo2M PrP. Of these, one expressed only low levels of MBo2M PrP.
- Tg(MBo2M) 14586/Prnp 0/0 was found to express approximately 8-16X the amount of MBo2M PrP per g of total protein when compared to bovine brain.
- the latter line was selected for transmission studies.
- Tg(BoPrP) mice which efficiently express BoPrP.
- FVB/Prnp 0/0 mice were used as recipients for microinjection.
- Four lines of Tg(BoPrP)/Prnp 00 mice were established; two of these, Tg(BoPrP)4092/Prnp 0/0 and Tg(BoPrP)4125/Prnp 00 , express 4-8X and 8-16X more BoPrP per g of protein than that found in bovine brain, respectively.
- Example 4 Resistance of Tg(MBo2M ⁇ Mice to Infection With BSE Prions Extracts prepared from the brainstems of several cows with histologically positive BSE and PrP Sc by Western blotting were inoculated into Tg(MBo2MPrP) mice. None of the mice developed clinical signs of neurologic dysfunction, more than 600 d after inoculation (Table 3). This was surprising since the MBo2M ORF was comprised of BoPrP and MoPrP-A sequences, and previous studies had shown that Prnp" mice are susceptible to BSE, with incubation times exceeding 400 d.
- Tg(MBo2M)PrP mice contained infectious prions was shown by transmission of prion disease to FVB, Tg(BoPrP)883 and Tg(BoPrP)333 mice expressing MoPrP-A. These mice exhibited incubation times of 400-650 d (Table 3), similar to that reported by others [H. Fraser, M.E. Bruce, A. Chree, I. McConnell, G.A.H. Wells, J. Gen. Virol. " 3:1891 (1992)]. Two of 18 Tg(MoPrP-A)4053 mice inoculated with BSE prions have exhibited signs of CNS dysfunction at -350 d (Table 3).
- mice inoculated with RML Mo prions develop disease in -50 d [G.A. Carlson et al., Proc. Natl. Acad. Sci. USA 97:5690 (1994)].
- Tg(MBo2MPrP) mice were highly resistant to BSE prions while mice expressing wild-type Mo PrP-A sequence were susceptible to BSE prions but required prolonged incubation times.
- Tg(BoPrP)Prnp 00 mice expressing BoPrP were inoculated with a 10% homogenate derived from the medulla of a Hereford bull (case PG31/90) clinically ill with BSE.
- the Tg(BoPrP)4125/Prnp 0/0 mice with the highest level of BoPrP expression were found to be highly susceptible to BSE prions, with 100% of animals exhibiting clinical signs within 250 d following inoculation.
- Tg(BoPrP)4092/Prnp 00 mice with an intermediate level of BoPrP expression exhibited a longer incubation period with the same inoculum; they had a mean incubation period of -320 d. Similar incubation times were obtained when these Tg lines were inoculated with another BSE isolate (Table 3).
- an anti-PrP rabbit polyclonal antiserum designated #9095 was raised against a synthetic peptide co ⁇ esponding to residues 90-145 of BoPrP.
- This antiserum shows a broad specificity, with a high affinity for bovine, mouse, human, hamster, and sheep PrPs.
- the 301V strain was derived following transmission of BSE prions to Prnp b/b mice [M. Bruce et al., Phil. Trans. R. Soc. Lond.
- PrP Sc The accumulation of PrP Sc in the brainstems of Tg(BoPrP) mice inoculated with BSE prions is reminiscent of the pattern of PrP Sc accumulation in cow brains infected with BSE.
- Tg(BoPrP)Prnp 0/0 mice The ability of the Tg(BoPrP)Prnp 0/0 mice to mimic the CNS distribution of PrP Sc found in cattle with BSE is reminiscent of the ability of Tg(MHu2M) mice to mimic the distribution of PrP S ⁇ deposition in two of the inherited prion diseases.
- Fatal familial insomnia (FFI) is caused by the N178D mutation while one form of familial (f) CJD is caused by the E200K mutation [Medori et al., N. Engl. J. Med. 326:444 (1992)].
- Tg(BoPrP)4125/Prnp 0/0 and Tg(BoPrP)4092/Prnp 00 lines were found to contain large amounts of a protein of -34 kD, indistinguishable in size from that found in the bovine PG31/90 brain from which the BoPrP ORF used to construct the transgene was derived.
- the increased size of the BoPrP compared to MoPrP is predominantly due to the presence of six octarepeats rather than five.
- the NH 2 -terminal region contains two single base insertions relative to SHa/Hu PrP; however the region co ⁇ esponding to residues 90-231 is identical in size to SHa/Hu PrP.
- BSE prions passaged into normal Prnp ⁇ " mice showed a similar pattern of protease resistant fragments but these displayed a slightly lower molecular size compared to BoPrP Sc found in the brains of BSE-infected Tg(BoPrP) mice and cattle or to the MoPrP Sc fragments observed following hydrolysis of brain extracts oiPrnp a ' a mice which had been inoculated with a sheep scrapie isolate. While the origin of the bovine prions causing BSE cannot be determined by examining the amino acid sequence of PrP Sc in cattle with BSE, the availability of Tg(BoPrP)Prnp 0/0 mice provide new insights into the origin of this epidemic.
- mice inoculated intracerebrally with BSE brain extracts require more than a year to develop disease
- the structures of PrP c and PrP Sc and other host factors, the number of inoculated animals developing disease can vary over a wide range
- Some investigators have stated that transmission of BSE to mice is quite variable with incubation periods exceeding one year [Lesmazas et al , Science 275 402 ( 1997)]
- others report a low prion titer of 10 27 LD 50 units/ml of 10% B SE brain homogenate compared to 10 7 - 10 9 LD 50 units/ml in rodent brain [Hunter et al , Res Vet Sci 4 543 (1963)]
- endpomt titrations of BSE p ⁇ ons in cattle suggest that the titer of prions in bovine brains exceeds 10 6 ID 50 units/ml
- Other attempts at assaying BSE prions have used animals from various species
- the rate of transmission to Tg(HuPrP) mice was 8.3% (14 clinically sick mice out of 169 mice) which was similar to a transmission rate of 10.3% in control non-Tg mice (6 clinically sick mice out of 58 mice).
- incubation times were extremely long ranging, from 590 days to 840 days in both Tg(HuPrP) and non-Tg mice. By this late time, many animals had died of intercu ⁇ ent illnesses which complicated diagnosis.
- the difficulty of interpreting transmissions occu ⁇ ing after extremely long incubation periods is compounded by the heightened potential for artifactual results due to low levels of contaminating prions.
- MoPrP Sc was detected in the brain of the non-Tg mouse inoculated with sporadic CJD inoculum #87011 which developed clinical signs after 756 days, while 3F4-reactive PrP Sc was detected in the brains of two Tg(HuPrP) mice which developed clinical signs after 589 days post-inoculation with iatrogenic CJD inoculum #170.
- the equivalent transmission rates of human prions in Tg(HuPrP) and non-Tg mice indicate that this is a rare event with the same frequency of occu ⁇ ence as the stochastic conversion of MoPrP c to MoPrP Sc induced by human prions.
- Hu prions from patient RG have not transmitted to either Tg(HuPrP) or non-Tg mice after >330 days (see Table 2 below). Attempts to transmit preparations enriched for Hu prion rods prepared from the brain of patient RG have likewise been negative for >300 days. In addition, inoculum from the iatrogenic CJD case (#364) has produced illness in neither Tg(HuPrP) nor non-Tg mice after >780 days (as shown in Table 2 below).
- Non-Tg Codon 102 0/10 679
- Non-Tg Codon 178 0/8 F-CJD
- Example 11 The Susceptibility of TgfBoPrP ⁇ Prnp 00 Mice to BSE Prions BoPrP or MBo2M PrP were ligated into the cosTet vector for microinjection.
- MBo2M PrP was constructed as described previously for similar chimeric PrP transgenes (see U.S. Patent 5,565,186) resulting in eight bovine substitutions in MoPrP co ⁇ esponding to HuPrP residues: 97, 109, 138, 143, 145, 155, 184 and 186. Fertilized oocytes from FVB/Prnp 0/0 mice were produced by repeated backcrosses of Prnp 0/0 mice (20) with FVB mice obtained from Charles River Laboratories. Founder Tg(BoPrP)Prnp 00 and
- Tg(MBo2M)Prnp 00 mice were identified by PCR screening for transgene integration using a Beckman robotic workstation. Tg mice from the F2 generation were sacrificed and the level of BoPrP c expression in the brain was determined by dot blot using two-fold dilutions of the homogenate that were compared to BoPrP c in bovine brain. Tg(BoPrP)Prnp 00 mice from lines chosen for transmission studies were inoculated intracerebrally with 30 ⁇ l of a 10% homogenate of the medulla prepared with phosphate-buffered saline.
- mice were scored positive for prion disease when two of three signs of neurologic dysfunction were present and progressive deterioration of the animals was apparent. Most reliable signs of neurologic dysfunction for monitoring prion disease in mice are (i) truncal ataxia, (ii) increased tone of the tail, and (iii) lack of forelimb extensor response when lifted by the tail [see Scott et al., Cell 59:847 (1989)].
- Tg(BoPrP)Prap 00 mouse inoculated with BSE prions from bovine brainstem was sacrificed after exhibiting signs of CNS dysfunction.
- Cryostat sections were taken through the hippocampus and thalamus, and the brainstem were transfe ⁇ ed to nitrocellulose, digested with proteinase K and immunostained.
- Congenic B6.I-1 ⁇ Prnp b/b ) mice were inoculated with 301V prions and processed as described above.
- the anti-PrP rabbit polyclonal antiserum designated #9095 was raised against a synthetic peptide co ⁇ esponding to residues 90-145 of BoPrP.
- Three rabbits were immunized with 0.25 mg of the peptide dispersed into complete Freund's adjuvant and booster immunizations performed with 0.25 mg of the peptide in RJJBI adjuvant.
- the antiserum was used at a dilution of 1 : 1000 for histoblotting. The antiserum reacted strongly with PrP from cattle, mice, Stanford hamsters and humans.
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EP98945791A EP1017795A4 (en) | 1997-09-22 | 1998-08-28 | Detecting cow, sheep and pig prions in a sample and transgenic animal used for same |
AU92953/98A AU752933B2 (en) | 1997-09-22 | 1998-08-28 | Detecting cow, sheep and pig prions in a sample and transgenic animal used for same |
JP2000512933A JP2001517775A (en) | 1997-09-22 | 1998-08-28 | Detection of bovine, ovine and porcine prions in samples and transgenic animals used for that purpose |
CA002302836A CA2302836A1 (en) | 1997-09-22 | 1998-08-28 | Detecting cow, sheep and pig prions in a sample and transgenic animal used for same |
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US08/935,363 US6008435A (en) | 1994-05-13 | 1997-09-22 | Detecting cow, sheep and human prions in a sample and transgenic mice used for same |
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WO2000021362A1 (en) * | 1998-10-09 | 2000-04-20 | The Regents Of The University Of California | VIABLE PrP (PRION PROTEIN) TRANSGENIC ANIMALS AND METHODS OF USE |
WO2004018511A2 (en) * | 2002-08-23 | 2004-03-04 | Copenhagen Biotech Assets Aps | Composite peptide compounds for diagnosis and treatment of diseases caused by prion proteins |
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US5565186A (en) * | 1994-05-13 | 1996-10-15 | The Regents Of The University Of California | Method of detecting prions in a sample and transgenic animal used for same |
US5908969A (en) * | 1994-05-13 | 1999-06-01 | The Regents Of The University Of California | Method of detecting prions in a sample and transgenic animal used for same |
US5792901A (en) * | 1994-05-13 | 1998-08-11 | The Regents Of The University Of California | Detecting prions in a sample and prion preparation and transgenic animal used for same |
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1998
- 1998-08-28 EP EP98945791A patent/EP1017795A4/en not_active Withdrawn
- 1998-08-28 WO PCT/US1998/017879 patent/WO1999015640A1/en not_active Application Discontinuation
- 1998-08-28 JP JP2000512933A patent/JP2001517775A/en not_active Withdrawn
- 1998-08-28 AU AU92953/98A patent/AU752933B2/en not_active Ceased
- 1998-08-28 CA CA002302836A patent/CA2302836A1/en not_active Abandoned
Non-Patent Citations (3)
Title |
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PRUSINER S. B.: "MOLECULAR BIOLOGY OF PRIONS CAUSING INFECTIOUS AND GENETIC ENCEPHALOPATHIES OF HUMANS AS WELL AS SCRAPIE OF SHEEP AND BSE OF CATTLE.", DEVELOPMENTS IN BIOLOGICAL STANDARDIZATION, KARGER, BASEL, CH, vol. 75., 1 January 1991 (1991-01-01), CH, pages 55 - 74., XP002913245, ISSN: 0301-5149 * |
See also references of EP1017795A4 * |
TELLING G. C., ET AL.: "PRION PROPAGATION IN MICE EXPRESSING HUMAN AND CHIMERIC PRP TRANSGENES IMPLICATES THE INTERACTION OF CELLULAR PRP WITH ANOTHER PROTEIN.", CELL, CELL PRESS, US, vol. 83., 6 October 1995 (1995-10-06), US, pages 79 - 90., XP002913244, ISSN: 0092-8674, DOI: 10.1016/0092-8674(95)90236-8 * |
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WO2000021362A1 (en) * | 1998-10-09 | 2000-04-20 | The Regents Of The University Of California | VIABLE PrP (PRION PROTEIN) TRANSGENIC ANIMALS AND METHODS OF USE |
WO2004018511A2 (en) * | 2002-08-23 | 2004-03-04 | Copenhagen Biotech Assets Aps | Composite peptide compounds for diagnosis and treatment of diseases caused by prion proteins |
WO2004018511A3 (en) * | 2002-08-23 | 2004-03-25 | Copenhagen Biotech Assets Aps | Composite peptide compounds for diagnosis and treatment of diseases caused by prion proteins |
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