ZA200007404B - Neurotrophic factors. - Google Patents
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- ZA200007404B ZA200007404B ZA200007404A ZA200007404A ZA200007404B ZA 200007404 B ZA200007404 B ZA 200007404B ZA 200007404 A ZA200007404 A ZA 200007404A ZA 200007404 A ZA200007404 A ZA 200007404A ZA 200007404 B ZA200007404 B ZA 200007404B
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- Peptides Or Proteins (AREA)
Description
NEUROTROPHIC FACTORS
The invention relates to neurotrophic factor polypeptides, nucleic acids encoding neurotrophic factor polypeptides, and antibodies that bind specifically to neurotrophic factors.
Neurotrophic factors are naturally-occurring proteins which promote survival, maintain phenotypic differentiation, prevent degeneration, and enhance the activity of neuronal cells and tissues. Neurotrophic factors are isolated from neural tissue and from non-neural tissue that is innervated by the nervous system, and have been classified into functionally and structurally related groups, also referred to as families, superfamilies, or subfamilies. Among the neurotrophic factor superfamilies are the fibroblast growth factor, neurotrophin, and transforming growth factor-f (TGF-B) superfamilies. Individual species of neurotrophic factors are distinguished by their physical structure, their interaction with their composite receptors, and their affects on various types of nerve cells. Classified within the TGF-B superfamily (Massague, et al,
Trends in Cell Biology, 1994 4 172-178) are the glial cell line-derived neurotrophic factor ligands ("GDNF", WO 93/06116, incorporated herein by reference), which include
GDNF, persephin ("PSP"; Milbrandt et al., Neuron 1998 20 245-253, incorporated herein by reference) and neurturin ("NTN"; WO 97/08196, incorporated herein by reference). The ligands of the GDNF subfamily have in common their ability to induce signalling through the RET receptor tyrosine kinase. These three ligands of the GDNF subfamily differ in their relative affinities for a family of neurotrophic receptors, the
GFR@ receptors.
Due to the affects of neurotrophic factors on neuronal tissue, there remains a need to identify and characterise additional neurotrophic factors for diagnosing and treating disorders of the nervous system.
This invention relates to a novel neurotrophic factor herein called “neublastin,” or “NBN.” Neublastin is classified within the GDNF subfamily because it shares regions of homology with other GDNF ligands (see Tables 3 and 4, infra) and because of its ability to interact with RET (see, e.g., Airaksinen et al., Mol. Cell. Neuroscience, 1999 13 313- 325), neublastin is a novel and unique neurotrophic factor. Unlike other GDNF ligands,
SUBSTITUTE SHEET ( rule 26)
neublastin exhibits high affinity for the GFRa3-RET receptor complex and unique subregions in its amino acid sequence.
A "neublastin polypeptide,” as used herein, is a polypeptide which possesses neurotrophic activity (e.g., as described in Examples 6, 7, 8, and 9) and includes those polypeptides which have an amino acid sequence that has at least 70% homology to the human “neublastin” polypeptides set forth in AA g5-AA1ps of SEQ ID NO: 2, AA;-
AAjos of SEQ ID NO: 2, AA g7-AA4 of SEQ ID NO: 4, AAL1-AAi4 of SEQ ID NO: 4 (“pro”). AAi-AAq4o of SEQ ID NO: 4, AA 5-AA, 4 of SEQ ID NO: 9 (“wild type” prepro),
AA 41-AA140 of SEQ ID NO: 9 (pro), AAs-AAq4 of SEQ ID NO: 5 (mature 140AA), AA,-
AA, of SEQ ID NO: 6 (mature 116AA), AA1-AA;q3 of SEQ ID NO: 7 (mature 113AA),
AA;1-AA 4 of SEQ ID NO: 10 (mature 140AA), AA;-AA, 15 of SEQ ID NO: 11 (mature 116AA), AA-AA43 of SEQ ID NO: 12 (mature 113AA), and variants and derivatives thereof. In addition, this invention contemplates those polypeptides which have an amino acid sequence that has at least 70% homology to the murine “neublastin” polypeptides set forth in AA;-AAz,4 of SEQ ID NO: 16.
Preferably, the C-terminal sequence of the above identified neublastin polypeptides has an amino acid sequence as set forth in AA73-AA4ps of SEQ ID NO: 2 (i.e., AA1pg7-AA140 of SEQ ID NO: 9), more preferably AA41-AA05 of SEQ ID NO: 2 (i.e.,
AA7e-AA140 Of SEQ ID NO: 9), or the amino acid sequence set forth in AA491-AA224 Of
SEQ ID NO: 16.
Also, it is preferable that the neublastin polypeptide retain the 7 conserved Cys residues that are characteristic of the GDNF family and of the TGF-beta super family.
Preferably, the neublastin polypeptide has an amino acid sequence greater than 85% homology. most preferably greater than 95% homology, to the foregoing sequences (i.e., AAgs-AAqps of SEQ ID NO: 2, AA:-AAigs of SEQ ID NO: 2, AAgs-
AAig of SEQ ID NO: 4, AA-AA 4 of SEQ ID NO: 4, AA4;-AAq4 of SEQ ID NO: 4,
AA go-AA14 of SEQ ID NO: 9 (“wild type” prepro), AA ;1-AA;40 of SEQ ID NO: 9 (pro),
AA-AA 14 Of SEQ ID NO: 5 (mature 140AA), AA;-AA4g of SEQ ID NO: 6 (mature 116AA), AA;-AAq1; of SEQ ID NO: 7 (mature 113AA), AA;-AA4 of SEQ ID NO: 10 (mature 140AA), AA;-AAqs6 of SEQ ID NO: 11 (mature 116AA), AA-AA443 of SEQ ID
NO: 12 (mature 113AA)), and AA,-AA4 of SEQ ID NO: 186.
A "neublastin nucleic acid," as used herein, is a polynucleotide which codes for a neublastin polypeptide. Accordingly, an isolated neublastin nucleic acid is a polynucleotide molecule having an open reading frame of nucleotide codons that, were it to be exposed to the appropriate components required for translation, would encode, or code for, a neublastin polypeptide. Neublastin nucleic acids of the invention may be
RNA or DNA, e.g, genomic DNA, or DNA which is complementary to and/or transcribed from, a neublastin mRNA ("cDNA"). Thus. a neublastin nucleic acid of the
SUBSTITUTE SHEET ( rule 26)
invention further includes polynucleotide molecules which hybridize with specificity, under high stringency hybridization conditions, to a polynucleotide that codes for a neublastin polypeptide. This invention also relates to nucleic acid primers that are useful in identifying, isolating and ampiifying polynucleotides that encode neublastin polypeptides, ar fragments thereof. In certain embodiments of the invention, certain of these primers are neublastin-specific probes useful for hybridization to a neublastin nucleic acid, but not to nucleic acids coding for the other members of the GDNF family. By “specific”, “specificity”, or "specifically", is meant an ability to hybridize with neublastin nucleic acid and inability to hybridize with non-neublastin nucleic acids, including an inability to hybridize to nucleic acids that code uniquely for the GDNF ligands (e.g., GDNF, persephin, and neurturin).
In another embodiment, a neublastin nucleic acid of the invention is one that is identified as being complementary to a polynucleotide that codes for a neublastin polypeptide, either by having a complementary nucleic acid sequence or demonstrating that it hybridizes with specificity at high stringency hybridization conditions to a polynucleotide that codes for neublastin. Particular neublastin nucleic + acids include, without limitation, the nucleic acid sequences shown herein and ~ designated SEQ ID NO: 1, SEQ ID NO: 3, SEQ ID NO: 8, SEQ ID NO: 13, SEQ ID
NO: 14, SEQ ID NO: 15, SEQ ID NO: 29 and SEQ ID NO: 30 as well as primers SEQ
ID NOS: 17-28, 31 and 32. A neublastin nucleic acid of the invention further includes : } a unique subregion, or fragment, of a neublastin nucleic acid, including without limitation the nucleic acid fragments shown in FIG. 8. : The neublastin nucleic acids of the invention may be used to express a neublastin polypeptide, e.g., by expressing a neublastin polypeptide in vitro, or by administering a neublastin nucleic acid to an animal for in vivo expression. Neublastin nucleic acids may be included within a nucleic acid vector, e.g., an expression vector or a cloning vector. A neublastin nucleic acid may, but need not of necessity, be maintained, reproduced, transferred, or expressed as part of a nucleic acid vector. A recombinant expression vector containing a neublastin polynucleotide sequence can be introduced into and/or maintained within a cell. Cells hosting a neublastin vector may be prokaryotic. Alternatively, a neublastin nucleic acid can be introduced into a eukaryotic cell, e.g., a eukaryotic cell that contains the appropriate apparati for post- translational processing of a polypeptide into a mature protein, and/or the appropriate apparati for secreting a polypeptide into the extracellular environment of the cell.
The invention further features a neublastin neurotrophic factor, "neublastin.”
Neublastin may be in the form of a polypeptide, or may be a muitimer of two or more neublastin polypeptides, e.g., a neublastin dimer. Neublastin polypeptides are associated as multimers by intermolecular structural associations known to those skilled
SUBSTITUTE SHEET ( rule 26)
in the art, including without limitation cysteine-cysteine interaction, suifhydryl bonds, and noncovalent interactions. Particular neublastin polypeptides include, without limitation, an amino acid sequence disclosed herein and designated SEQ ID NO: 2; SEQ ID NO: 4, SEQ ID NO: 5; SEQ ID NO: 6; SEQ ID NO: 7; SEQ ID NO: 9; SEQ ID NO: 10; SEQ
ID NO: 11, SEQ ID NO: 12 and SEQ ID NO: 16.
A neublastin polypeptide of the invention is useful for treating a defect in a neuron, including without limitation lesioned neurons and traumatized neurons.
Peripheral nerves that experience trauma include, but are not limited to, nerves of the medulla or of the spinal cord. Neublastin polypeptides are useful in the treatment of neurodegenerative disease, e.g., cerebral ischaemic neuronal damage; neuropathy, e.g., peripheral neuropathy, Alzheimer's disease, Huntington's disease, Parkinson's disease, amyotrophic lateral sclerosis (ALS). Neublastin polypeptides are further contemplated for use in the treatment of impaired memory, e.g., memory impairment associated with dementia.
FIG. 1 is a photographic image of two northern blots probed with 32p_jabelled neublastin cDNA, comparing relative levels of expression of the neublastin gene in various human adult tissue types (panel A) and in various regions of the adult human brain (panel B).
FIG. 2 is a photographic image of a northern blot probed with 32p_japelled ) neublastin cDNA, comparing the amount of neublastin cDNA expressed in a non- transfected cell-line, HiB5, with the amount of neublastin cDNA expressed in a cell-line transfected with neublastin cDNA, and with a cell-line transfected with GDNF- cDNA.
FIG. 3 is a photographic image of two western blots which compare the degrees to which neublastin protein is expressed in non-transfected HiB5 cells (lane 1) relative to an HiB5 cell-line stably-transfected with neublastin cDNA (lane 2) was probed with either the neublastin-specific antibody Ab-2 (left blot; Panel A) or the neublastin- specific antibody Ab-1 (right blot; Panel B).
FIG. 4 is a graphical illustration of the effect of neublastin on the survival of cultured rat embryonic, dopaminergic, ventral mesencephalic neurons and ChAT activity in cholinergic cranial nerve motor neurons in serum-free medium. In particular,
FIG. 4A is an illustration of the dose-response curve for recombinant GDNF on ChAT activity (dpm/hour). FIG. 4B is an illustration of ChAT activity (dpm/hour) using diluted conditioned medium from either neublastin producing or GDNF-producing cells. FIG. 4C is an illustration of the number of tyrosine hydroxylase immunoreactive cells per well.
SUBSTITUTE SHEET ( rule 26)
FIG. 5 is an illustration of the effect of neublastin secreted from
HiB5pUbi1zNBN22 cells on the function and survival of slice cultures of pig embryonic dopaminergic ventral mesencephalic neurons co-cultured with either
HiBSpUbi1zNBN22 cells (neublastin) or HiB5 cells (control). FIG. 5A and Fig. 5B illustrate dopamine released to the medium at DIV12 [Dopamine (pmol/ml) - day 12] and DIV21 [Dopamine (pmol/ml) - day 21], respectively. FIG. 5C is an illustration of the number of tyrosine hydroxylase immunoreactive cells per culture [TH-ir cells per culture] at DIV21.
FIG. 6 is an illustration of the in vivo effect of lentiviral-produced neublastin on nigral dopamine neurons.
FIG. 7 is a schematic diagram of the genomic structure of the neublastin gene, including the nucleic acid primers which can be used to identify the full length neublastin gene, and their spatial orientation in relation to the genomic Neublastin- encoding sequence (i.e., gene).
FIG. 8 is an illustration of neublastin specific primers used to identify the cDNA clone encoding the human neublastin polypeptide that hybridize to nucleic acids that encode neublastin polypeptides, but do not hybridize to nucleic acids encoding the other known GDNF family members (i.e., GDNF, Persephin and neurturin).
FIG. 9 illustrates the neurotrophic activity on cultures of dissociated rat dorsal root ganglion cells from different development stages of a polypeptide disclosed in the present invention in comparison to those obtained with known neurotrophic factors [0 control experiment (in absence of factors); 1 in the presence of GDNF; 2 in the ; presence of Neurturin; 3 in the presence of Neublastin of the invention; E12 embryonic day 12; E16 embryonic day 16; PO the day of birth; P7 day 7 after birth; and P15 day 15 after birth].
FIG. 10 illustrates neublastin production from CHO cell lines.
FIG. 11 illustrates a comparison of neublastin and GDNF binding to GFRo-1 and GFRo-3 receptors.
FIG. 12 is a photographic image of a western blot which illustrates R30 anti- peptide antibody and R31 anti-peptide antibody binding to neublastin.
FIG. 13 is a picture of a gel showing extraction of neublastin by affinity binding on RETL3-Ig.
FIG. 14 is a plasmid map of pET19b-Neublastin, along with the sequence of the synthetic gene for Neublastin.
FIG. 15 is a plasmid map of pMJB164-HisNeublastin, along with the sequence of the synthetic gene for HisNeublastin.
SUBSTITUTE SHEET ( rule 26)
Applicant have identified a nucleic acid that encodes a novel neurotrophic factor which is referred to herein as “neublastin,” or “NBN.” Neublastin is a member of the glial cell line-derived neurotrophic factor (GDNF) sub-class of the transforming growth factor-f (TGF-B) super-family of neurotrophic factors.
The cDNA encoding neublastin was originally identified as follows. Using the
TBLASTN 1.4.11 algorithm (Atschul et al., Nucl. Acids Res. 1997 25 3389-3402) and human persephin as query (GenBank Acc. No. AF040962), a 290 bp fragment was initially identified in High-Throughput Genomic Sequence (HGTS) of two human bacterial artificial chromosomes (BAC) with GenBank entries AC005038 and
AC005051. ACO005038 consists of approximately 190,000 bp of 5 contigs of unordered sequences and AC005051 consists of approximately 132,000 bp of 12 contigs of unordered sequences. The 290 bp fragment identified in the two BAC clones proved to have regions that were homologous, but not identical, to a coding region of the cDNA of the neurotrophic factor, human persephin.
From this 290 bp sequence two Neublastin-specific PCR primers were synthesised (Top Stand Primer [SEQ ID NO: 17] and Bottom Strand Primer [SEQ ID
NO: 18]). Screening of human foetal brain cDNA library was performed. The initial screening comprised 96-well PCR-based screening with the two PCR primers [SEQ ID
NOS: 17 and 18] of a cDNA library “Master Plate” from 500,000 cDNA clones containing approximately 5,000 clones/well. A second PCR-based screen was performed on a human foetal brain cDNA library “Sub-Plate” containing E. coli glycerol stock with approximately 5,000 clones/well.
A 102 bp fragment [SEQ ID NO: 13] was identified in the PCR-based screenings of both the Master Plate and Sub Plate. A positive cDNA clone (possessing the 102 bp fragment) was selected, plated on two LB/antibiotic-containing plates, and grown overnight. From these plates, a total of 96 bacterial colonies were selected and individually placed in the wells of a new, 96-well PCR plate containing both PCR primers [SEQ ID NOS: 17 and 18] and the requisite PCR amplification reagents. PCR amplification was then performed and the 96 individual PCR reactions were analysed by 2% agarose gel electrophoresis. The positive colony with the clone containing the 102 bp fragment was then identified. Plasmid DNA was obtained from the positive colony containing the 102 bp fragment and sequenced. Subsequent sequencing analysis revealed the presence of a full-length cDNA of 861 bp [SEQ ID
NO: 8]. The Open Reading Frame (ORF) of 663 bp, or coding region (CDS), identified in SEQ ID NO: 8, encodes the pre-pro-polypeptide (designated "pre-pro-Neublastin®) and is shown in SEQ ID NO: 9. Based on SEQ ID NO: 9, three variants of Neublastin polypeptides were identified. These variants include:
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(i) the 140 AA polypeptide designated herein as NBN140, which possesses the amino acid sequence designated as SEQ ID NO: 10; (ii) the 116 AA polypeptide designated herein as NBN116, which possesses the amino acid sequence designated as SEQ ID NO: 11; and (iii) the 113 AA polypeptide designated herein as NBN113, which possesses the amino acid sequence designated as SEQ ID NO: 12.
The entire cDNA sequence containing 782 bp 5' untransiated DNA, 663 bp encoding DNA, and 447 3’ untranslated (totalling 1992 bp) has been submitted to
GenBank under the Accession Number AF 120274.
The genomic Neublastin-encoding sequence was identified as follows:
With the goal of cloning the genomic neublastin-encoding sequence, an additional set of primers were prepared. In particular, Primer Pair No. 1 comprised [sense = SEQ ID NO: 23 and antisense = SEQ ID NO: 24] and Primer Pair No. 2 comprised [sense = SEQ ID NO: 25 and antisense = SEQ ID NO: 26]. . 15 Using Primer Pair No. 2, a 887 bp DNA fragment was amplified by PCR from a } 3 preparation of human genomic DNA, and cloned into the pCRIl vector (Invitrogen) and ) transformed into E. coli. The resulting plasmid was sequenced and a 861 bp putative cDNA sequence (encoding a protein named neublastin herein) was predicted (as set forth in SEQ ID NO: 3). Similarly, using Primer Pair No. 1, an 870 bp DNA fragment i 20 was obtained by PCR of human genomic DNA. An additional 42 bp region at the 3'- terminus of the Open Reading Frame (ORF) was found in this fragment, in comparison : to the 887 bp sequence. The genomic structure of the neublastin gene was predicted by comparing it to the sequences of nucleic acids of other neurotrophic factors, by mapping exon-intron boundaries. This analysis demonstrated that the neublastin gene has at least two exons separated by a 70 bp intron.
This sequence was also used to screen GenBank for neublastin EST sequences. Three were identified with GenBank entries AA844072, AA931637 and
AA533512, indicating that neublastin nucleic acids are transcribed into mRNA.
Comparison of the entire cDNA sequence obtained (AF 120274) and the genomic sequence present in GenBank entries AC005038 and AC005051 revealed that the neublastin gene consists of at least five exons (including three coding) separated by four introns (see, e.g., Fig. 8). Together, the exons have a predicted amino acid sequence of a full-length Neublastin polypeptide. It should also be noted that the 887 bp fragment was found to contain the complete coding region of pro- neublastin. The predicted cDNA [SEQ ID NO: 3] contains an Open Reading Frame
SUBSTITUTE SHEET ( rule 26)
(ORF) encoding pro-neublastin (181 amino acid residues) which showed homology to the three known human proteins - Persephin, Neurturin, and GDNF.
Neublastin Nucleic Acids of the Invention
In another aspect the invention provides polynucleotides capable of expressing the polypeptides of the invention. The polynucleotides of the invention include DNA, cDNA and RNA sequences, as well as anti-sense sequences, and include naturally occurring, synthetic, and intentionally manipulated polynucleotides. The polynucleotides of the invention also include sequences that are degenerate as a result of the genetic code, but which code on expression for a neublastin polypeptide.
As defined herein, the term “polynucleotide” refers to a polymeric form of nucleotides of at least 10 bases in length, preferably at least 15 bases in length. By “isolated polynucleotide” is meant a polynucleotide that is not immediately contiguous with both of the coding sequences with which it is immediately contiguous (one on the 5’ end and one on the 3’ end) in the naturally occurring genome of the organism from which it is derived. The term therefore includes recombinant DNA which is incorporated into an expression vector, into an autonomously replicating plasmid or virus, or into the genomic DNA of a prokaryote or eukaryote, or which exists as a separate molecule, e.g. a cDNA, independent from other sequences.
The polynucleotides of the invention also include allelic variants and “mutated polynuclectides” having a nucleotide sequence that differs from the nucleotide sequences presented herein at one or more nucleotide positions.
In a preferred embodiment, the polynucleotide of the invention has a nucleic acid (DNA) sequence capable of hybridizing with the polynucleotide sequence presented as
SEQ ID NO: 1, the polynucleotide sequence presented as SEQ ID NO: 3, the polynucleotide sequence presented as SEQ ID NO: 8, or the polynucleotide sequence presented as SEQ ID NO: 15, its complementary strand, or a sub-sequence hereof under at least medium, medium/high, or high stringency conditions, as described in more detail below.
In another preferred embodiment, the isolated polynucleotide of the invention has a nucleic acid (DNA) sequence that is at least 70%, preferably at least 80%, more preferred at least 90%, most preferred at least 95% homologous to the polynucleotide sequence presented as SEQ ID NO: 1, the polynucleotide sequence presented as
SEQ ID NO: 3, the polynucleotide sequence presented as SEQ ID NO: 8, or the polynucleotide sequence presented as SEQ ID NO: 15. in its most preferred embodiment, the polynucleotide has the DNA sequence presented as SEQ ID NO: 1, the DNA sequence presented as SEQ ID NO: 3, the DNA
SUBSTITUTE SHEET ( rule 26)
sequence presented as SEQ ID NO: 8, or the polynucleotide sequence presented as
SEQ ID NO: 15.
This invention also provides novel primers and DNA sequences for identifying, isolating and amplifying neublastin polynucleotides which code on expression for neublastin polypeptides or fragments thereof. Such primers include the polynucleotides set forth in SEQ ID NOS: 17-28, and 31-32. In addition, this invention provides neublastin DNA sequences generated from those primers, including those set forth in SEQ ID NOS: 13 and 14. Further, this invention provides DNA sequences from 3’ or 5' untranslated regions (“UTR”) in genomic DNA that flank neublastin exons; such sequences are useful in identifying, isolating and amplifying neublastin polynucleotides which code on expression for neublastin polypeptides or fragments thereof. 3’ UTR sequences of this invention include the sequences set forth in: nucleotides 721 - 865 of SEQ ID NO: 1, nucleotides 718 - 861 of SEQ ID NO: 3, nucleotides 718 - 861 of SEQ ID NO: 8, nucleotides 1647 - 2136 of SEQ ID NO: 15, and contiguous sequences of between 10 - 25 nucleotides derived from (i.e., falling within) the foregoing sequences (which are useful, eg., as primers). 5' UTR sequences of this invention include the sequences set forth in: nucleotides 1-10 of SEQ ID NO: 1, nucleotides 1 - 57 of SEQ ID NO: 8, nucleotides 1-974 of SEQ ID NO: 15, and contiguous sequences of between 10 - 25 nucleotides derived from (i.e., falling within) the foregoing sequences (which are useful, eg., as primers).
The polynucleotides of the invention may preferably be obtained by cloning procedures, e.g. as described in “Current Protocols in Molecular Biology” [John Wiley &
Sons, Inc.]. In a preferred embodiment, the polynucleotide is cloned from, or produced on the basis of human genomic DNA or a cDNA library of the human brain.
SUBSTITUTE SHEET ( rule 26)
Homology of DNA seguences
The DNA sequence homology referred to above may be determined as the degree of identity between two sequences indicating a derivation of the first sequence from the second. The homology may suitably be determined by means of computer programs known in the art, such as GAP provided in the GCG program package [Needleman, S.B. and Wunsch C.D., Journal of Molecular Biology 1970 48 443-453).
Using GAP with the following settings for DNA sequence comparison: GAP creation penalty of 5.0 and GAP extension penalty of 0.3, the coding region of the analogous
DNA sequences referred to above exhibits a degree of identity preferably of at least 70%, more preferably at least 80%, more preferably at least 90%, more preferably at least 95%, with the CDS (encoding) part of the DNA sequence shown in SEQ ID NO: 1, or the CDS (encoding) part of the DNA sequence shown in SEQ ID NO: 3, or the
CDS (encoding) part of the DNA sequence shown in SEQ ID NO: 8, the CDS (encoding) part of the DNA sequence shown in SEQ ID NO: 15.
The term “sequence identity” refers to the degree to which two polynucleotide sequences are identical on a nucleotide-by-nucleotide basis over a particular region of comparison. The term “percentage of sequence identity” is calculated by comparing two optimally aligned sequences over that region of comparison, determining the number of positions at which the identical nucleic acid base (e.g., A, T, C, G, U, or I) occurs in both sequences to yield the number of matched positions, dividing the number of matched positions by the total number of positions in the region of comparison (i.e., the window size), and multiplying the result by 100 to yield the percentage of sequence identity. The term “substantial identity” as used herein denotes a characteristic of a polynucleotide sequence, wherein the polynucleotide comprises a sequence that has at least 80 percent sequence identity, preferably at least 85 percent identity and often 90 to 95 percent sequence identity, more usually at least 99 percent sequence identity as compared to a reference sequence over a comparison region.
Hybridization Protocol
The polynucleotides of the invention are such which have a nucleic acid sequence capable of hybridizing with the polynucleotide sequence presented as SEQ
ID NO: 1, the polynucleotide sequence presented as SEQ ID NO: 3, or the polynucleotide sequence presented as SEQ ID NO: 8, or the polynucleotide sequence presented as SEQ ID NO: 15, or their complementary strand, or a sub-sequence hereof under at least medium, medium/high, or high stringency conditions, as described in more detail below.
SUBSTITUTE SHEET ( rule 26)
Suitable experimental conditions for determining hybridization between a nucleotide probe and a homologous DNA or RNA sequence, involves pre-soaking of the filter containing the DNA fragments or RNA to hybridize in § x SSC [Sodium chloride/Sodium citrate; cf. Sambrook et al.; Molecular Cloning: A Laboratory Manual,
Cold Spring Harbor Lab., Cold Spring Harbor, NY 1989] for 10 minutes, and pre- hybridization of the fitter in a solution of 5 x SSC, 5 x Denhardt's solution [cf.
Sambrook et al.; Op cit], 0.5 % SDS and 100 pg/mi of denatured sonicated salmon sperm DNA [cf. Sambrook et al; Op cit], followed by hybridization in the same solution containing a concentration of 10 ng/ml of a random-primed [Feinberg A P &
Vogelstein B; Anal. Biochem. 1983 132 6-13), *P-dCTP-labeled (specific activity > 1 x 10° cpm/pg) probe for 12 hours at approximately 45°C. The filter is then washed twice for 30 minutes in 0.1 x SSC, 0.5 % SDS at a temperature of at least at least 60°C (medium stringency conditions), preferably of at least 65°C (medium/high stringency conditions), more preferred of at least 70°C (high stringency conditions), and even more preferred of at least 75°C (very high stringency conditions). Molecules to which - the oligonucleotide probe hybridizes under these conditions may be detected using a - «x-ray film.
Cloned Polynucieotides
The isolated polynucleotide of the invention may in particular be a cloned - polynucleotide. As defined herein, the term “cloned polynucleotide”, refers to a i polynucleotide or DNA sequence cloned in accordance with standard cloning - procedures currently used in genetic engineering to relocate a segment of DNA, which may in particular be cDNA, i.e. enzymatically derived from RNA, from its natural location to a different site where it will be reproduced.
Cloning may be accomplished by any suitable route and may involve techniques such as reverse transcriptase technology, PCR technology, and the like, as well as excision and isolation of the desired DNA segment.
The cloned polynucleotide of the invention may alternatively be termed “DNA construct” or “isolated DNA sequence”, and may in particular be a complementary
DNA (cDNA).
Biological Sources
The isolated polynucleotide of the invention may be obtained from any suitable source.
In a preferred embodiment, which the polynucleotide of the invention is cloned from, or produced on the basis of a cDNA library, e.g. of a cDNA library of the foetal or adult brain, in particular of the forebrain, the hindbrain, the cortex, the striatum, the
SUBSTITUTE SHEET ( rule 26)
amygdala, the cerebellum, the caudate nucleus, the corpus callosum, the hippocampus, the thalamic nucleus, the subthalamic nucleus, the olfactory nucleus, the putamen, the substantia nigra, the dorsal root ganglia, the trigeminal ganglion, the superior mesenteric artery, or the thalamus; of the spinal cord; of the heart; the placenta; of the lung; of the liver; of the skeletal muscle; of the kidney; of the liver; of the pancreas; of the intestines; of the eye; of the retina; of the tooth pulp; of the hair follicle; of the prostate; of the pituitary; or of the trachea.
Commercial cDNA libraries from a variety of tissues, both human and non- human, are available from e.g. Stratagene and Clontech. The isolated polynucleotide of the invention may be obtained by standard methods, e.g. those described in the working examples.
Neublastin Polypeptides of the Invention
As noted above, a "neublastin polypeptide,” as used herein, is a polypeptide which possesses neurotrophic activity (e.g., as described in Examples 6, 7, 8, and 9) and includes those polypeptides which have an amino acid sequence that has at least 70% homology to the “neublastin” polypeptides set forth in AA.gs-AA 05 of SEQ ID NO: 2, AA-AAqps of SEQ ID NO: 2, AAg7-AAq4 of SEQ ID NO: 4, AA41-AAq4 of SEQ ID
NO: 4, AA;-AAq4 of SEQ ID NO: 4, AA go-AA140 of SEQ ID NO: 9 (“wild type” prepro),
AA 41-AAq4 of SEQ ID NO: 9 (pro), AA1-AAq4 of SEQ ID NO: 5 (mature 140AA), AA;-
AAi1g of SEQ ID NO: 6 (mature 116AA), AA;-AAq43 of SEQ ID NO: 7 (mature 113AA),
AA;-AAi4 of SEQ ID NO: 10 (mature 140AA), AA;-AA 15 of SEQ ID NO: 11 (mature 116AA), AA-AAq;3 of SEQ ID NO: 12 (mature 113AA), AA-AA,,, of SEQ ID NO: 16 (murine prepro), and variants and derivatives of each of the foregoing.
Preferably, the C-terminal sequence of the above identified neublastin polypeptides has an amino acid sequence as set forth in AA72-AA4gs of SEQ ID NO: 2 (i.e., AA107-AA140 of SEQ ID NO: 9), more preferably AA4;-AAq0s of SEQ ID NO: 2 (i.e,
AAzs-AA40 of SEQ ID NO: 9).
Also, it is preferable that the neublastin polypeptide retain the 7 conserved Cys residues that are characteristic of the GDNF family and of the TGF-beta super family.
Preferably the neublastin polypeptide has an amino acid sequence greater than 85% homology, most preferably greater than 95% homology, to the foregoing sequences (i.e., AAgs5-AAqcs of SEQ ID NO: 2, AA;-AA ps of SEQ ID NO: 2, AAgr-
AA of SEQ ID NO: 4, AA41-AA4 of SEQ ID NO: 4, AA;-AA, 4 of SEQ ID NO: 4,
AA g-AAi4 of SEQ ID NO: 9 (“wild type” prepro), AA4:1-AAqs of SEQ ID NO: 9 (pro),
AA;-AAi4 of SEQ ID NO: 5 (mature 140AA), AA1-AA +s of SEQ ID NO: 6 (mature 116AA), AA;-AAq13 of SEQ ID NO: 7 (mature 113AA), AA;-AA4s5 of SEQ ID NO: 10 (mature 140AA), AA;-AA+q¢ of SEQ ID NO: 11 (mature 116AA), AA-AA413 of SEQ ID
SUBSTITUTE SHEET ( rule 26)
NO: 12 (mature 113AA), AA-AA,,, of SEQ ID NO: 16 (murine prepro), and preferably any of the foregoing polypeptides with a C-terminal sequence of the above identified neublastin polypeptides has an amino acid sequence as set forth in AA7;-AAips Of
SEQ ID NO: 2 (i.e., AAi07-AA140 of SEQ ID NO: 9), more preferably AA41-AA10s of SEQ
ID NO: 2 (i.e. AAzg-AAi40 of SEQ ID NO: 9) or AA g91-AA24 of SEQ ID NO: 16.
In addition, this invention contemplates those polypeptides which have an amino acid sequence that has at least 70% homology to the murine “neublastin” polypeptides set forth in AA;-AAz2, of SEQ ID NO: 16.
Among the preferred polypeptides of the invention in one embodiment represent the preprosequence (as set forth in SEQ ID NOS: 2, 4, 9, and 16, respectively), the pro sequence (as set forth in AA 7s- AAs of SEQ ID NO: 2, or AA4s-AAq4 of SEQ ID NOS: 4 and 9, respectively) and the mature sequence of neublastin (as set forth in SEQ ID
NOS: 5, 6, 7, 10, 11, or 12, preferably SEQ ID NOS: 10, 11, 12).
The polypeptides of the invention include variant polypeptides. In the context of this invention, the term “variant polypeptide” means a polypeptide (or protein) having an amino acid sequence that differs from the sequence presented as SEQ ID NO: 2, SEQ : - ID NO: 4, SEQ ID NO: 5, SEQ ID NO: 6, SEQ ID NO: 7, SEQ ID NO: 9, SEQ ID NO: 10, : - SEQ ID NO: 11, SEQ ID NO: 12, or SEQ ID NO: 16, at one or more amino acid positions. Such variant polypeptides include the modified polypeptides described above, as well as conservative substitutions, splice variants, isoforms, homologues from other : species, and polymorphisms.
As defined herein, the term “conservative substitutions” denotes the replacement of an amino acid residue by another, biologically similar residue. For example, one would expect conservative amino acid substitutions to have little or no effect on the biological activity, particularly if they represent less than 10% of the total number of residues in the polypeptide or protein. Preferably, conservative amino acids substitutions represent changes in less than 5% of the polypeptide or protein, most preferably less than 2% of the polypeptide or protein (e.g., when calculated in accordance with NBN113, most preferred conservative substitutions would represent fewer than 3 amino acid substitutions in the wild type mature amino acid sequence).
In a particularly preferred embodiment, there is a single amino acid substitution in the mature sequence, wherein the both the substituted and replacement amino acid are non-cyclic.
Other examples of particularly conservative substitutions include the substitution of one hydrophobic residue such as isoleucine, valine, leucine or methionine for another, or the substitution of one polar residue for another, such as the substitution of arginine for lysine, glutamic for aspartic acid, or glutamine for asparagine, and the like.
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The term conservative substitution also include the use of a substituted amino acid residue in place of an un-substituted parent amino acid residue provided that antibodies raised to the substituted polypeptide also immunoreact with the un- substituted polypeptide.
Modifications of this primary amino acid sequence may result in proteins which have substantially equivalent activity as compared to the unmodified counterpart polypeptide, and thus may be considered functional analogous of the parent proteins.
Such modifications may be deliberate, e.g. as by site-directed mutagenesis, or they may occur spontaneous, and include splice variants, isoforms, homologues from other species, and polymorphisms. Such functional analogous are also contemplated according to the invention.
Moreover, modifications of the primary amino acid sequence may result in proteins which do not retain the biological activity of the parent protein, including dominant negative forms, etc. A dominant negative protein may interfere with the wild- type protein by binding to, or otherwise sequestering regulating agents, such as upstream or downstream components, that normally interact functionally with the polypeptide. Such dominant negative forms are also contemplated according to the invention.
A "signal peptide" is a peptide sequence that directs a newly synthesised polypeptide to which the signal peptide is attached to the endoplasmic reticulum (ER) for further post-translational processing and distribution. .
An "heterologous signal peptide," as used herein in the context of neublastin, means a signal peptide that is not the human neublastin signal peptide, typically the signal peptide of some mammalian protein other than neublastin.
Skilled artisans will recognise that the human neublastin DNA sequence (either cDNA or genomic DNA), or sequences that differ from human neublastin DNA due to either silent codon changes or to codon changes that produce conservative amino acid substitutions, can be used to genetically modify cultured human cells so that they will overexpress and secrete the enzyme.
Polypeptides of the present invention also include chimeric polypeptides or cleavable fusion polypeptides in which another polypeptide is fused at the N-terminus or the C-terminus of the polypeptide or fragment thereof. A chimeric polypeptide may be produced by fusing a nucleic acid sequence (or a portion thereof) encoding another polypeptide to a nucleic acid sequence (or a portion thereof) of the present invention.
Techniques for preducing chimeric polypeptides are standard techniques. Such techniques usually requires joining the sequences in a way so that they are in both in the same reading frame, and expression of the fused polypeptide under the control of the same promoter(s) and terminator.
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Polypeptides of the present invention also include truncated forms of the full length neubtastin molecule. In such truncated molecules, one or more amino acids have been deleted from the N-terminus or the C-terminus, preferably the N-terminus.
Amino Acid Sequence Homology
The degree to which a candidate polypeptide shares homology with a neublastin polypeptide of the invention is determined as the degree of identity between two amino acid sequences. A high level of sequence identity indicates a likelihood that the first sequence is derived from the second
Homology is determined by computer analysis, such as, without limitations, the
ClustalX computer alignment program [Thompson JD, Gibson TJ, Plewniak F,
Jeanmougin F, & Higgins DG: The ClustalX windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools; Nucleic Acids Res. 1997, 25 (24): 4876-82], and the default parameters suggested herein. Using this program, the mature part of a polypeptide encoded by an analogous DNA sequence of the invention exhibits a degree of identity of at least 90%, more preferred of at least 95%, most preferred of at least 98% with the amino acid sequence presented herein as
SEQ ID NO: 2, SEQ ID NO: 4: SEQ ID NO.: 5; SEQ ID NO: 6; SEQ ID NO: 7; SEQ ID
NO: 9; SEQ ID NO: 10; SEQ ID NO: 11; SEQ ID NO: 12, or SEQ ID NO: 16.
Based on the homology determination it is confirmed that the polypeptide of the : invention, belonging to the TGF-B superfamily, is related to the GDNF subfamily, but represents a distinct member of this subfamily.
Bioactive Polypeptides
The polypeptide of the invention may be provided on any bioactive form, including the form of pre-pro-proteins, pro-proteins, mature proteins, glycosylated proteins, phosphorylated proteins, or any other posttranslational modified protein.
The polypeptide of the invention may in particular be a N-glycosylated polypeptide, which polypeptide preferably is glycosylated at the N-residues indicated in the sequence listings. in a preferred embodiment, the polypeptide of the invention has the amino acid sequence presented as SEQ ID NO: 9, holding a glycosylated asparagine residue at position 122; the amino acid sequence presented as SEQ ID NO: 10, holding a glycosylated asparagine residue at position 122; the amino acid sequence presented as SEQ ID NO: 11, holding a glycosylated asparagine residue at position 98; or the amino acid sequence presented as SEQ ID NO: 12, holding a glycosylated asparagine residue at position 95.
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This invention also contemplates neublastin fusion proteins, such as Ig-fusions, as described, e.g.. in United States patent 5,434,131, herein incorporated by reference.
In one embodiment, the invention provides a polypeptide having the amino acid sequence shown as SEQ ID NO: 2, or an amino acid sequence which is at least about 85%, preferably at least about 90%, more preferably at least about 98%, and most preferably at least about 99% homologous to the sequence presented as SEQ ID NO: 2.
In another embodiment, the invention provides a polypeptide having the amino acid sequence of SEQ ID NO: 4, or an amino acid sequence which is at least 90%, more preferred at least 95%, yet more preferred at least 98%, most preferred at least 99% homologous to the sequence presented as SEQ ID NO: 4.
In a third embodiment, the invention provides a polypeptide having the amino acid sequence of SEQ ID NO: 5, or an amino acid sequence which is at least 90%, more preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 5.
In a fourth embodiment, the invention provides a polypeptides having the amino acid sequence of SEQ ID NO: 6, or an amino acid sequence which is at least 90%, more preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 6.
In a fifth embodiment, the invention provides a polypeptides having the amino acid sequence of SEQ ID NO: 7, or an amino acid sequence which is at least 90%, more preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 7.
The neublastin polypeptide of the invention includes allelic variants, e.g., the polypeptide amino acid sequences of SEQ ID NOS: 5-7, in which Xaa designates Asn or Thr, and Yaa designates Ala or Pro.
In a sixth embodiment, the invention provides a polypeptides having the amino acid sequence of SEQ ID NO: 9, or an amino acid sequence which is at least 80%, more preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 9. in a seventh embodiment, the invention provides a polypeptide having the amino acid sequence of SEQ ID NO: 10, or an amino acid sequence at least 90%, more preferred at least 95%, most preferred at least 98%, homologous to the sequence presented as SEQ ID NO: 10.
In a eight embodiment, the invention provides a polypeptide having the amino acid sequence of SEQ ID NO: 11, or an amino acid sequence at least 90%, more
SUBSTITUTE SHEET ( rule 26)
preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 11.
In a ninth embodiment, the invention provides a polypeptide having the amino acid sequence of SEQ ID NO: 12, or an amino acid sequence at least 90%, more preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 12.
In a tenth embodiment, the invention provides a polypeptide having the amino acid sequence of SEQ ID NO: 16, or an amino acid sequence at least 90%, more preferred at least 95%, most preferred at least 98% homologous to the sequence presented as SEQ ID NO: 16, which is a pre-pro-neublastin of murine origin.
In another embodiment, the polypeptide of the invention holds the GDNF subfamily fingerprint, i.e. the amino acid residues underlined in Table 3.
In a further embodiment, the invention provides a polypeptide encoded by a polynucleotide sequence capable of hybridizing under high stringency conditions with the polynucleotide sequence presented as SEQ ID NO: 1, its complementary strand, or a sub-sequence thereof. In a preferred embodiment, the polypeptide of the * invention is encoded by a polynucleotide sequence being at least 70% homologous to the polynucleotide sequence presented as SEQ ID NO: 1. In its most preferred embodiment, the polypeptide of the invention is encoded by the polynucleotide sequence presented as SEQ ID NO: 1. : In a yet further embodiment, the invention provides novel polypeptides encoded : by a polynucleotide sequence capable of hybridizing under high stringency conditions . with the polynucleotide sequence presented as SEQ ID NO: 3, its complementary strand, or a sub-sequence thereof. In a preferred embodiment, the polypeptide of the invention is encoded by a polynucleotide sequence being at least 70% homologous to the polynucleotide sequence presented as SEQ ID NO: 3. In its most preferred embodiment, the polypeptide of the invention is encoded by the polynucleotide sequence presented as SEQ ID NO: 3.
In a still further embodiment, the invention provides novel polypeptides encoded by a polynucleotide sequence capable of hybridizing under high stringency conditions with the polynucleotide sequence presented as SEQ ID NO: 8, its complementary strand, or a sub-sequence thereof. In a preferred embodiment, the polypeptide of the invention is encoded by a polynucleotide sequence being at least 70% homologous to the polynucleotide sequence presented as SEQ ID NO: 8. In its most preferred embodiment, the polypeptide of the invention is encoded by the polynucleotide sequence presented as SEQ ID NO: 8.
In a still further embodiment, the invention provides novel polypeptides encoded by a polynucleotide sequence capable of hybridizing under high stringency conditions
SUBSTITUTE SHEET ( ruie 26)
with the polynucleotide sequence presented as SEQ ID NO: 15, its complementary strand, or a sub-sequence thereof. in a preferred embodiment, the polypeptide of the invention is encoded by a polynucleotide sequence being at least 70% homologous to the polynucleotide sequence presented as SEQ ID NO: 15. In its most preferred embodiment, the polypeptide of the invention is encoded by the polynucleotide sequence presented as SEQ ID NO: 15.
Biological Origin
The polypeptide of the invention may be isolated from mammalian cells, preferably from a human cell or from a cell of murine origin.
In a most preferred embodiment, the polypeptide of the invention may be isolated from human heart tissue, from human skeletal muscle, from human pancreas, or from human brain tissue, in particular from caudate nucleus or from thalamus, or it may be obtained from DNA of mammaiian origin, as discussed in more detail below.
Neurotrophic Activity
Neublastin polypeptides of the invention are useful for moderating metabolism, growth, differentiation, or survival of a nerve or neuronal cell. In particular, neublastin polypeptides are used to treating or to alleviate a disorder or disease of a living animal, e.g., a human, which disorder or disease is responsive to the activity of a neurotrophic agents. Such treatments and methods are described in more details below.
Antibodies
Neublastin polypeptides or polypeptide fragments of the invention are used to produce neublastin-specific antibodies. As used herein, a "neublastin-specific antibody is an antibody, e.g., a polyclonal antibody or a monoclonal antibody, that is immunoreactive to a neublastin polypeptide or polypeptide fragment, or that binds with specificity to an epitopes of a neublastin polypeptides.
The preparation of polyclonal and monoclonal antibodies is well known in the art. Polyclonal antibodies may in particular be obtained as described by, e.g., Green et al.,: “Production of Polyclonal Antisera” in Immunochemical Protocols (Manson, Ed.);
Humana Press, 1992, pages 1-5; by Coligan et al.,: “Production of Polyclonal Antisera in Rabbits, Rats, Mice and Hamsters” in Current Protocols in Immunology, 1992,
Section 2.4.1, and by Ed Harlow and David Lane (Eds.) in “Antibodies; A laboratory manual” Cold Spring Harbor Lab. Press 1988 These protocols are hereby incorporated by reference. Monoclonal antibodies may in particular be obtained as described by, e.g., Kohler & Milstein, Nature, 1975, 256:495; Coligan et al., in Current
Protocols in Immunology, 1992, Sections 2.5.1 - 2.6.7; and Harlow et al, in
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Antibodies: A Laboratory Manual; Cold Spring Harbor, Pub., 1988, page 726; which protocols are hereby incorporated by reference.
Briefly, monoclonal antibodies may be obtained by injecting, e.g., mice with a composition comprising an antigen, verifying the presence of antibody production by removing a serum sample, removing the spleen to obtain B lymphocytes, fusing the B lymphocytes with myeloma cells to produce hybridomas, cloning the hybridomas, selecting positive clones that produce the antibodies to the antigen, and isolating the antibodies from the hybridoma cultures.
Monoclonal antibodies can be isolated and purified from hybridoma cultures by a variety of well-established techniques, including affinity chromatography with protein
A Sepharose, size-exclusion chromatography, and ion-exchange chromatography, see. e.g. Coligan et al. in Current Protocols in Immunology, 1992, Sections 2.7.1 - 2.7.12, and Sections 2.9.1 - 2.9.3; and Bames et al.: “Purification of Immunoglobulin G (IgG)” in Methods in Molecular Biology; Humana Press, 1992, Vol. 10, Pages 79-104.
Polyclonal or monoclonal antibodies may optionally be further purified, e.g. by binding to and elution from a matrix to which the polypeptide, to which the antibodies were "raised, is bound.
Antibodies which bind to the neublastin polypeptide of the invention can be prepared using an intact polypeptide or fragments containing small peptides of interest as the immunising antigen. The polypeptide used to immunise an animal may be : obtained by recombinant DNA techniques or by chemical synthesis, and may optionally be conjugated to a carrier protein. Commonly used carrier proteins which are chemically coupled to the peptide include keyhole limpet hemocyanin (KLH), thyroglobulin, bovine serum albumin (BSA), and tetanus toxoid. The coupled peptide may then be used to immunise the animal, which may in particular be a mouse, a rat, a hamster or a rabbit.
In one embodiment, antibodies are produced using the following peptides:
Peptide 1: CRPTRYEAVSFMDVNST (amino acids 108-124 of SEQ ID NO: 9); or
Peptide 2: ALRPPPGSRPVSQPC (amino acids 93-107 of SEQ ID NO: 9). Methods for producing antibodies using these polypeptides are described in Example 10.
We also generated rabbit polyclonal antibodies to the following peptides:
Peptide R27. GPGSRARAAGARGC (amino acids 30-43 of SEQ ID NO: 9);
Peptide R28: LGHRSDELVRFRFC (amino acids 57-70 of SEQ ID NO: 9);
Peptide R29: CRRARSPHDLSL (amino acids 74-85 of SEQ ID NO: 9);
Peptide R30: LRPPPGSRPVSQPC (amino acids 94-107 of SEQ ID NO: 9); and
Peptide R31: STWRTVDRLSATAC (amino acids 123-136 of SEQ ID NO: 9).
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Of this group, only peptides R30 and R31, relatively close to the C-terminus, recognised the denatured protein under reducing conditions on a Western blot.
We have also identified additional neublastin-derived peptides derived from the mature protein, as detailed below, which are predicted surface exposed loops based on the known GDNF structure (Eigenbrot and Gerber, Nat. Struct. Biol., 1997 4 435- 438), and are thus useful for antibody generation:
Region 1: CRLRSQLVPVRALGLGHRSDELVRFRFC (AA43-70 of SEQ ID NO: 9);
Region 2: CRRARSPHDLSLASLLGAGALRPPPGSRPVSQPC (AA74-107 of
SEQ ID NO: 9),
Region 3: CRPTRYEAVSFMDVNSTWRTVDRLSATAC (AA108-136 of SEQ ID
NO: 9).
In another aspect of the invention, antibodies which specifically bind neublastin or neublastin-derived peptides may be used for detecting the presence of such neublastin neurotrophic factors in various media, and in particular for the diagnosis of conditions or diseases associated with the neublastin molecules of the invention. A variety of protocols for such detection, including ELISA, RIA and FACS, are known in the art.
The antibodies of this invention may also be used for blocking the effect of the neurotrophic factor, and may in particular be neutralising antibodies.
Methods of Producing the Polypeptides of the Invention
A cell comprising a DNA sequence encoding a neublastin polypeptide of the invention is cultured under conditions permitting the production of the polypeptide, followed by recovery of the polypeptide from the culture medium, as detailed below.
When cells are to be genetically modified for the purposes of producing a neublastin polypeptide, the cells may be modified by conventional methods or by gene activation.
According to conventional methods, a DNA molecule that contains a neublastin cDNA or genomic DNA sequence may be contained within an expression construct and transfected into cells by standard methods including, but not limited to, liposome-, polybrene-, or DEAE dextran-mediated transfection, electroporation, calcium phosphate precipitation, microinjection, or velocity driven microprojectiles ("biolistics").
Alternatively, one could use a system that delivers DNA by viral vector. Viruses known to be useful for gene transfer include adenoviruses, adeno-associated virus, lentivirus, herpes virus, mumps virus, poliovirus, retroviruses, Sindbis virus, and vaccinia virus such as canary pox virus, as well as Baculovirus infection of insect cells, in particular
SfP9 insect cells.
SUBSTITUTE SHEET ( ruie 26)
Alternatively, the cells may be modified using a gene activation ("GA") approach, such as described in United States patents 5,733,761 and 5,750,376, each incorporated herein by reference.
Accordingly, the term "genetically modified,” as used herein in reference to cells, is meant to encompass cells that express a particular gene product following introduction of a DNA molecule encoding the gene product and/or regulatory elements that control expression of a coding sequence for the gene product. The DNA molecule may be introduced by gene targeting, allowing incorporation of the DNA molecule at a particular genomic site.
Recombinant Expression Vectors
In a further aspect the invention provides a recombinant expression vector comprising the polynucleotide of the invention. The recombinant expression vector of the invention may be any suitable eukaryotic expression vector. Preferred recombinant expression vectors are the ubiquitin promoter containing vector pTEJ-8 (Johansen TE,
Schoeller MS, Tolstoy S, Schwartz T; EEBS Lett. 1990 267 289-294), and derivatives hereof, e.g. pUbi1Z. A preferred commercially available eukaryotic expression vectors is e.g. the virus promoter containing vector pcDNA-3 (available from Invitrogen).
Another preferred expression vector uses SV40 early and adenovirus major late promoters (derived from plasmid pAD2beta; Norton and Coffin, Mol. Cell. Biol. 1985 § 281).
This invention also provides prokaryotic expression vectors and synthetic genes - (syngenes) with codon optimisation for prokaryotic expression. Syngenes were constructed with lower GC content and preferred bacterial (e.g., E. coli) codons. The syngene is being cloned into two vectors, pET19b and pMJB164, a derivative of pET19b. The construction with pET19b is shown in Fig. 14. In this construct, the sequence encoding the mature domain of neublastin is directly fused to an initiating methionine. The construction with pMJB164 is shown in Fig. 15.
Production Cells
In a yet further aspect the invention provides a production cell genetically manipulated to comprise the isolated polynucleotide sequence of the invention, and/or or a recombinant expression vector of the invention. The cell of the invention may in particular be genetically manipulated to transiently or stably express, over-express or co-express polypeptide of the invention. Methods for generating transient and stable expression are known in the art.
The polynucleotide of the invention may be inserted into an expression vector, e.g. a plasmid, virus or other expression vehicle, and operatively linked to expression
SUBSTITUTE SHEET ( rule 26)
control sequences by ligation in a way that expression of the coding sequence is achieved under conditions compatible with the expression control sequences. Suitable expression control sequences include promoters, enhancers, transcription terminators, start codons, splicing signals for introns, and stop codons, all maintained in the correct reading frame of the polynucleotide of the invention so as to permit proper translation of mRNA. Expression control sequences may also include additional components such as leader sequences and fusion partner sequences.
The promoter may in particular be a constitutive or an inducible promoter.
When cloning in bacterial systems, inducible promoters such as pL of bacteriophage
A, plac, ptrp, ptac (ptrp-lac hybrid promoter), may be used. When cloning in mammalian systems, promoters derived from the genome of mammalian cells, e.g. the ubiquitin promoter, the TK promoter, or the metallothionein promoter, or from mammalian viruses, e.g. the retrovirus long terminal repeat. the adenovirus late promoter or the vaccinia virus 7.5K promoter, may be used. Promoters obtained by recombinant DNA or synthetic techniques may aiso be used to provide for transcription of the polynucleotide of the invention.
Suitable expression vectors typically comprise an origin of expression, a promoter as well as specific genes which allow for phenotypic selection of the transformed cells, and include vectors like the T7-based expression vector for expression in bacteria [Rosenberg et al, Gene 1987 56 125], the pTEJ-8, pUbi1Z, pcDNA-3 and pMSXND expression vectors for expression in mammalian cells [Lee and Nathans, J. Biol. Chem. 1988 263 3521), baculovirus derived vectors for expression in insect cells, and the oocyte expression vector PTLN [Lorenz C, Pusch M & Jentsch T J. Heteromultimeric CLC chloride channels with novel properties; Proc.
Natl. Acad. Sci. USA 1996 93 13362-13366].
In a preferred embodiment, the cell of the invention is an eukaryotic cell, e.g., a mammalian cell, e.g., a human cell, an oocyte, or a yeast cell. The cell of the invention may be without limitation a human embryonic kidney (HEK) cell, e.g., a HEK 293 cell, a BHK21 cell, a Chinese hamster ovary (CHO) cell, a Xenopus laevis oocyte (XLO) cell. In another embodiment, the cell of the invention is a fungal cell, e.g., a filamentous fungal cell. In another preferred embodiment, the cell is an insect cell, most preferably the Sf9 cell. Additional preferred mammalian cells of the invention are
PC12, HiBS, RN33b cell lines and human neural progenitor cells. Most preferred are human cells.
Examples of primary or secondary cells include fibroblasts, epithelial cells including mammary and intestinal epithelial cells, endothelial cells, formed elements of the blood including lymphocytes and bone marrow cells, glial cells, hepatocytes, keratinocytes, muscle cells, neurai cells, or the precursors of these cell types.
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Examples of immortalised human cell lines useful in the present methods include, but are not limited to, Bowes Melanoma cells (ATCC Accession No. CRL 9607), Daudi cells (ATCC Accession No. CCL 213), Hela cells and derivatives of Hela cells (ATCC Accession Nos. CCL 2, CCL 2.1, and CCL 2.2), HL-60 cells (ATCC Accession
No. CCL 240), HT-1080 cells (ATCC Accession No. CCL 121), Jurkat cells (ATCC
Accession No. TIB 152), KB carcinoma cells (ATCC Accession No. CCL 17), K-562 leukaemia cells (ATCC Accession No. CCL 243), MCF-7 breast cancer cells (ATCC Accession No. BTH 22), MOLT-4 cells (ATCC Accession No. 1582), Namalwa cells (ATCC Accession No. CRL 1432), Raji cells (ATCC Accession No. CCL 86),
RPMI 8226 cells (ATCC Accession No. CCL 155), U-937 cells (ATCC Accession No.
CRL 1593), WI-38VA13 sub line 2R4 cells (ATCC Accession No. CLL 75.1), and 2780AD ovarian carcinoma cells (Van der Blick etal. Cancer Res. 1988 48 5927-5932), as well as heterohybridoma cells produced by fusion of human cells and cells of another species. Secondary human fibroblast strains, such as WI-38 (ATCC
Accession No. CCL 75) and MRC-5 (ATCC Accession No. CCL 171), may also be used.
When the cell of the invention is an eukaryotic cell, incorporation of the - ° heterologous polynucleotide of the invention may be in particular be carried out by infection (employing a virus vector), by transfection (employing a plasmid vector), using calcium phosphate precipitation, microinjection, electroporation, lipofection, or - other physical-chemical methods known in the art.
In a more preferred embodiment the isolated polynucleotide sequence of the invention, and/or or a recombinant expression vector of the invention are transfected in a mammalian host cell, a neural progenitor cell, an astrocyte cell, a T-cell, a hematopoitic stem cell, a non-dividing cell, or a cerebral endothelial cell, comprising at least one DNA molecule capable of mediating cellular immortalization and/or transformation.
Activation of an endogenous gene in a host cell may be accomplished by the introducing regulatory elements, in particular by the introducing a promoter capable of effecting transcription of an endogenous gene encoding the neublastin polypeptide of the invention.
Pharmaceutical Compositions
In another aspect the invention provides novel pharmaceutical compositions comprising a therapeutically effective amount of the polypeptide of the invention.
For use in therapy the polypeptide of the invention may be administered in any convenient form. In a preferred embodiment, the polypeptide of the invention is incorporated into a pharmaceutical composition together with one or more adjuvants,
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excipients, carriers and/or diluents, and the pharmaceutical composition prepared by the skilled person using conventional methods known in the art.
Such pharmaceutical compositions may comprise the polypeptide of the invention, or antibodies hereof. The composition may be administered alone or in combination with at one or more other agents, drugs or hormones.
The pharmaceutical composition of this invention may be administered by any suitable route, including, but not limited to oral, intravenous, intramuscular, inter- arterial, intramedullary, intrathecal, intraventricular, transdermal, subcultaneous, intraperitoneal, intranasal, anteral, topical, sublingual or rectal application, buccal, vaginal, intraorbital, intracerebral, intracranial, intraspinal, intraventricular, intracisternal, intracapsular, intrapulmonary, transmucosal, or via inhalation.
Intrapulmonary delivery methods, apparatus and drug preparation are described, for example, in U.S. Patents 5, 785, 049, 5,780,019, and 5,775,320, each incorporated herein by reference. Administration may be by periodic injections of a bolus of the preparation, or may be made more continuous by intravenous or intraperitoneal administration from a reservoir which is external (e.g., an IV bag) or internal (e.g., a bioerodable implant, a bioartificial organ, or a colony of implanted neublastin production cells). See, e.g., U.S. Patents 4,407,957, 5,798,113, and 5,800,828, each incorporated herein by reference. Intrapuimonary delivery methods and apparatus are described, for example, in U.S. Patents 5,654,007, 5,780,014, and 5,814,607, each incorporated herein by reference.
In particular, administration of a neublastin according to this invention may be achieved using any suitable delivery means, including: (a) pump (see, e.g., Annals of Pharmacotherapy, 27:912 (1993); Cancer, 41:1270 (1993), Cancer Research, 44:1698 (1984), incorporated herein by reference), (b) microencapsulation (see, e.g., United States patents 4,352,883; 4,353,888; and 5,084,350, herein incorporated by reference), (c) continuous release polymer implants (see, e.g., Sabel, United States patent 4,883,666, incorporated herein by reference), (d) macroencapsulation (see, e.g., United States patents 5,284,761, 5,158,881, 4,976,859 and 4,968,733 and published PCT patent applications WO 92/19195, WO 95/05452, each incorporated herein by reference), (e) naked or unencapsulated cell grafts to the CNS (see, e.g., United States patents 5,082,670 and 5,618,531, each incorporated herein by reference); (f) injection, either subcutaneously, intravenously, intra-arterially, intramuscularly, or to other suitable site; and
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(g) oral administration, in capsule, liquid, tablet, pill, or prolonged release formulation.
In one embodiment of this invention, a neublastin is delivered directly into the
CNS, preferably to the brain ventricles, brain parenchyma, the intrathecal space or other suitable CNS location, most preferably intrathecally.
In another preferred embodiment, we contemplate systemic delivery by subcutaneous injection, intravenous administration, or intravenous infusion.
Other useful parenteral delivery systems include ethylene-vinyl acetate copolymer particles, osmotic pumps, implantable infusion systems, pump delivery, encapsulated cell delivery, liposomal delivery, needle-delivered injection, needle-less injection, nebulizer, aeorosolizer, electroporation, and transdermal patch.
Further details on techniques for formulation and administration may be found in the latest edition of Remington's Pharmaceutical Sciences (Maack Publishing Co.,
Easton, PA).
The active ingredient may be administered in one or several doses per day.
Currently contemplated appropriate dosages are between 0.5 ng neublastin/kg body weight to about 50 pg/kg per administration, and from about 1.0 ng/kg to about 100 po/kg daily. The neublastin pharmaceutical composition should provide a local concentration of neurotrophic factor of from about 5 ng/ml cerebrospinal fluid (“CSF”) to 25 ng/ml CSF.
The dose administered must of course be carefully adjusted to the age, weight and condition of the individual being treated, as well as the route of administration, dosage form and regimen, and the result desired, and the exact dosage should of course be determined by the practitioner.
In further embodiments, the Neublastin polypeptide of the invention may be administered by genetic delivery, using cell lines and vectors as described below under methods of treatment. To generate such therapeutic cell lines, the polynucleotide of the invention may be inserted into an expression vector, e.g. a plasmid, virus or other expression vehicle, and operatively linked to expression control sequences by ligation in a way that expression of the coding sequence is achieved under conditions compatible with the expression control sequences. Suitable expression control sequences include promoters, enhancers, transcription terminators, start codons, splicing signals for introns, and stop codons, all maintained in the correct reading frame of the polynucleotide of the invention so as to permit proper translation of mRNA. Expression control sequences may also include additional components such as leader sequences and fusion partner sequences.
The promoter may in particular be a constitutive or an inducible promoter.
Constitutive promoters could be synthetic, viral or derived from the genome of
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mammalian cells, e.g. the human ubiquitin promoter. In a preferred embodiment the therapeutic cell line will be a human immortalised neural cell line expressing the polypeptide of the invention. For implantation, we contemplate implanting between about 10° to 10'° cells, more preferably 10° to about 10° cells.
Methods of Treatment
The present invention, which relates to polynucleotides and proteins, polypeptides, peptide fragments or derivatives produced therefrom, as well as to antibodies directed against such proteins, peptides or derivatives, may be used for treating or alleviating a disorder or disease of a living animal body, including a human, which disorder or disease is responsive to the activity of neurotrophic agents.
The polypeptides of the present invention may be used directly via, e.g., injected, implanted or ingested pharmaceutical compositions to treat a pathological process responsive to the neublastin polypeptides.
The polynucleotide of the invention, including the complementary sequences thereof, may be used for the expression of the neurotrophic factor of the invention.
This may be achieved by cell lines expressing such proteins, peptides or derivatives of the invention, or by virus vectors encoding such proteins, peptides or derivatives of the invention, or by host cells expressing such proteins, peptides or derivatives. These cells, vectors and compositions may be administered to treatment target areas to affect a disease process responsive to the neublastin polypeptides.
Suitable expression vectors may be derived from lentiviruses, retroviruses, adenoviruses, herpes or vaccinia viruses, or from various bacterially produced plasmids may be used for in vivo delivery of nucleotide sequences to a whole organism or a target organ, tissue or cell population. Other methods include, but are not limited to, liposome transfection, electroporation, transfection with carrier peptides containing nuclear or other localising signals, and gene delivery via slow-release systems. In still another aspect of the invention, “antisense” nucleotide sequences complementary to the neublastin gene or portions thereof, may be used to inhibit or enhance neublastin expression.
In yet another aspect the invention relates to a method of treating or alleviating a disorder or disease of a living animal body, including a human, which disorder or disease is responsive to the activity of neurotrophic agents.
The disorder or disease may in particular be damages of the nervous system caused by trauma, surgery, ischaemia, infection, metabolic diseases, nutritional deficiency, malignancy or toxic agents, and genetic or idiopathic processes.
The damage may in particular have occurred to sensory neurons or retinal ganglion cells, including neurons in the dorsal root ganglion or in any of the following
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tissues: The geniculate, petrosal and nodose ganglia; the vestibuloacoustic complex of the VIlith cranial nerve; the ventrolateral pole of the maxillomandribular lobe of the trigeminal ganglion; and the mesencephalic trigeminal nucleus.
In a preferred embodiment of the method of the invention, the disease or disorder is a neurodegenerative disease involving lesioned and traumatic neurons, such as traumatic lesions of peripheral nerves, the medulla, and/or the spinal cord, cerebral ischaemic neuronal damage, neuropathy and especially peripheral neuropathy, peripheral nerve trauma or injury, ischaemic stroke, acute brain injury, acute spinal cord injury, nervous system tumours, multiple sclerosis, exposure to neurotoxins, metabolic diseases such as diabetes or renal dysfunctions and damage caused by infectious agents, neurodegenerative disorders including Alzheimer's disease, Huntington's disease, Parkinson's disease, Parkinson-Plus syndromes, progressive Supranuclear Palsy (Steele-Richardson-Olszewski Syndrome),
Olivopontocerebellar Atrophy (OPCA), Shy-Drager Syndrome (multiple systems atrophy), Guamanian parkinsonism dementia complex, amyotrophic lateral sclerosis, or any other congenital or neurodegenerative disease, and memory impairment connected to dementia. : In a preferred embodiment, we contemplate treatment of sensory and/or autonomic system neurons. In another preferred embodiment, we contemplate treatment of motor neuron diseases such as amyotrophic lateral sclerosis (“ALS”) and ) spinal muscular atrophy. In yet another preferred embodiment, we contemplate use of the neublastin molecules of this invention to enhance nerve recovery following traumatic injury. In one embodiment we contemplate use of a nerve guidance channel with a matrix containing neublastin polypeptides. Such nerve guidance channels are disclosed, e.g., United States patent No. 5,834,029, incorporated herein by reference. in a preferred embodiment, the polypeptides and nucleic acids of this invention (and pharmaceutical compositions containing same) are used in the treatment of peripheral neuropathies. Among the peripheral neuropathies contemplated for treatment with the molecules of this invention are trauma-induced neuropathies, e.g., those caused by physical injury or disease state, physical damage to the brain, physical damage to the spinal cord, stroke associated with brain damage, and neurological disorders related to neurodegeneration.
We also contemplate treatment of chemotherapy-induced neuropathies (such as those caused by delivery of chemotherapeutic agents, e.g., taxol or cisplatin); toxin- induced neuropathies, drug-induced neuropathies, vitamin-deficiency-induced neuropathies; idiopathic neuropathies; and diabetic neuropathies. See, e.g., United
States patents 5,496,804 and 5,916,555, each herein incorporated by reference.
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We also contemplate treatment of non-neuropathies, mono-multiplex neuropathies, and poly-neuropathies, including axonal and demyelinating neuropathies, using the neublastin nucleotides and polypeptides of this invention.
In another preferred embodiment, the polypeptides and nucleic acids of this invention (and pharmaceutical compositions containing same) are used in the treatment of various disorders in the eye, including photoreceptor loss in the retina in patients afflicted with macular degeneration, retinitis pigmentosa, glaucoma, and similar diseases.
Another object of the present invention is to provide a method for the prevention of the degenerative changes connected with the above diseases and disorders, by implanting into mammalian brain including human vectors or cells capable of producing a biologically active form of neublastin or a precursor of neublastin, i.e. a molecule that can readily be converted to a biologically active form of neublastin by the body, or additionally cells that secrete neublastin may be encapsulated, e.g. into semipermeable membranes.
Cells can be grown in vitro for use in transplantation or engraftment into mammalian brain including human. in a preferred embodiment, the gene encoding the polypeptide of the invention is transfected into a suitable cell line, e.g. into an immortalised rat neural stem cell line like HiB5 and RN33b, or into a human immortalised neural progenitor cell line, and the resulting cell line is implanted in the brain of a living body, including a human, to . secrete the therapeutic polypeptide of the invention in the CNS, e.g. using the expression vectors described in International Patent Application WO 98/328689.
Methods of Diagnosis and Screening
A neublastin nucleic acid can be used to determine whether an individual is predisposed to developing a neurological disorder resulting from a defect in the neublastin gene, e.g., an defect in a neublastin allele, which has been acquired by, e.g., genetic inheritence, by abnormal embryonic development, or by acquired DNA damage. The analysis can be by, e.g., detecting a deletion(s) or a point-mutation(s) within the neublastin gene, or by detecting the inheritance of such predisposition of such genetic defects with specific restriction fragment length polymorphisms (RFLPs), by detecting the presence or absence of a normal neublastin gene by hybridizing a nucleic acid sample from the patient with a nucleic acid probe(s) specific for the neublastin gene, and determining the ability of the probe to hybridize to the nucleic acid. in particular, a neublastin nucleic acid can be used as a hybridization probe.
Such hybridization assays may be used to detect, prognose, diagnose, or monitor the
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various conditions, disorders, or disease states associated with aberrant levels of the mRNAs encoding the Neublastin protein. A neublastin nucleic acid can be construed as a “marker” for neublastin neurotrophic factor-dependant physiological processes.
These processes include, but are not limited to, “normal” physiological processes (e.g, neuronal function) and pathological processes (e.g, neurodegenerative disease). The characterisation of a particular patient sub-population(s) with aberrant (i.e., elevated or deficient) levels of the neublastin protein and or neublastin-encoding mRNA may lead to new disease classifications. By “aberrant levels," as defined herein, is meant an increased or decreased level relative to that in a control sample or individual not having the disorder determined by quantitative or qualitative means.
The neublastin nucleic acids and polypeptides of this invention may also be used to screen for and identify neublastin analogues, including small molecule mimetics of neublastin. in one contemplated embodiment, the invention provides a method for identifying a candidate compound that induces a neuroblastin-mediated biological effect, the method comprising the steps of providing a test cell which when contacted with neublastin is induced to express a detectable product, exposing the cell to the candidate compound, and detecting the detectable product. The expression of the detectable product is indicative of the ability of the candidate compound to induce the neuroblastin-mediated biological effect.
Further, the neublastin nucleic acids and polypeptides of this invention may be } used on DNA chip or protein chips, or in computer programs to identify related novel gene sequences and proteins encoded by them, including allelic variants and single nucleotide polymorphisms (“SNPs”). Such methods are described, e.g., in United
States patent Nos. 5,795,716; 5,754,524; 5,733,729; 5,800,992; 5,445,934, 5,525,464, each herein incorporated by reference.
Example 1: Methods for isolating Neublastin Nucleic Acids
Method 1: Rapid-Screening of Human Foetal Brain cDNA for the neublastin Gene
A 290 bp fragment was identified in two high throughput genomic sequences (HGTS) submitted to GenBank (Accession No. AC005038 and ACO005051) by its homology to human persephin. From the nucleic acid sequence of the 290 bp fragment, two neublastin specific primers were synthesised. The neublastin top strand primer (“NBNint.sence”) had the sequence 5-CCT GGC CAG CCT ACT GGG-3' [SEQ
ID NO: 17]. The neublastin bottom strand primer (“NBNint.antisence”) had the
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sequence 5'-AAG GAG ACC GCT TCG TAG CG-3' [SEQ ID NO: 18]. With these primers, 96-well PCR reactions were performed.
A 96-well master plate, containing plasmid DNA from 500,000 cDNA clones, was loaded with approximately 5000 clones per well. A 96-well sub-plate was utilised with £. coli DH10B glycerol stock containing 50 clones per well.
A neublastin nucleic acid was identified by three rounds of amplification using polymerase chain reaction ("PCR") techniques; amplification increases the number of copies of the nucleic acid in the sample.
Master Plate Screening: Using the 96-well PCR screening technigue described above, a human foetal brain cDNA master plate was screened with the gene-specific primers to isolate the human neublastin cDNA.
Thirty nanograms (30 ng) of human foetal brain cDNA (6 ng/ul; Origene
Technologies) was obtained from the corresponding well of the master plate and placed in a total volume of 25 ul which contained the following reagents: 0.2 mM of each of the two aforementioned gene-specific primers (ie., NBNint.sence and
NBNint.antisence), 1x standard PCR buffer (Buffer V, Advanced Biotechnologies, UK), 0.2 mM dNTPs (Amersham-Pharmacia), 0.1 M GC-Melt (Clontech Laboratories, USA); and 0.5 units of Tag DNA poiymerase (5 U/ni; Advanced Biotechnologies, UK).
PCR thermocycling reactions were performed using the following procedure and conditions. DNA was initially denatured at 94°C for 3 minutes, and then followed by 35 cycles of denaturation at 94°C for 1 minute each, annealing at 55°C for 1 } minute, a first extension at 72°C for 90 seconds; and a final extension at 72°C for 5 minutes. The products of 96 individual PCR reactions were analysed by gel electrophoresis using a 2% agarose gel containing ethidium bromide stain. The 102 } bp, positive PCR product seen from a well was found to correspond to a unique 96- well sub-plate.
The 102 bp nucleic acid fragment had the following sequence [SEQ ID NO. 13]: 5'-CCTGGCCAGCCTACTGGGCGCCGGGGCCCTGCGACCGCCCCCG
GGCTCCCGGCCCGTCAGCCAGCCCTGCTGCCGACCCACGCGCTAC
GAAGCGGTCTCCTT-3'
Sub-Plate Screening: The 96-well human foetal brain sub-plate was screened by PCR-mediated amplification by placing 1 pl of the glycerol stock from the corresponding sub-plate well in a total volume of 25 pl which contained: 0.2 mM of each of the two gene-specific primers; 1x standard PCR buffer (Buffer V; Advanced
Biotechnologies, UK); 0.2 mM dNTPs (Amersham-Pharmacia); 0.1 M GC-Melt
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(Clontech Laboratories, USA); and 0.5 units of Taq DNA polymerase (5 U/ul;
Advanced Biotechnologies, UK).
The same PCR thermocycling conditions as described for the masterplate screening were utilised. The 96 individual PCR reactions were analysed on a 2% agarose gel containing ethidium bromide and a positive well was identified which gave the 102 bp PCR fragment.
Colony PCR: One ml of the glycerol stock from the positive sub-plate well was diluted 1:100 in Luria broth (LB). One mi and 10 mi of the aforementioned dilution were then plated on two separate agar plates containing Luria broth ("LB"), and 100 ug/mi carbenicillin. The LB plates were then incubated overnight at 30°C. From these plates, 96 colonies were picked into a new 96-well PCR plate containing: 0.2 mM of each of the two aforementioned gene-specific primers, 1x standard PCR buffer (Buffer
V; Advanced Biotechnologies, UK), 0.2 mM dNTPs (Amersham-Pharmacia), 0.1 M
GC-Meit (Clontech Laboratories, USA), and 0.5 units of Taq DNA polymerase (5 U/ul;
Advanced Biotechnologies, UK) in a final volume of 25 pl.
The same PCR thermocycling conditions as described for the masterplate screening were utilised. The 96 individual PCR reactions were then analysed on a 2% agarose gel containing ethidium bromide. A positive colony containing the 102 bp fragment was subsequently identified.
Sequencing of the plasmid DNA prepared from this positive colony revealed a full-length cDNA of 861 bp [SEQ ID NO: 8]. The cDNA coded for a pre-pro-neublastin [SEQ ID NO: 9]. Automated DNA sequencing was performed using the BigDye® terminator cycle sequencing kit (PE Applied Biosystems, USA). The sequencing gels were run on the ABI Prism 377 (PE Applied Biosystems, USA).
Method 2: Cloning neublastin cDNA from Human Brain:
An additional method of amplifying the full-length neublastin cDNA or cDNA fragment can be performed by RACE (Rapid Amplification of cDNA ends) and the neublastin-specific primers NBNint.sence and NBNint.antisence described above, combined with vector-specific or adapter-specific primers, for example by using the
Marathon cDNA amplification kit (Clontech Laboratories, USA, Cat. No. K1802-1).
Whole human brain Marathon-Ready cDNA (Clontech Laboratories, USA,
Catalogue. No. 7400-1) can be used to amplify the full-length neublastin cDNA.
Useful primers for amplification include a neublastin top strand primer 5'-
ATGGAACTTGGACTTGG-3' [SEQ ID NO: 19] ("NBNext.sence"), and a neublastin bottom strand primer 5&-TCCATCACCCACCGGC-3' [SEQ ID NO: 20] ("NBNext.antisence"), combined with the adapter primer AP1 included with the
Marathon-Ready cDNA. An alternative top strand primer has also been used, 5'-
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CTAGGAGCCCATGCCC-3' [SEQ ID NO: 28]. A further alternative bottom strand primer, 5’-GAGCGAGCCCTCAGCC-3' [SEQ ID NO: 33] may also be used. Likewise, alternative bottom strand primers SEQ ID NOS: 24 and 26 may also be used.
Method 3: Cloning neublastin cDNA from Human Brain:
Another method of cloning neublastin cDNA is by screening human adult or foetal brain libraries with one or more neublastin probes described herein (and as exemplified in Figure 1). These libraries include: Agt11 human brain (Clontech
Laboratories, USA, Cat. No. HL3002b); or Agti1 human foetal brain (Clontech
Laboratories, USA, Cat. No. HL3002b).
Method 4: Rapid-Screening of Mouse Foetal cDNA for the neublastin Gene
A rapid screening procedure for the neublastin gene was performed in the following manner. A 96-weil master plate, containing plasmid DNA from 500,000 cDNA clones, was loaded with approximately 5000 clones per well. A 96-well sub- plate was utilised with E. Coli glycerol stock containing 50 clones per well. Three rounds of PCR-mediated ampiification was performed in order to identify a gene of interest (i.e., neublastin).
Master Plate Screening: A mouse fettle cDNA master plate was screened by 96-well PCR using gene-specific primers to isolate the mouse neublastin cDNA. The following two primers were synthesised: (1) neublastin C2 primer (NBNint.sence): 5-GGCCACCGCTCCGACGAG-3' [SEQ ID NO: 21]; and (2) neublastin C2as primer (NBNint.antisence): 5'-GGCGGTCCACGGTTCTCCAG-3' [SEQ ID NO: 22]. By using these two gene- specific primers a 220 bp positive PCR product was identified. The 220 bp nucleic acid possessed the following sequence [SEQ ID NO: 14]: 5'-GGCCACCGCTCCGACGAGCTGATACGTTTCCGCTTCTGCAGCGG
CTCGTGCCGCCGAGCACGCTCCCAGCACGATCTCAGTCTGGCCAG
CCTACTGGGCGCTGGGGCCCTACGGTCGCCTCCCGGGTCCCGGC
CGATCAGCCAGCCCTGCTGCCGGCCCACTCGCTATGAGGCCGTCT
CCTTCATGGACGTGAACAGCACCTGGAGAACCGTGGACCGCC-3' 96-well PCR reactions were then performed in the following manner. Thirty nanograms of mouse foetal brain cDNA (6 ng/ul; Origene Technologies) was obtained from the corresponding well of the master plate and placed in a total volume of 25 pl which also contained: 0.2 mM of each of the two aforementioned gene-specific
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primers (i.e, C2 primer (NBNint.sence) and neublastin C2as primer (NBNint.antisence)), 1x standard PCR buffer (Buffer V; Advanced Biotechnologies,
UK), 0.2 mM dNTPs (Amersham-Pharmacia), 0.1 M GC-Melt (Clontech Laboratories,
USA), and 0.5 units of Taq DNA polymerase (5 U/ul; Advanced Biotechnologies, UK).
The following PCR thermocycling conditions were utilised: an initial denaturation at 94°C for 3 minutes, followed by 35 cycles of denaturation at 94°C for 1 minute each, annealing at 55°C for 1 minute, extension at 72°C for 90 seconds; and a final extension at 72°C for 5 minutes. The 96 individual PCR reactions were analysed on a 2% agarose gel containing ethidium bromide stain. The 220 bp, positive PCR product seen from a well was found to correspond to a unique 96-well sub-plate. The 96 individual PCR reactions were then analysed by gel electrophoresis on a 2% agarose gel containing ethidium bromide stain. The 220 bp positive PCR product which had been identified corresponded to a unique well of the 96-weli sub-plate.
Sub-Plate Screening: The 96-well mouse foetal sub-plate was screened by
PCR-mediated amplification by placing 1 pul of the glycerol stock from the corresponding sub-plate well into a final, total volume of 25 pl which contained: 0.2 mM of each of the two aforementioned gene-specific primers; 1x standard PCR buffer (Buffer V; Advanced Biotechnologies, UK); 0.2 mM dNTPs (Amersham-Pharmacia); 0.1 M GC-Melt (Clontech Laboratories, USA); and 0.5 units of Tag DNA polymerase (5 } 20 U/l; Advanced Biotechnologies, UK). The PCR thermocycling was performed according to the conditions described above for the master plate screening.
The individual 96 PCR reactions were then analysed on a 2% agarose gel containing ethidium bromide and a positive well was identified which produced the 220 bp fragment.
Colony PCR: One ml of the glycerol stock from the positive sub-plate well was diluted 1:100 in Luria broth (LB). One mi and 10 ml of the aforementioned dilution were then plated on two separate LB plates, containing 100 pg/ml carbenicillin, and incubated at 30°C overnight. A total of 96 colonies were isolated and transferred to a 96-well PCR plate containing: 0.2 mM of each of the two aforementioned gene- specific primers, 1x standard PCR buffer (Buffer VV; Advanced Biotechnologies, UK), 0.2 mM dNTPs (Amersham-Pharmacia); 0.1 M GC-Melt (Clontech Laboratories, USA), and 0.5 units of Taq DNA polymerase (5 U/ul; Advanced Biotechnologies UK) in a final volume of 25 pl.
PCR thermocycling was performed according to the conditions described above (see, "master plate screening”, infra). The 96 individual PCR reactions were analysed by gel electrophoresis on a 2% agarose gel containing ethidium bromide. A positive
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colony was identified by the presence of the 220 bp fragment. Plasmid DNA was prepared from this positive colony. The clone was sequenced by automated DNA sequencing using the BigDye® terminator cycle sequencing kit with AmpliTag DNA polymerase. The sequencing gels were run on the ABI Prism 377 (PE Applied
Biosystems). The resulting sequence of this clone revealed a full-length cDNA of 2136 bp [SEQ ID NO: 15]. The cDNA includes an open reading frame with the predicted amino acid sequence shown in SEQ ID NO: 16, which codes for a mouse pre-pro-neublastin polypeptide.
Example 2: Cloning of Genomic neublastin
As discussed above, applicants identified a 290 bp nucleic acid fragment in two human BAC clones with entries in GenBank (with the Accession Nos. AC005038 and
AC005051) which had regions of homology to persephin and to the flanking sequences of persephin. Applicants used the 861 bp predicted sequence described above to design additional primers, with the goal of cloning a nucleic acid encoding additional neublastin nucleic acids using Lasergene Software (DNAStar, Inc). Two pairs of primers were used to clone the neublastin gene by using PCR reactions on genomic DNA. The two pairs of primers are illustrated below.
Primer Pair No. 1 5' CCA AgC CCA CCT ggg TgC CCT CTT TCT CC 3 (sense) [SEQ ID NO: 23]. 5' CAT CAC CCA CCg gCA ggg gCC TCT CAg 3' (antisense) 8SEQ ID NO: 24).
Primer Pair No. 2 5' gAgCCCAtgCCCggCCTgATCTCAgCCCgA ggACA 3' (sense) [SEQ ID NO: 25). §' CCCTggCTgAggCCgCTggCTAgTgggACTCTgC 3' (antisense) [SEQ ID NO: 26).
Using primer pair No. 1, a 887 bp DNA fragment was amplified from a preparation of human genomic DNA purchased from Clontech Laboratories, (Cat. No. 6550-1).
PCR protocol: PCR was performed using the Expand ™ High Fidelity PCR system (Boehringer Mannheim) with buffer 1. The PCR reaction mixture was supplemented with 5 % dimethylsulfoxide (DMSO) and 17.5 pmol of each dNTP in a total volume of 50 pl. Thermocycling was performed with a pre-denaturation step at 94°C for 2 minutes, followed by 35 two-step cycles at 94°C for 10 seconds, and 68°C for 1 minute, respectively. Thermocycling was terminated by incubation at 68°C for 5
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minutes. Thermocycling was carried out in a PTC-225 DNA Engine Tetrad thermocycler (MJ Research, MA). The PCR products were analysed by gel electrophoresis on 2% agarose (FMC) and then photographed.
The 887 bp fragment amplified from human genomic DNA with primer pair No. 1 was cloned into the pCRIl vector (Invitrogen), and transformed into XL 1-Blue competent E. coli cells (Stratagene). The resulting plasmid, designated neublastin-2, was sequenced using Thermosequenase (Amersham Pharmacia Biotech).
Sequencing products were analysed by electrophoreses on an ALFExpress automated sequencer (Amersham Pharmacia Biotech).
Fragments obtained by PCR amplification of human genomic DNA with the second pair of primers (Primer Pair No. 1, above), were sequenced, revealing an additional 42 bp region at the 3' prime end of the open reading frame. The full-length sequence was analysed by comparing it to the sequences of nucleic acids of other neurotrophic factors, as well as by mapping exon-intron boundaries using gene-finding software programs which identify probable splice junctions and regions of high coding potential using Netgene and Gene Mark software (Brunak et al., J. Mol. Biol. 1991 220 49-65); Borodovsky et al., Nucl. Acids Res. 1995 23 3554-62). The exon-intron boundaries were confirmed by the cDNA obtained from the Rapid Screen described above.
As illustrated in FIG. 7, the resulting neublastin gene has two exons separated by a 70 bp intron. Together, the exons have a predicted amino acid sequence of a full-length Neublastin polypeptide. The predicted cDNA [SEQ ID NO: 3] contains an open reading frame (ORF) encoding 238 amino acid residues [SEQ ID NO: 4]. The
Neublastin-2 clone contained the complete coding sequence of pro-neublastin. The amino acid sequence encoded by the gene showed high homology to three proteins, persephin, neurturin, and GDNF.
Example 3: Expression of Neublastin Nucleic Acids
Expression of neublastin RNA was detected in both nervous and non-nervous tissue in rodents and in humans, and at various developmental immature and adult stages, using the techniques described below.
Method of detecting Neublastin RNA expression using RT-PCR: Based on the neublastin DNA sequence identified as SEQ ID NO: 1, the following primers were synthesised: (1) a neublastin C2 primer 5-GGCCACCGCTCCGACGAG-3' [SEQ ID
NO: 21), and (2) a neublastin C2as primer 5-GGCGGTCCACGGTTCTCCAG-3' [SEQ
ID NO: 22]. This primer set was used to RT-PCR amplify a DNA fragment from adult and foetal human whole-brain mRNA. Among the DNA fragments produced by this
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reaction was one of 220 bp. Identification of this 220 bp DNA fragment confirmed that the neublastin gene is expressed in adult and foetal brain tissue. A 220 bp DNA fragment was also amplified from genomic DNA with using these primers.
Method of detecting Neublastin RNA expression by northern biot hybridization:
Northern blots with polyA’ RNA from adult human tissue were purchased from a commercial supplier (Clontech Laboratories, USA) and probed with a 3?P-labeled neublastin cDNA. The labelled neublastin cDNA was prepared according to the methods described in Example 1, above.
Preparation of Probes: A neublastin nucleic acid DNA fragment (nucleotides 296-819 of SEQ ID NO: 8) was labelled by the Rediprime Il labelling kit (Amersham;
Cat. No. RPN1633) for use as a hybridization probe, as recommended by the manufacturer. Briefly, the DNA sample was diluted to a concentration of 2.5-25 ng in 45 pl of 10 mM TE Buffer (10 mM Tris-HCI, pH 8.0, 1 mM EDTA). The DNA was then denatured by heating the sample to 95-100°C for 5 minutes in a boiling water bath, quick cooling the sample by placing it on ice for 5 minutes, and then briefly centrifuging it to bring the contents to the bottom of the reaction tube. The total amount of denatured DNA was added together with 5 pl of Redivue 2P) dCTP (Amersham Pharmacia Biotech Ltd.) in the reaction tube containing buffered solution of dATP, dGTP, dTTP, exonuclease free Kienow enzyme and random primer in dried stabilised form. The solution was mixed by pipetting up and down 2 times, moving the . pipette tip around in the solution, and the reaction mixture was incubated at 37°C for 10 minutes. The labelling reaction was stopped by adding 5 pl of 0.2 M EDTA. For use as a hybridization probe the labelied DNA was denatured to single strands by heating the DNA sample to 95-100°C for 5 minutes, then snap cooling the DNA sample on ice for 5 minutes. The tube was centrifuged and its contents mixed well.
Finally the single-stranded DNA probe was purified using the Nucleotide Removal Kit (Qiagen).
Hybridization Techniques: Prepared northern blots were purchased from a commercial supplier ("Multiple Tissue Northern Blots, Clontech Laboratories, USA,
Catalogue Nos. 7760-1 and 7769-1) and were hybridized according to the manufacturer's instructions using the neublastin *’P-labeled probe prepared above.
For hybridization, ExpressHyb Solution (Clontech Laboratories, USA) was used, and a concentration of approximately 3 ng/ml of the labelled probe was employed. The
ExpressHyb solution was heated to 68°C and then stirred to dissolve any precipitate.
Each northern blot membrane (10x10 cm) was pre-hybridized in at least 5 mi of
ExpressHyb Solution at 68°C for 30 minutes in a Hybaid Hybridization Oven according to the manufacturer's instructions. The neublastin *’P-labeled probe was denatured at
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95-100°C for 2 minutes and then chilled quickly on ice. Fourteen microliters (14 ul) of the labelled probe was added to 5 ml of fresh ExpressHyb, and thoroughly mixed. The
ExpressHyb Solution used in the pre-hybridization was replaced by evenly distributing over the blots the 5 mi of fresh ExpressHyb Solution containing labelled DNA probe.
Blots were incubated at 68°C for 1 hour in a Hybaid hybridization Oven. After incubation, the blots were rinsed and washed several times at low stringency (2x SSC buffer containing 0.05 % SDS at room temperature) followed by a high stringency wash (0.1x SSC containing 0.1 % SDS at 50°C) [20X SSC is 0.3 M NaCl/0.3 M Na citrate, pH 7.0]. The biots were exposed to a Hyperfiim MP (Amersham Pharmacia
Biotech Ltd.) at -80°C using intensifying screens.
The results of the northern blot hybridization experiments are presented in FIG. 1. FIG. 1A (left) and FIG. 1B (right) are northern blots of polyA® RNA which were probed with *’P-labelled neublastin cDNA as described in Example 3. The markers represent polynucieotides of 1.35 kilobase pairs ("kb"), 2.4 kb, 4.4 kb, 7.5 kb, and 9.5 kb in size. The membrane of Fig. 1A was prepared with mRNA extracted from various adult human tissues: From the results of the northern blot hybridization analysis, . + applicants conclude that neublastin mRNA is expressed in many adult human tissues.
The highest level of neublastin expression is detected in the heart, in skeletal muscle and in the pancreas. The membrane of FIG. 1B was prepared with RNA extracted from various regions of the adult human brain. Within the adult brain, the highest level of expression is seen in the caudate nucleus and in the thalamus. An mRNA transcript of approximately 5 kb was the predominant form of neublastin mRNA expressed in the brain.
Method of detecting Neublastin RNA expression using by in situ Hybridization in
Tissues:
The following techniques are used to measure the expression of neublastin
RNA in animal tissues, e.g., rodent tissues, with a neublastin anti-sense probe.
Expression in mice:
Preparation of Tissue Samples: Time pregnant mice (B&K Universal,
Stockholm, Sweden) were killed by cervical dislocation on gestational day 13.5 or 18.5. Embryos were removed by dissection under sterile conditions, and immediately immersed in a solution of 0.1M phosphate buffer (PB) containing 4% paraformaldehyde ("PFA") for 24-30 hours, and then removed from the PFA and stored in PBS. The tissue was prepared for sectioning by immersing the tissue in a solution of 30% sucrose, and then embedding it in TissueTech (O.C.T. Compound,
Sakura Finetek USA, Torrance CA). Six series of coronal or sagittal sections (12 pm
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each) were cut on a cryostat and thaw mounted onto positively charged glass slides.
Neonatal heads/brains (P1, P7) were fixed following the same protocol as for the embryonic stages, and adult brain tissue was dissected, immediately frozen on dry ice, and cut on a cryostat without any prior embedding.
Preparation of Neublastin Riboprobes: An antisense neublastin RNA probe (hereafter a "neublastin riboprobe") was made as follows. Nucleotides 1109-1863 of the mouse neublastin cDNA sequence [SEQ ID NO: 15] were sub-cloned into the
BlueScript vector (Stratagene). The resulting plasmid was cut into a linear DNA using
EcoRI restriction endonuclease. The EcoRI DNA fragment was in vitro transcribed with T3 RNA polymerase and the digoxigenin (“DIG”) RNA Labelling Kit according to the manufacturer's instructions (Boehringer Mannheim).
Hybridization: Cryostat sections were fixed for 10 minutes in 4% PFA, treated for 5 minutes with 10 mg/ml of proteinase K, dehydrated sequentially in 70% and 95% ethanol for 5 and 2 min, respectively, and then allowed to air dry. Hybridization buffer (50% deionized formamide, 10% of a 50% dextran sulphate solution, 1% Denhardt's solution, 250pg/ml yeast tRNA, 0.3M NaCl, 20mM Tris-HCI (pH8), 5SmM EDTA, 10mM
NaPO,, 1% sarcosyl) containing 1ug/mi of the DIG-labelled probe was heated to 80°C for 2 minutes and applied onto the sections. The sections was then covered with parafilm and incubated at 55°C for 16-18 hours.
The next day the sections were washed at high stringency (2x SSC containing 50% formamide) at 55°C for 30 minutes, and then washed in RNase buffer and incubated with 20ug/ml of RNaseA for 30 minutes at 37°C. In order to detect the
DiG-labelled probe, sections were pre-incubated in blocking solution (PBS containing 0.1% Tween-20 and 10% heat-inactivated goat serum) for 1 hour and then incubated over night at 4°C with a 1:5000 dilution of alkaline-phosphatase-coupled anti-DIG antibody (Boehringer Mannheim). The following day, each section was given four, two- hour washes in PBS containing 0.1% Tween-20, and then given two ten-minute washes in NTMT buffer (100 mM NacCi, 100 mM Tris-HCI (pH9.5), 50 mM MgCla, 0.1%
Tween-20). The sections were then incubated in BM-purple substrate containing 0.5mg/ml of levamisole for 48 hours. The colour reaction was stopped by washing in
PBS. The sections were air dried and covered with cover-slip with DPX (KEBO-lab,
Sweden).
The results of the in situ hybridization reactions are presented in Table 1.
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Table 1: Expression of neublastin in Mice
Structure E13.5 E185 P1 P7 Adult
Forebrain ++
Ventral Midbrain -
Dorsal Root ganglia ++
Spinal chord +
Retina +++ +++ +
Olfactory bulb ++ ++ ++
Tooth pulp ++ ++ +
Trigeminal ganglia ++ ++ ++
Striatum + + ++
Cortex ++ ++ ++ +
Dentate gyrus ++ +
As shown in Table 1, at embryonic day 13.5 ("E13.5"), neublastin was expressed in the spinal chord and in the hindbrain, and weakly in the forebrain.
Neublastin expression was also detected in the developing retina and in the sensory ganglia (dorsal root ganglia and trigeminal ganglia (V)). Outside the nervous system, a weak signal was found in the kidney, the lung and the intestine, indicating that neublastin is also expressed in those tissues.
At embryonic day 18.5 ("E18.5"), neublastin was expressed most prominently in the trigeminal ganglion (VV). Neublastin expression was also detected in the retina, the striatum, and the cortex. In addition, expression was seen in tooth anlage.
Again referring to Table 1, increased neublastin expression, from the E18.5 time-point to postnatal days 1 and 7, was seen in the cortex, the striatum and the trigeminal ganglion (V). Neublastin expression was more prominent in the outer layers of the cortex than in the inner layers of the cortex. On P7, expression was found in the same structures as at day 1 but in addition neublastin expression was found in the hippocampus, especially in the dentate gyrus and in the cerebellum. In the adult murine brain, neublastin was strongly expressed in dentate gyrus, with very low or undetectable levels of neublastin expression detected other tissues tested.
Expression in Rat:
The following experiment describes the hybridization of rat tissues with a alkaline-phosphatase- labelled oligodeoxynucleotide neublastin anti-sense probe.
Preparation of tissue samples: Rat embryos (E14) were obtained from pregnant Wistar rats (Mollegaard Breeding, Denmark) following pentobarbital
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anaesthesia. Postnatal rats (PO, P7, adult) were killed by decapitation. Dissected brains and whole heads were immediately immersed in cold 0.9% NaCl, fresh frozen and sectioned at 20 um on a cryostat (coronal and sagittal sections, 10 series). in situ hybridization: Two series of sections were hybridized using an anti- sense alkaline-phosphatase (AP) conjugated oligodeoxynucleotide probe (5'-NCA
GGT GGT CCG TGG GGG GCG CCA AGA CCG G-3' [SEQ ID NO: 27], Oligo. No. 164675, DNA Technology, Denmark,). This probe is complementary to bases 1140 to 1169 of the mouse neublastin cDNA of SEQ ID NO: 15).
Prior to hybridization, the sections were air dried at room temperature, heated at 55°C for 10 min., and then treated with 96% ethanol at 4°C overnight. The sections were then air dried and incubated in hybridization medium (5.0 pmol probe/ml) overnight at 39 °C (Finsen et al., Neurosci. 1992 47 105-113; West et al., J. Comp.
Neurol. 1996 370 11-22).
Post-hybridization treatment consisted of four, thirty-minute rinses in 1x SSC (0.15M NaCl, 0.015 M Na-citrate) at 55 °C, followed by three ten-minute rinses in Tris-
HCI, pH 9.5 at room temperature prior to applying AP developer. AP developer was prepared immediately before use and contained nitroblue tetrazoleum (NBT, Sigma), 5-bromo, 4-chioro, 3-indolylphosphate (BCiP, Sigma), and Tris-HC-MgCl, buffer, pH 9.5 (Finsen et al., Neurosci. 1992 47 105-113). AP development took place in the dark at room temperature for 48 hours. The colour reaction was stopped by rinsing the sections in destilled water. The sections were dehydrated in graded acetone, softened in xylene-phenol creosote (Alichem, UK), cleared in xylene, and coverslipped using Eukitt (Bie & Berntsen, Denmark).
Control reactions consisted of (1) pre-treating the sections with RNase A (50 ug/ml, Pharmacia, Sweden) prior to hybridization; (2) hybridizing the sections with a hundred-fold excess of unlabelled probe; and (3) hybridizing the sections with hybridization buffer alone. The results of the hybridization reactions are presented in
Table 2.
Table 2: Expression of neublastin in rats
Structure E14 Po/P1 P7 Adult
Forebrain ++
Ventral Midbrain -
Dorsal root ganglia ++
Spinal cord +
Retina +
Olfactory bulb (+) ++ ++
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Structure E14 PO/P1 P7 Aduit
Cerebellum + ++ +
Trigeminal ganglia ++ ++
Striatum + +(+)
Cortex (+) ++ ++ +
Hippocampus (+) ++ ++
At embryonic day 14 (E14), neublastin was weakly expressed in rat embryos in the forebrain, in the hindbrain, and in the spinal cord. Neublastin mRNA was also detected in the eye (retina), dorsal root ganglia, the trigeminal ganglia (V), and in the kidneys, lungs, heart, liver, and intestines. In newborn (PO) rats there was marked neublastin expression in the cortex and in the striatum. Neublastin expression was also detected in the olfactory bulb and in the hippocampus. in 7-day-old (P7) rats, neublastin was expressed in the cortex, the striatum, the olfactory bulb, and in the cerebellum. A marked signal was seen in the hippocampus. In adult rats, very low or undetectable levels of neublastin expression were detected in most areas of the brain.
Weak signals were detected in the thalamic nucleus, and marked neublastin expression was detected in the hippocampus.
Example 4: Neublastin Polypeptides
The open reading frame, or coding region (CDS), identified in SEQ ID NO: 8 encodes the pre-pro-polypeptide (designated "pre-pro-neubiastin”). The amino acid : sequence predicted from this open reading frame is shown in SEQ ID NO: 9. Based on SEQ ID NO: 9, three variants of neublastin polypeptides were identified. These variants include: (i) the polypeptide designated herein as NBN140, which possesses the amino acid sequence designated as SEQ ID NO: 10; (ii) the polypeptide designated herein as NBN116, which possesses the amino acid sequence designated as SEQ ID NO: 11; and (iii) the polypeptide designated herein as NBN113, which possesses the amino acid sequence designated as SEQ ID NO: 12.
Similarly, based on the coding region (CDS) as identified in SEQ ID NO: 3, which encodes the pre-pro-polypeptide possessing the amino acid sequence (designated as SEQ ID NO: 4), three variants of neublastin were identified. These variants include: :
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(i) the polypeptide which possesses the amino acid sequence designated as
SEQ ID NO: 5; (ii) the polypeptide which possesses the amino acid sequence designated as
SEQ ID NO: 6; and (iii) the polypeptide which possesses the amino acid sequence designated as
SEQ ID NO: 7.
Based on a Clustal W (1.75)-based multiple sequence alignment, SEQ ID NO: 9 was aligned with the amino acid sequences of GDNF, persephin and neurturin. This alignment is illustrated in Table 3.
Table 3:
Amino Acid Sequence Comparison of Neublastin to Persephin, Neurturin, and
GDNF
_——
Neurturin-full mm —rm sess sss meee ——-MORWKAAALASVLCSSVLSIWMCREGLLLSHRLGEA
Neublastin MELGLGGLSTLSHCPWPRRQPALWPTLAALALLSSVAEASLGSAPRSPAPREGPPP
Persephin-£full rrr ——— er ————————————
GDNF_HUMAN-full -==-~-MKLWDVVAVCLVLLHTASAF PLPAGKRPPEAPAEDRSLGRRRAPFALSSDS
Neurturin-full LVPLHRLPRTLDARIARLAQYRALLQGAPDAMELRELTPWAGRP PGPRRRAGPRRR
Neublastin VLASPAGHLPGGRTARWC SGRARRPPPQPSRPAPPPPAPPSALPRGGRAARAGGPG
Persephin-full -MAVGKFLLGSLLLLSLOLGOGWGPDARGVPVADGEF SSEQVAKAGGTWLGTHRPL
GDNF _HUMAN-£full NMPEDYPDQFDDVMDF IQAT IKRLKRSPDKQMAVL PRRERNRQAAAANPENSRGKG ’
Neurturin-~full RARARLGARPCGLRELEVRVSELGLGYASDETVLFRYCAGACEA-AARVYDLGLRR
Neublastin SRARAAGARGCRLRSQLVPVRALGLGHR SDELVRFRFCSGSCRR-ARSPHDLSLAS
Persephin- full ARLRRALSGPCQLWSLTLSVAELGLGYASEEKVIFRYCAGSCPRGARTQHGLALAR
GDNF_HUMAN-£full RRGQRGKNRGCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCDA-AETTYDKILKN
Ld * : * *hERX, : LT H LEER EE SJ * cs. *
Neurturin-full LRQRRRLRRE--~RVRAQPCCRPTAYEDEVSFLDAHSRYHTVHELSARECACV~
Neublastin LLGAGALRPPPGERPVSQPCCRPTRYE-AVSFMDVNSTWRTVDRLSATACGCLG
Persephin-full LOGQGRAHGG-~-----~PCCRPTRYT- DVAFLDDRHRWORL PQLSAAACGCGS
GDNF_HUMAN-full LSRNRRLVSD-~-~~KVGQACCRPIAFDDILSFLDDNLVYHILRKHSAKRCGCI - * LER BJ . saw. w . ee H . > * x
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* indicates positions which have a single, fully conserved residue. : indicates that one of the following 'strong’ groups is fully conserved: -STA, NEQK, NHQK, NDEQ, QHRK, MILV, MILF, HY, FYW. 5 . indicates that one of the following 'weaker' groups is fully conserved: -CSA, ATV, SAG, STNK, STPA, SGND, SNDEQK, NDEQHK, NEQHRK, VLIM,
HFY.
From the amino acid sequence alignment shown in Table 3, it can be seen that neublastin has seven conserved cysteine residues at locations that are conserved within the TGF-B superfamily. In one embodiment, the preferred neuroblastin polypeptide contains (seven) cysteines conserved as in SEQ ID NO: 2 at positions 8, 35, 39, 72, 73, 101 and 103, or as in SEQ ID NOS: 4 and 9 at positions 43, 70, 74, 107, 108, 136 and 138. These seven conserved cysteine residues are known within the TGF-b superfamily to form three intramonomeric disulfide bonds (contemplated, e.g., in SEQ
ID NO: 2 between cysteine residues 8-73, 35-101, and 39-103, and, e.g., in SEQ ID : NOS: 4 and 9 between cysteine residues 43-108, 70-136, and 74-138) and one i intermonomeric disulfide bond (contemplated, e.g., in SEQ ID NO: 2 between cysteine residues 72-72, and, e.g., in SEQ ID NOS: 4 and 9 between cysteine residues 107- 107), which together with the extended beta strand region constitutes the conserved structural motif for the TGF-b superfamily. See, e.g., Daopin et al., Proteins 1993 17 176-192. - Based on this sequence alignment, neublastin was shown to be a member of the
GDNF subfamily of neurotrophic factors (LGLG - FR(Y/F)CSGSC - QxCCRP -
SAxxCGC, the GDNF subfamily fingerprint, underlined in Table 3).
The homology of neublastin to other members of the GDNF family was calculated, and the results are presented Table 4, below.
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Table 4: Homology of Neublastin Polypeptides to other members of the GDNF
Family [Mature Protein NBN140 | Mature Protein NBN113____
Homology Homo- | Homology Homo- logy of logy of full full length length pep- pep- tides tides
Identity Overlap Strong Identity Overlap Strong
Factor (aa) Homology (aa) Homology
GDNF 34% 137 48% 31.9% | 36% 11 52% 29.5% (471137) (67/137) 41/111) (59/111)
NTN 48% 127 56% 36.9% | 49% 114 57% 44.7% (611127) (72/127) (56/114) (66/114)
PSP 44% 125 56% 36.9 45% 11 57% 44.3% (55/125) (71/125) (51/111) (65/111) [HA 31% 81 . 252% | 31% 81 3 22.5% (25/81) (25/81)
TGF-p2 23% 73 - 18.5% | 23% 73 - 20.2% (17/73) (17173)
GDNF = Glial cell line Derived Neurotrophic Factor
NTN = Neurturin
PSP = Persephin
IHA = Inhibin-a
TF-B2 = Transforming Growth Factor-p2
Strong homology indicates that one of the following “strong” groups are conserved:
STA, NEQK, NHQK, NDEQ, QHRK, MILV, MILF, HY, FYW.
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Example 5: Production of Neublastin
We have produced neublastin in both eukaryotic and prokaryotic cells, as described below.
Expression Vectors The full length cDNA encoding neublastin was inserted into the eukaryotic expression vector pUbi1Z. This vector was generated by cloning the human UbC promoter into a modified version of pcDNA3.1/Zeo. The unmodified pcDNA3.1/Zeo is commercially available (Invitrogen). The modified pcDNA3.1/Zeo is smaller than the parent vector, because the ampicillin gene (from position 3933 to 5015) and a sequence from position 2838 to 3134 were removed. In this modified version of pcDNA3.1/Zeo, the CMV promoter was replaced with the UbC promoter from pTEJ-8 (Johansen et al., FEBS Lett. 1990 267 289-294), resulting in pUbi1Z.
Mammalian Cell Expression The pUbi1Z vector which contained neublastin coding sequences was then transfected into the mammalian cell line HiBS, which is an immortalised rat neural cell line (Renfranz et al., Cell, 1991 66 713-729). Several HiB5 cell lines stably expressing neublastin (as determined by RT-PCR) have been established. In one of these stable cell lines, HiBSpUbi1zNBN22 expression was confirmed by hybridizing total RNA on a Northern blot with a **P-labelled neublastin probe. The results of these studies are shown in Fig. 2. HiBSpUbi1zNBN22 was then used as a source of neublastin for studies of neublastin neurotrophic activity.
FIG. 2 shows the expression of neublastin cDNA in the HiB5pUbi1zNBN22 clone (i.e., Northern blot probed with 32p_|abelled neublastin cDNA of the present invention as described infra). The blot was prepared by total RNA extracted from untransfected HIBS cells, HiB5pUbi1zZNBN22 cells and HiB5pUbi1zGDNF14, : respectively, as indicated. The positions of the 28S and 18S rRNA bands corresponding to 4.1 kb and 1.9 kb, respectively, are indicated on the blot.
As shown in FIG. 3, antibodies raised against neublastin-derived polypeptides also recognised a protein of approximately 13 kilodaltons (“kD”) in conditioned medium from the HiB5pUbi1zZNBN22 clone but not from non-transfected HiB5 cells (cf.
Example 6).
The predicted molecular weights of the non-modified (i.e. lacking post- translational modifications) neublastin polypeptides NBN140 [SEQ ID NO: 10],
NBN116 [SEQ ID NO: 11] and NBN113 [SEQ ID NO: 12] were determined to be 14.7 kilodaltons ("kD"), 12.4 kD, and 12.1 kD, respectively.
Methods: A Northern blot with total RNA (10 pg) from untransfected HiB5 cells and the HiB5pUbi1zNBN22 clone was prepared by electrophoresis on a 0.8 % formaldehyde agarose gel and blotted onto a nylon membrane (Duralone, Stratagene).
The blot was hybridized and washed as described in Example 3 with a 1.3 kb *P- labelled probe prepared by random labelling covering SEQ ID NO: 8 and additional
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nucleotides from the 5'UTR and 3'UTR of the neublastin cDNA. The blot was exposed to a Hyperfilm MP (Amersham) at -80°C using intensifying screens.
Conditioned medium from Hib5pUbi1zNBN22, or untransfected Hib5 cells incubated overnight in serum-free medium supplemented with N2 supplement (Life
Technologies; Cat. No. 17502-048) was concentrated and separated on 15% polyacrylamide gels (Amersham Pharmacia Biotech; Cat. No. 80-1262-01). Proteins were transferred to PVDF-membranes (Amersham Pharmacia Biotech; Cat. No. RPN- 303F) and non-specific protein-binding sites were blocked with 5% non-fat dry milk in
PBS with 0.1% Tween-20. Membranes were incubated overnight with a polyclonal neublastin antibody (1:1000), followed by incubation with a secondary anti-rabbit 1gG antibody (Amersham Pharmacia Biotech; Cat. No. NA 934) conjugated to horseradish peroxidase (1:2000). Immunostaining was visualised using enhanced chemoluminiscence (ECL) (Amersham Pharmacia Biotech; Cat. No. RPN2109) or
ECL+ (Amersham Pharmacia Biotech; Cat. No. RPN2132) according to the manufacturer’s instructions (Amersham).
The results of these experiments are shown in Figure 3. Figure 3A and 3B are illustrations of the expression of neublastin protein in transfected HiB5 cells.
Overnight medium from non-transfected HiB5 cells [Lane 1], or from an HiBS clone stable transfected with neublastin cDNA [Lane 2], were concentrated as described infra. The medium was then analysed by Western blotting using two different polyclonal antibodies, Ab-1 and Ab-2 described in Example 10, specific for neublastin.
In the medium derived from transfected cells, both of the antibodies were found to recognise a protein with a molecular weight of approximately 15 kDa. This protein was not seen in non-transfected HiB5 cells. :
The cloned cDNA encoding neublastin can also be inserted into other eukaryotic expression vector, e.g., the eukaryotic expression vector TEJ-8 (Johansen et al, FEBS Lett. 1990 267 289-294) or pcDNA-3 (Invitrogen), and the resulting expression plasmid transfected into an alternative mammalian cell line, e.g., Chinese
Hamster Ovary ("CHO") cells, the HEK293, the COS, the PC12, or the RN33b cell lines, or a human neural stem cell. Stable cell lines expressing neublastin are used, e.g., to produce the neublastin protein.
Expression in CHO Cells
Construction of plasmid pJC070.14 In order to express the Neublastin cDNA in Chinese hamster ovary cells, a cDNA fragment encoding the prepro form of human
Neublastin was inserted into the mammalian expression vector pEAG347 to generate plasmid pJC070.14. pEAG347 contains tandem SV40 early and adenovirus major late promoters (derived from plasmid pAD2beta; Norton and Coffin, Mol. Cell. Biol.
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1985 § 281), a unique Notl cloning site, followed by SV40 late transcription termination and polyA signals (derived from plasmid pCMVbeta; MacGregor and
Caskey, Nucl. Acids. Res. 1989 17 2365). In addition, pEAG347 contains a pUC19- derived plasmid backbone and a pSV2dhfr-derived dhfr for MTX selection and amplification in transfected CHO cells.
Plasmid pJC070.14 was generated in two steps. First, a fragment encoding the prepro form of human Neublastin was isolated from plasmid pUbi1Z-NBN using the polymerase chain reaction with oligonucleotides KD2-824 S’AAGGAAAAAA
GCGGCCGCCA TGGAACTTGG ACTTGGAGG3' [SEQ ID NO: 31], KD2-825
STTTTTTCCTT GGCGGCCGCT CAGCCCAGGC AGCCGCAGG3' [SEQ ID NO: 32} and PFU polymerase. The fragment was cloned into the Srf-1 site of pPCR-Script
Amp SK(+) to generate the plasmid pJC0E9. In the second step, a partial Not-1 digest was performed on plasmid pJCO69 to generate a 685bp fragment (containing the neublastin gene) which was cloned into the Not-1 site of plasmid pEAG347 to generate plasmid pJC070.14. Transcription of the neublastin gene in plasmid pJCQ70.14 is controlled by the adenovirus major late promoter.
Generation of CHO cell lines expressing Neublastin. 200 pg of pJC070.14 was linearized by digestion with the restriction endonuclease Mlu-1. The DNA was extracted with phenol: chloroform:isoamyl alcohol (25:24:1) and ethanol precipitated.
The linearized DNA was resuspended in 20mM Hepes pH7.05, 137mM NaCl, 5mM
KCI, 0.7mM Na;HPO,, 6mM dextrose (HEBS) and introduced into ~4E7 CHO dukx
B1(dhfr-) cells (p23) by electroporation (280V and 860 uF). Following electroporation, the cells were returned to culture in a+ Modified Eagle’s Medium (MEM) supplemented with 10% foetal bovine serum (FBS) for two days. The cells were then trypsinized and replated in 100mm dishes (100,000 cells/plate) in o-MEM (lacking ribo- and deoxyribonucleosides), supplemented with 10% dialysed FBS, for five days. The cells were subsequently split at a density of 100,000 cells/100mm plate, and selected in 200nM methotrexate. Resistant colonies were picked and scaled up to 6 well plates; conditioned media from each clone was screened using a specific assay for neublastin described below. The twelve clones expressing the highest level of neublastin were scaled up to T162 flasks and subsequently reassayed. As shown in Figure 10, the
CHO cell lines produced neublastin in the range of 25 to 50 ng/ml.
Ternary complex assay for neublastin. We assayed for the presence of neublastin in the media of CHO cell line supernatants using a modified form of a ternary complex assay described by Sanicola et al. (Proc Natl Acad Sci USA 1997 94 6238).
In this assay, the ability of GDNF-iike molecules can be evaluated for their ability to mediate binding between the extracellular domain of RET and the various co-
SUBSTITUTE SHEET ( rule 26)
receptors, GFRa1, GFRo2, and GFRa3. Soluble forms of RET and the co-receptors were generated as fusion proteins. A fusion protein between the extracellular domain of rat RET and placental alkaline phosphatase (RET-AP) and a fusion protein between the extracellular domain of rat GFRa1 (disclosed in published application WO 9744356; November 27, 1997, herein incorporated by reference) and the Fc domain of human 1gG1 (rGFRa1-lg) have been described (Sanicola et al. Proc Natl Acad Sci
USA 1997 94 6238).
To generate a fusion protein between the extracellular domain of murine
GFRa3 and the Fc domain of human IgG1 (mGFRa3-lg), a DNA fragment encoding amino acids 1-358 of murine RETL3 was ligated to a fragment containing the Fc domain of human IgG1 and cloned into the expression vector pEAG347 to generate plasmid pGJ144. Plasmid pGJ144 was transfected into Chinese hamster ovary cells (CHO) to generate a stable cell line producing the fusion protein, which was purified on a Protein A Sepharose immunoaffinity column using standard methods. In summary, if the GDNF-like molecule can mediate binding of the co-receptor to RET in this assay, then the RET-AP fusion protein will be retained on the plate and the amount that is retained can be measured using a chemiluminescent substrate for alkaline phosphatase.
Dynex Microlite-1 ELISA plates (Dynex Technologies) were coated with 1ug/mil goat antibody specific for human Fc in 50mM bicarbonate/carbonate, pH 9.6 for 16hr.
The plates were emptied and filled with 300 wl of 1% I-block (Tropix) in TBS/0.5%
Tween-20 (TBST), for 1hr. After washing three times with TBST the wells were filled with 100 pl of 1 ng/ml rGFRa1-Ig or mGFRa3-1g diluted in conditioned media from 293
EBNA cells expressing the RET-AP fusion gene. 100ul of conditioned media from the
CHO neublastin clones was then added to the top well of a column of wells, and 2 fold serial dilutions were performed down each row of wells, and incubated for 1.5hr at room temperature. The pilates were then washed three times with TBST, and twice with 200mMTris pH9.8, 10mMMgCIl, (CSPD buffer). The wash solution was then replaced with 425uM CSPD (Tropix) in CSPD buffer containing 1mg/ml Sapphire chemiluminescence enhancer (Tropix), and incubated for 30’ at room temperature.
The chemiluminescent output was measured using a Dynatech luminometer.
In the initial experiments, we investigated whether neublastin produced by the
CHO cell lines could mediate the binding of GFRa1 or GFRa3 to the extracellular domain of RET. As shown in Figure 11, conditioned medium from CHO cell clone #53 produced a robust signal in the ternary complex assay when the mGFRa3-ig fusion protein was included, but no signal when the rGFRa1-Ig fusion protein was included, indicating that neublastin binds to GFRa3 but not to GFRa1. This behaviour clearly distinguishes neublastin from GDNF; as shown in Figure 11, GDNF binds to GFRa1
SUBSTITUTE SHEET ( rule 26)
but not to GFRa3. No signal was observed with either co-receptor fusion protein, when conditioned medium from the parental CHO cell line or straight medium was assayed.
In order to quantitate the expression levels of neublastin in the CHO cell lines, a standard curve was prepared using rtGFRa1-lg and GDNF starting at a concentration of 1ng/ml. Neublastin concentrations for the different CHO cell lines were then calculated using this standard curve; the levels produced by five CHO cell lines are shown in Figure 10. Because this estimation depends on the untested assumption that the binding affinity between GDNF and GFRa1 is similar to the binding affinity between neublastin and GFRa3, these levels are only approximate.
Analysis of neublastin from CHO cell line supernatants.
In order to further analyse the neublastin produced by the CHO cell lines, the protein was extracted from the medium using the GFRo3-lg fusion protein and analysed by western blots with polyclonal antibodies raised against neublastin peptides.
In the first experiment, the neublastin was extracted with mGFRa3-lg attached to Sepharose beads. mGFRa3-lg was attached to Sepharose beads using the conditions suggested by the manufacturer, Pharmacia Inc. 100 pL of mGFRa3-Ig-
Sepharose was added to 1.0 mL samples of conditioned medium from a negative control CHO cell line or from the neublastin producing CHO cell line #16. The suspensions were incubated for two hours on a rocking platform. Each suspension was centrifuged and the supernatant removed followed with three 1.0 mL washes with 10 mM HEPES, 100 mM NaCl, pH 7.5. Each resin was resuspended in 100 pL of 2X reducing sample buffer and heated to 100°C for 5 minutes. 20 uL of the sample buffer supernatant and 10 ulL of a molecular weight standard (FMC) were applied to each well of a 10-20% precast SDS-PAGE gel (Owl Scientific). The gel was electrophoresed at 40 mA constant current for 72 minutes.
For western blot analysis, the protein was electroblotted to nitrocellulose (Schleicher and Schuell) in a Hofer Scientific apparatus in 10 mM CAPS, 10% methanol, 0.05% SDS, pH 11.2 buffer system (45 minutes at 400 mA constant current). After the transfer, the nitrocellulose filter was removed from the cassette and the molecular weight markers were visualised by staining with a solution of 0.1%
Ponceau S in 1% acetic acid for 60 seconds. The membrane was cut into two sections and the excess stain was removed by gentle agitation in distilled water. The membranes were blocked in 2% nonfat dry milk in TBS overnight at 4°C. The membranes were incubated individually with two of the affinity-purified anti-neublastin peptide antibodies (R30 and R31) at a concentration of 1.0 ug/mL in 2% nonfat dry
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milk in TBS). The membranes were washed with three 10 minute washes in TBS-
Tween and incubated in a 1:5000 dilution of goat anti-rabbit IgG-HRP conjugate (Biorad) for 30 minutes. The membranes were washed with three 10 minute washes of
TBS-Tween and developed with ECL substrate (Amersham). As shown in Figure 12, specific bands were detected in the proteins extracted from the neublastin producing
CHO cell line with both antibodies (lanes 2 and 4), when compared to the bands observed in the extracted proteins from the negative control cell line (lanes 1 and 3).
The molecular weight of the lower species is about 13kD and probably represents the mature domain of neublastin, generated after cleavage of the pro- domain. This cleavage could occur after any one of the three Arg-__ (e.g., -RXXRJ-) residues of the prepro neublastin protein to generate either the 140 AA, 116 AA or 113
AA forms, as set forth in SEQ ID NOS: 10, 11, or 12, respectively. The predicted molecular weights of the non-modified (i.e., lacking post-translational modifications) neublastin polypeptides NBN140 [SEQ ID NO: 10], NBN116 [SEQ ID NO: 11], and
NBN113 [SEQ ID NO: 12] were determined to be 14.7 kD, 12.4 kD, and 12.1 kD, respectively. Further analysis will be needed to confirm the structure of this species as well as the other neublastin specific bands.
In the second experiment, the neublastin was extracted with hGFRa3-ig captured on an ELISA plate. To generate a fusion protein between the extracellular domain of human GFRo3 (disclosed in published application W097/44356; November 27, 1997, herein incorporated by reference) and the Fc domain of human IgG1 (hGFRoa3-1g), a DNA fragment encoding amino acids 1-364 of human GFRa3 was ligated to a fragment containing the Fc domain of human IgG1 and cloned into the expression vector CH269 described by Sanicola et al. (Proc Natl Acad Sci USA 1997 94 6238). The fusion protein encoded by this plasmid was transiently expressed in 293-Epstein-Barr virus-encoded nuclear antigen (EBNA) cells and purified on a
Protein A Sepharose immunoaffinity column using standard methods.
Six wells of a 96-well plate were coated overnight at 4 °C with goat anti-human
IgG (Fey fragment specific; Jackson Immunulogics) at a concentration of 25mg/ml in
PBS (300mliwell). The wells were blocked for 1h at room temperature with 400mi of 1% BSA in PBS. After 3 washes with PBST (PBS + 0.05% Tween 20), 300ml hGFRa3-lg (10mg/m! in PBS containing 0.1% BSA) was added to each well. The plate was incubated for 1h at room temperature and shaken gently (200 strokes/min) to maximise the binding. The wells were then emptied and washed again 3 times with
PBST. 250ml of conditioned media from a negative control CHO cell line or from the neublastin producing CHO cell line #25 was added to each of 3 wells. The plate was incubated for 3h at room temperature and shaken gently (300 strokes/min). The wells were then washed twice with PBST. 25 ml of non-reducing Laemii loading buffer was
SUBSTITUTE SHEET ( rule 26)
added to the first well and the plate was shaken rapidly for 5 min to elute the bound proteins (1300 strokes/min). The content was transferred to the next well and the procedure was repeated to elute the proteins bound in the second and third wells.
After adding b-mercaptoethanol (5% final), the samples were boiled for 5 minutes and analysed by SDS-PAGE on a 10-20% polyacrylamide gel.
For westem blot analysis, the proteins were transferred to nitrocellulose. The membrane was blocked and probed in 5% non fat dry milk, PBST and washed in
PBST. Neublastin was detected by electrochemoluminescence after reaction with polyclonal antibodies (R30 and R31) raised against two neublastin peptides (at 1ug/ml) followed by reaction with HRP-conjugated goat anti-rabbit antibodies (BioRad). As shown in Figure 13, five neublastin specific bands were detected in the extracted proteins from the neublastin producing CHO cell line (lane 2). The lower two bands are very similar to the bands observed in Figure 12; again, the lower band probably represents the mature domain of neublastin generated after cleavage of the pro- domain.
Subsequent analysis (data not shown) of the bands in Figure 13 shows that deglycosylation with PGNase F of the approximately 18 kD band reduces that band to a size equivalent to the lower-most band in the gel of Figure 13. This suggests that neublastin may be produced as a glycosylated protein in mammalian cells. : Expression of Neublastin in E. coli
In order to express the neublastin gene in E. coli, syngenes were constructed with lower GC content and preferred E. coli codons. The syngene is being cloned into two vectors, pET19b and pMJB164, a derivative of pET19b. The construction with pET19b is shown in Figure 14. In this construct, the sequence encoding the mature domain of neublastin (NBN113) is directly fused to an initiating methionine. The construction with pMJB164 is shown in Figure 15. In this construct, the mature domain of neublastin is fused to a histidine tag (i.e. 10 histidines) separated by an enterokinase cleavage site. The initiating methionine precedes the histidine tag.
Nucleotide sequence encoding neublastin in Figure 14
ATGGCTGGAGGACCGGGATCTCGTGCTCGTGCAGCAGGAGCACGTGGCTGTCG
TCTGCGTTCTCAACTAGTGCCGGTGCGTGCACTCGGACTGGGACACCGTTCCGA
CGAACTAGTACGTTTTCGTTTTTGTTCAGGATCTTGTCGTCGTGCACGTTCTCCG
CATGATCTATCTCTAGCATCTCTACTAGGAGCCGGAGCACTAAGACCGCCGCCG
GGATCTAGACCTGTATCTCAACCTTGTTGTAGACCTACTAGATACGAAGCAGTAT
CTTTCATGGACGTAAACTCTACATGGAGAACCGTAGATAGACTATCTGCAACCGC
ATGTGGCTGTCTAGGATGATAATAG [SEQ ID NO: 29]
SUBSTITUTE SHEET ( rule 26)
Nucleotide sequence encoding his-tagged neublastin in Figure 15
ATGGGCCATCATCATCATCATCATCATCATCATCACTCGAGCGGCCATATCGACG
ACGACGACAAGGCTGGAGGACCGGGATCTCGTGCTCGTGCAGCAGGAGCACGT
GGCTGTCGTCTGCGTTCTCAACTAGTGCCGGTGCGTGCACTCGGACTGGGACAC
CGTTCCGACGAACTAGTACGTTTTCGTTTTITGTTCAGGATCTTGTCGTCGTGCAC
GTTCTCCGCATGATCTATCTCTAGCATCTCTACTAGGAGCCGGAGCACTAAGACC
GCCGCCGGGATCTAGACCTGTATCTCAACCTTGTTGTAGACCTACTAGATACGAA
GCAGTATCTTTCATGGACGTAAACTCTACATGGAGAACCGTAGATAGACTATCTG
CAACCGCATGTGGCTGTCTAGGATGATAATAG [SEQ ID NO: 30]
Example 6: Effect of Neublastin on the survival of Rat Embryonic Dopaminergic
Neurons and ChAT Activity.
In this series of experiments the effect of conditioned medium from neublastin- producing HiBS5pUbi1zNBN22 cells described above was assessed.
Preparation of Cultures: The ventral mesencephalon or spinal chord was dissected out from rat E14 embryos in cold Hanks Buffered Salt Solution (HBSS).
Tissue pieces were incubate in sterile filtered 0.1% trypsin (Worthington) and 0.05%
DNase (Sigma) in HBSS at 37°C for 20 min. Tissue pieces was then rinsed four times in HBSS + 0.05% DNase and dissociated using a 1 ml automatic pipette. The suspension was then centrifuged at 600 rpm for 5 min and the pellet was re- suspended in serum conditioned medium (SCM; DMEM with 10% foetal calf serum).
The total number of cells was assessed by tryphan blue dye exclusion method and plated at a density of 100.000 cells/cm2 in poly-L-lysine coated eight-well chamber slides (Nunc) for assessment of dopaminergic neuron survival or at 200 0600 cells/cm? in 48 well plates (Nunc) for ChAT activity measurements. Cells were incubated in SCM at 5% CO2/95% 02 and 95% humidity in 37°C for 24-48h before changing to serum free medium (SFM) with addition of neurotrophic factors.
Cells for assessing dopaminergic neuron survival was left for 5 days in SFM + trophic factor additions and then fixed for 5 min in 4% PFA and stained for tyrosine hydroxylase by immunohistochemistry.
Cells for ChAT activity were left for 3 days with SFM and then lysed in HBSS + 0.1% Triton X-100 and immediately frozen down on dry ice until Chat activity measurement.
Trophic Factor Addition: Conditioned medium was collected from non- transfected HiBS control or HiBS producing neublastin (HiB5pUbi1zNBN22) or GDNF (HiB5pUbi1zGDNF-L17). HiB5pUbi1zNBN22 produces approximately 20 ng
GDNF/24 hours/10° cells as determined by GDNF-ELISA on conditioned medium,
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collected from the cells. The respective cell lines were incubated ovemight with
DMEM + 1% FCS and the supernatant was taken off and stored at —20°C until use.
The supernatants were diluted in 1:50 in SFM when added to the cells. Separate wells were treated with HiB5 control supernatant (1:50) + purified recombinant rat GDNF (from 0.03 —- 10 ng/ml).
The results of these experiments are shown in Fig. 4. FIGS. 4A-4C are illustrations of the effect of neublastin, secreted from HiB5pUbi1zNBN22 cells, on the survival of cultured rat embryonic, dopaminergic, ventral mesencephalic neurons and
ChAT activity in cholinergic cranial nerve motor neurons in serum-free medium as described infra in Example 5.1.
FIG. 4A is an illustration of the dose-response curve for recombinant GDNF on
ChAT activity (dpm/hour) measured at DIV5 in serum-free cultures which were initiaily established from E14 ventral mesencephali [i.e., HiB5; GDNF 0.03 ng/ml; GDNF 0.1 ng/ml; GDNF 0.3 ng/ml; GDNF 1 ng/ml; GDNF 10 ng/ml; GDNF 100 ng/ml].
FIG. 4B is an illustration of ChAT activity (dpm/hour) measured at DIVS in serum-free cultures which were initially established from E14 ventral mesencephali.
Diluted conditioned medium from either neublastin producing HiB5pUbi1zNBN22 cells (neublastin) or GDNF-producing HiBSGDNFL-17 (GDNFL-17) cells were added as indicated in the figure [i.e., neublastin 1:10; neublastin 1:50; GDNF L-17 1:50].
FIG. 4C is an illustration of the number of tyrosine hydroxylase immunoreactive cells per well [No. TH+ cells/well] at DIV7 in serum-free cultures which were initially established from E14 rat ventral mesencephali. Diluted conditioned medium from either non-transfected HiB5 cells (HIBS) or neublastin-producing HiB5pUbi1zZNBN22 cells (neublastin) or recombinant GDNF, in various concentrations, were added as indicated in the figure [i.e., HiB5S 1:10; HiB5 1:40; GDNF 0.1 ng/ml; GDNF 10 ng/ml,
GDNF 100 ng/ml; and neublastin 1:40].
Conditioned medium from neublastin transfected HiB5 cells diluted 1:40 significantly increases the number of TH immunoreactive cells pr. well compared to control (untransfected) HiB5 cells at an equivalent and a lower dilution (1:10 and 1:40) (see, e.g., Fig. 4B). The increase in TH-immunoreactive cells are comparable to the increase seen at a maximal GDNF concentration (10 ng/ml). This indicates that neublastin secreted to the medium has an effect on survival of the dopaminergic neuron population from rat embryonic ventral mesencephalon. In contrast, unlike
GDNF secreted from transfected HiB5 cells, no effect of conditioned medium from neublastin transfected HiB5 cells is seen on another neuronal population in the same culture, the cholinergic neurons (see, e.g., Fig. 4A).
SUBSTITUTE SHEET ( rule 26)
Example 7: Effect of Neublastin on the survival of slice cultures of pig embryonic dopaminergic ventral mesencephalic neurons
In this experiment the effect of co-culturing neublastin-producing
HiBS5pUbi1zZNBN22 cells with slice cultures of ventral mesencephali from porcine embryos.
Preparation of Cultures: Ventral mesencephali (VM) were isolated from porcine embryos (E28; n=12) under sterile conditions, chopped into 400 um slices and placed in chilled Gey’s balanced salt solution (GIBCO) with glucose (6.5 mg/ml). The tissue slices were cultured by the interface culture method, originally developed by Stoppini et al. [L. Stoppini, P.A. Buchs, D. Muller, J. Neurosci. Methods 1991 37 173-182].
In brief, slices were placed on semi-porous membranes (Millipore, 0.3 um; 8 slices/membrane corresponding to one VM) placed as inserts in 6-well plates (Costar) with serum containing medium (Gibco BRL). Each well contained 1 mi medium (50%
Optimem, 25% horse serum, 25% Hank's balanced sait solution (all GIBCQ)) supplemented with D-glucose to a final concentration of 25 mM. At day 0, 7000 transfected HiBS5pUbi1zNBN22 (neublastin) or 7000 non-transfected HiB5 cells (control) were seeded on each tissue slice. The co-cultures were first grown in an incubator at 33°C for 48 hours allowing the HiB5 cells immortalised with a temperature sensitive oncogene to proliferate, and then placed in an incubator at 37°C, where the
HiBS cells differentiate. The medium was changed twice a week. Antimitotics and antibiotics were not used at any stage.
Determination of Dopamine by HPLC: At day 12 and 21 in vitro, the culture medium was collected and analysed for dopamine using HPLC with electrochemical detection (W.N. Slooth, J.B.P. Gramsbergen, J. Neurosci. Meth. 1995 60 141-49).
Tissue Processing and Immunohistochemistry: At day 21, the cultures were fixed in 4% paraformaldehyde in phosphate buffer for 60 min., dehydrated in a 20% sucrose solution for 24 hours, frozen, cryostat sectioned at 20um (4 series), and mounted onto gelatine coated microscope slides. One series of sections was immunostained for tyrosine hydroxylase (TH). Briefly, sections were washed in 0.05M tris-buffered saline (TBS, pH 7.4) containing 1% Triton X-100 for 3x15 min. and incubated with 10% fettle bovine serum (FBS, Life Technologies) in TBS for 30 min.
The tissue was then incubated for 24 hours at 4°C with monoclonal mouse anti-TH antibody (Boehringer Mannheim) diluted 1:600 in TBS with 10% FBS. After rinsing in
TBS with 1% Triton X-100 for 3x15 min., sections were incubated for 60 min. with bio- tinylated anti-mouse IgG antibody (Amersham) diluted 1:200 in TBS with 10% FBS.
The sections were then washed in TBS with 1% Triton X-100 (3x15 min.) and incubated for 60 min. with streptavidin-peroxidase (Dako) diluted 1:200 in TBS with 10% FBS. After washing in TBS (3x15 min.), bound antibody was visualised by
SUBSTITUTE SHEET ( rule 26)
treatment with 0.05% 3,3-diaminobenzidine (Sigma) in TBS containing 0.01% H20..
Finally, the sections were dehydrated in alcohol, cleared in xylene, and cover-slipped in Eukitt.
Cell counts and morphometric analysis: Quantification of immunoreactive
TH-ir neurons was performed using bright field microscopy (Olympus). Only cells displaying an intense staining with a well preserved cellular structure and a distinct nucleus were counted. The estimation was based on cell counts in every fourth culture section using a x20 objective. Cell numbers were corrected for double counting according to Abercrombie's formula (M. Abercrombie, Anat. Rec. 1946 94 238-47), using the average diameter of the nuclei in the TH-ir neurons (6.6 + 0.2um, n = 30).
The size of the nuclei was estimated using a neuron tracing system (Neurolucida,
MicroBrightField, inc.).
The results of these experiments are shown in Fig. 5. FIGS. 5A-5C are illustrations of the effect of neublastin secreted from HiBSpUbi1zNBN22 cells on the function and survival of slice cultures of pig embryonic dopaminergic ventral mesencephalic neurons co-cultured with either HiB5pUbi1zNBN22 cells (neublastin) or
HiB5 cells (control) as described infra. FIG. 5A and Fig. 5B: illustrate dopamine released to the medium at DIV12 [Dopamine (pmol/ml) - day 12] and DIV21 [Dopamine (pmol/mi) - day 21], respectively. FIG. 5C is an illustration of the number of tyrosine hydroxylase immunoreactive cells per culture [TH-ir cells per cuiture] at
DIV21.
At day 12 HPLC analysis revealed that medium from HiB5-neublastin co- cultures contained 84% more dopamine than medium from HiB5-C co-cultures (Fig. 5A). At day 21 the difference was 78% (Fig. 5B), and cell counts showed that HiB35- neublastin co-cultures contained 66% more tyrosine hydroxylase immunoreactive neurons than HiB5-C co-cultures (P<0.05) (Fig. 5C). This indicates, that neublastin secreted from the HiB5pUbi1zNBN22 clone has a potent survival effect on embryonic porcine dopaminergic neurons.
Example 8: Survival of Dorsal Root Ganglion Cells in Serum-free Medium
This example shows the neurotrophic activity of a neublastin polypeptide in comparison with known neurotrophic factors.
Pregnant female mice were killed by cervical dislocation. The embryos were processed for culture as follows.
Electrolytically sharpened tungsten needles were used to dissect dorsal root ganglia from indicated stages of C57/BI6 mice (Mollegaard Breeding, Denmark).
Embryonic ganglia were incubated for 5 minutes at 37°C with 0.05% trypsin (Gibco/BRL) in calcium and magnesium-free Hanks balanced sait solution. Postnatal
SUBSTITUTE SHEET ( rule 26)
ganglia were treated with collagenase/dispase 1mg/ml for 30 to 45 minutes and then trypsin/DNAse 0,25% for 15 minutes. After removal of the trypsin solution, the ganglia were washed once with 10 ml of DMEM containing 10% heat inactivated horse serum, and were gently triturated with a fire-polished Pasteur pipette to give a single cell suspension.
The celis were plated on 24 well plates (Nunc), that were precoated with polyornithine (0.5 mg/ml, overnight) and laminin (20 mg/ml for 4 h; Gibco/BRL). The neurons were incubated at 37°C in a humidified 5% CO; incubator in a defined medium consisting of Hams F14 supplemented with 2 mM glutamine, 0.35% bovine serum albumin, 60 ng/ml progesterone, 16 mg/ml putrescine, 400 ng/ml L-thyroxine, 38 ng/ml sodium selenite, 340 ng/ml triilodo-thyronine, 60 mg/ml penicillin and 100 mg/ml streptomycin.
After 48 hours of incubation, neurons were clearly recognised by their bipolar morphology under phase-contrast optics. The percentage neuronal survival in the absence or presence of trophic factors (added to the culture medium prior to plating the neurons at 10 ng/ml), or of conditioned medium from the neublastin producing
HiBSpUbi1zNBN22 cells, was assessed by counting the neurons in the wells at 48 hours.
The results of these experiments are presented in Fig. 9, in which figure: 0 represents the control experiment (in absence of factors); 1 represents experiments in the presence of GDNF: 2 represents experiments in the presence of Neurturin; 3 represents experiments in the presence of Neublastin of the invention;
E12 represents data from experiments carried out on DRG cells isolated from embryonic day 12;
E16 represents data from experiments carried out on DRG cells isolated from embryonic day 16:
PO represents data from experiments carried out on DRG cells isolated from the day of birth;
P7 represents data from experiments carried out on DRG cells isolated from day 7 after birth; and
P15 represents data from experiments carried out on DRG cells isolated from day 15 after birth.
These results clearly show that the neurotrophic factor of the invention show activities comparable to, or even better than those of the well established neurotrophic factors.
SUBSTITUTE SHEET ( rule 26)
Example 9: In vivo effects of neublastin on nigral dopamine neurons
In order to test the ability of neublastin (neublastin) to protect adult nigral dopamine (DA) neurons from 6-hydroxydopamine induced degeneration, we employed a rat model of Parkinson's disease (Sauer and Oertel, Neuroscience 1994 59, 401- 415) and lentiviral gene transfer of neublastin.
Lentivirus production: To generate a lentiviral transfer vector encoding neublastin, pHR'-neublastin, a 1331 bp BamH1 fragment from neublastin cDNA was subcloned in the BamH1/Bgl II site of pSL301 (Invitrogen). From this construct a 1519 bp BamH1/Xho1 fragment was cut out and ligated in the BamH1/Xho1 site of pHR' carrying a woodchuck hepatitis virus post-translational fragment (Zufferey R, Donello
JE, Trono D, Hope TJ. Woodchuck hepatitis virus posttranscriptional regulatory element enhances expression of transgenes delivered by retroviral vectors”; J. Virol. 1999 73 (4) 2886-2892). To generate pHR-GDNF a 701 bp BamH1/Xho1 fragment from pUbi1z-GDNF was ligated in the BamH1/Xho1 site of pHR'.
Production of the lentiviral vector have been described by e.g. Zufferey et al. (Zufferey R, Nagy D, Mandel RJ, Naldini L, Trono D: “Multiply attenuated lentiviral vector achieves efficient gene delivery in vivo; Nat. Biotechnol. 1997 15 (9) 871-875).
Briefly, the transfer constructs and the helper plasmids pR8.91 and pMDG were co- transfected into 293T cells. Virions released into the media were collected at 48 and 72 hrs post-transfection. To concentrate the virus, the media was centrifuged 1.5 hrs at 141 000g, and the pellet dissolved in DMEM. The titer of a control carrying the gene for Green Fluorescent Protein (“GFP”) was determined to be 108 transforming units (TU) /ml by GFP fluorescence in 293T cells. A RNA slot blot technique (von Schwedler
U, Song J, Aiken C, Trono D: "Vif is crucial for human immunodeficiency virus type 1 proviral DNA synthesis in infected cells”; J. Virol. 1993 67 (8) 4945-4955) was used to determine viral particle titer. In the GDNF supernatant and neublastin supernatant there was 10 times less particles as compared to the GFP supernatant.
Surgical Procedures: All work involving animals was conducted according to the rules set by the Ethical Committee for Use of Laboratory Animals at Lund
University.
A total of 21 young adult female Sprague-Dawley rats (B&K Universal,
Stockholm, Sweden) were used and housed under 12 hours light:dark cycle with free access to rat chow and water. Retrograde labelling and 6-OHDA lesions were performed 3 weeks prior to lesion according to Sauer and Qertel )Sauer and Oertel,
Neuroscience 1994 §9 401-415). Briefly, under Equithesin anaesthesia (0.3 ml/100g) the rats were injected bilaterally with 0.2pl of a 2% solution (dissolved in 0.9% NaCl) of the retrograde tracer Fluoro-Gold (FG; Fluorochrome, inc., Englewood, CO). Injections were made using a 2 pul Hamilton syringe at co-ordinates: AP= +0.5 mm; ML= 13.4 mm
SUBSTITUTE SHEET ( rule 26)
relative to bregma; DV= -5.0 mm relative to the dura and incisor bar set to 0.0 mm. In addition, 0.05plU/min was injected with another 5 min left before the needle was retracted.
Fourteen days after the FG injections animals received a total of 5 deposits (1uldeposit) of a lentiviral vector carrying the gene for green fluorescent protein (GFP), neublastin or GDNF. Four of the deposits were into the striatum along two needle tracts at the following co-ordinates: AP= +1.0 mm, ML= -2.6mm, DV; =5.0mm
DV;=-4.5mm and AP= 0.0mm, ML= -3.7mm, DV, =-5.0mm DV.=4.5mm. The supranigral deposit was made at AP= -5.2 mm, ML= -2.0 mm, DV, =-6.3 mm. Tooth bar was set at =2.3 mm.
Twenty-one days after retrograde labelling, and 7 days after lentiviral injections the animals were re-anaesthetised and with a 10ul Hamilton syringe a single deposit of 20pug 6-OHDA (Sigma; calculated as free base and dissolved in 3pi ice cold saline supplemented with 0.02% ascorbic acid) was injected into the right striatum in the same location as the FG deposits. The injection rate was 1pl/min, leaving another 3 min before retracting the needle.
Tissue Processing: At 21 days after the 6-OHDA injection the animals were deeply anaesthetised with chloral hydrate and transcardially perfused with saline (pH 7.4; room temperature) for one min followed by 200 ml ice cold formaldehyde solution (4% paraformaldehyde in 0.1M phosphate buffer, pH 7.4). The brains were dissected and postfixed in the same fixative for 3-4 hours and then transferred into 25% sucrose/0.1M phosphate buffer for 48 hours. Five series of 40um sections through the striatum and substantia nigra (SN) were cut on a freezing microtome.
Quantitative Assessment of Dopaminergic Neurons in the SN: The number of FG-labelled in the SN pars compacta was assessed by a blinded observer as described previously (Sauer and Oertel, Neuroscience 1994 59, 401-415). In brief, three consecutive sections centred around the level of the medial terminal nucleus of the accessory optic tract (MTN; -5.3 in the atlas of Paxinos and Watson (1997)) were used and all labelled/stained neurons laterally to the MTN was counted at 40 x magnification (n=6-7/group). FG-labelled neurons were included if they were brightly fluorescent under epi-illumination at 330 nm, displayed a neuronal profile and extend at least one neuritic process.
On the lesion side in animals receiving injections of lentivirus carrying GFP the number of FG-positive nigral neurons were reduced to 18% of that on the intact side.
In contrast, animals injected with lenti-neublastin showed a near complete protection of the number of FG-positive nigral neurons (89%). This was as efficient as lenti-
GDNF treated animals where 87% of the retrogradely labelled neurons remained on
SUBSTITUTE SHEET ( rule 26)
the lesioned side. This shows that neublastin is a potent survival factor for lesioned adult nigral dopamine neurons and that it is as potent as GDNF.
FIG. 6 is an illustration of the in vivo effect of lentiviral-produced neublastin on nigral dopamine neurons. Neurons of the SN pars compacta, in female Sprague
Dawley rats, were retrogradely-labelled with Fluorogold (FG), 3 weeks prior to a single injection of 6-hydroxydopamine (6-OHDA) in the right striatum. One week before the 6-OHDA injection, the animals received injections with lentiviral vectors expressing neublastin [neublastin], GDNF [GDNF] or the Green Fluorescent Protein [GFP] as indicated in the figure. Twenty one days after the 6-OHDA injections, the number of
FG-labelled neurons in both sides of the striata were determined. The figure shows the percentage [%FG lesion/intact] of FG-labelled neurons in the lesioned (right) side verses the intact (left) side of the striata of the three groups of animals.
Example 10: Production of Antibodies
To prepare antibodies against neublastin, two rabbits were immunised with either peptide 1: CRPTRYEAVSFMDVNST (amino acids 108-124 of SEQ ID NO: 9); or peptide 2: ALRPPPGSRPVSQPC (amino acids 93-107 of SEQ ID NO: 9) conjugated to carrier protein at 3 week intervals. Two rabbits for each peptide were immunised at week 0, 3, 6 and 10, and bleeds were collected at week 7 and 11. The second bleed was affinity purified via a peptide affinity column. The antibodies were named Ab-1 and Ab-2, according to the peptide.
Western blot: 2 x 10° HiB5 cells, stably transfected with the cDNA for neublastin (Hib5pUbi1zNBN22), or untransfected HiB5 cells, were incubated overnight in serum free medium with N, supplement (GIBCO). The medium was concentrated on small concentrators with cut-off membranes of 5 kDa (Millipore, Bedford, MA). Concentrated samples were added 5 x Laemmli sample buffer and were heated to 95°C for 5 minutes. Samples were separated by SDS polyacrylamide gel electrophoresis on 15% acrylamide gels and transferred to PVDF-membranes. Residual protein-binding sites were blocked with 5% non-fat dry milk in PBS with 0.1% Tween-20. Membranes were incubated overnight with neublastin antibody (1:1000), followed by incubation with a secondary anti-rabbit or anti-mouse IgG antibody conjugated to horseradish peroxidase (1:2000).
Immunostaining was visualised using enhanced chemoluminiscence Plus (ECL+) according to the manufacturer's instructions (Amersham). The results of these experiments are shown in FIG. 3 and Example 5.
Using standard techniques, we also raised rabbit polyclonal antibodies against the following peptides:
SUBSTITUTE SHEET ( rule 26)
Peptide R27: GPGSRARAAGARGC (amino acids 30-43 of SEQ ID NO: 9);
Peptide R28: LGHRSDELVRFRFC (amino acids 57-70 of SEQ ID NO: 9);
Peptide R29: CRRARSPHDLSL (amino acids 74-85 of SEQ ID NO: 9);
Peptide R30: LRPPPGSRPVSQPC (amino acids 94-107 of SEQ ID NO: 9); and
Peptide R31: STWRTVDRLSATAC (amino acids 123-136 of SEQ ID NO: 9).
Only peptides R30 and R31, relatively close to the C-terminus, recognised the denatured protein under reducing conditions on a Western blot.
SUBSTITUTE SHEET ( rule 26)
Claims (14)
1. An isolated neublastin nucleic acid comprising the sequence of any one of SEQ ID NOS: 1, 3, 8, 13, 14, 15, 29 and 30.
2. A nucleic acid sequence comprising an open reading frame which encodes neublastin neurotrophic factor or a unique subregion thereof, and which codes on expression for a neublastin polypeptide which comprises at least 70% homology to SEQIDNOS: 2,4,5,6,7, 9,10, 11, 12, and 16.
3. A nucleic acid that hybridizes specifically under high stringency solution hybridization conditions to the nucleic acid of claim 1 or 2.
4. A nucleic acid that comprises a nucleic acid sequence that is complementary to the nucleic acid of claim 3.
5. A method of using a nucleic acid of any one of claims 1-4, comprising the step of causing a polypeptide encoded by said nucleic acid to be expressed in a cell.
6. The method of claim §, further comprising the step of administering said nucleic acid to an animal, and causing said polypeptide to be expressed in said animal.
: 7. A vector comprising the nucleic acid of any one of claims 1-4.
8. The vector of claim 7, wherein said vector is an expression vector.
9. A method of using the vector of claim 8, comprising the step of causing a polypeptide encoded by said nucleic acid to be expressed from said nucleic acid.
10. A cell transformed with the nucleic acid of any one of claims 1-4.
11. The cell of claim 10, wherein said cell is selected from the group consisting of mammalian cells, fungal cells, yeast cells, insect cells and bacterial cells.
12. The method of claim 11, wherein said cell is a Chinese hamster ovary cell. SUBSTITUTE SHEET ( rule 26)
13.The method of claim 11, wherein said cell is a cell derived from the mammalian central nervous system.
14.A neublastin neurotrophic factor polypeptide comprising any one of the amino § acid sequences set forth in SEQ ID NOS: 2, 4, 5, 6, 7, 9, 10, 11, 12 and 16.
15. The polypeptide of claim 14, wherein said polypeptide is glycosylated.
16. The polypeptide of claim 14, wherein said polypeptide is coded for by a nucleic acid of any one of claims 1-4.
17.A method of making the polypeptide of any one of claims 14-16, said method comprising the step of expressing said polypeptide from a neublastin neurotrophic factor nucleic acid.
18.The method of claim 17, comprising the step of culturing a cell comprising said neublastin neurotrophic factor nucleic acid in a culture medium which permits the production of said polypeptide.
19.The method of claim 18, further comprising the step of recovering said polypeptide from said culture medium.
20.A purified polypeptide obtained by the method of claim 19.
21.A composition comprising the polypeptide of any one of claims 14-16 and 20, and a pharmaceutically acceptable carrier.
22. A polypeptide having an amino acid sequence which is at least 90% homologous to any one of the sequences set forth in SEQ ID NOS: 2,4,56,7,9, 10, 11, 12 and 16.
23.A method of administering the polypeptide of any one of claims 14-16 and 20, comprising the step of delivering said polypeptide to an in vitro cell culture or in vivo to a mammal.
24. The method of claim 23, wherein said administration comprises systemic administration. SUBSTITUTE SHEET ( rule 26)
25.The method of claim 23, wherein said mammal is afflicted with a condition selected from the group consisting of cerebral ischaemic neuronal damage, traumatic brain injury, peripheral neuropathy, Alzheimers disease, Huntington's disease, Parkinson’s disease, amyotrophic lateral sclerosis, and memory impairment.
26.The method of claim 23, wherein said mammal is afflicted with a neuronal disorder of the peripheral nervous system, the medulla, or the spinal cord.
27. A method of treating a neurodegenerative disease or disorder in an animal, comprising administering to said animal one or more of the neublastin nucleic acids set forth in SEQ ID NOS: 1, 3, 8, 13, 14, 15, 29 and 30.
28. A method of treating a neurodegenerative disease or disorder in an animal, comprising administering to said animal a neublastin polypeptide one or more of the neublastin polypeptides set forth in SEQ ID NOS: 2,4, 5,6, 7, 9, 10, 11, 12 and 16.
29.An antibody that binds to any one of the polypeptides set forth in SEQ ID NOS: 2,4,5,6,7,9, 10, 11, 12 and 16.
30. The antibody of claim 29, wherein said antibody is a monoclonal antibody.
31. A method of determining whether a neurodegenerative disease or disorder in an animal is associated with an altered activity in a neublastin neurotrophic factor polypeptide, said method comprising the steps of: (a) contacting a biological sampie from said animal with the antibody of claims 29 or 30, and (b) determining whether an immune complex forms between said antibody and said protein as an indication of whether said neural condition results from an altered level of activity in said neublastin neurotrophic factor polypeptide.
32.The method of claim 31, further comprising the step of comparing a level of said immune complex that forms in said sample with a level of said immune complex that forms in a corresponding biological sample from a patient lacking said neural condition, and determining from said comparison whether said disease or disorder results from said abnormality in a neublastin neurotrophic factor polypeptide.
33. A nucleic acid comprising any one of the sequences set forth in SEQ ID NOS: 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 31 and 32. SUBSTITUTE SHEET ( rule 26)
34. A method of producing any one of the polypeptides set forth in set forth in SEQ ID NOS: 2, 4, 5,6, 7, 9, 10, 11, 12 and 16, comprising culturing a cell that contains any one of the nucleic acid sequences set forth in SEQ ID NOS: 1, 3, 8, 13, 14, 15 29 and 30 under conditions permitting the production of the polypeptide, and recovering the polypeptide from the culture medium.
35. A method for producing a neublastin polypeptide comprising: (a) introducing a polynucleotide which codes on expression for a neublastin polypeptide into a cell or introducing a regulatory sequence by homologous recombination into a cell, such that the regulatory sequence regulates expression of an endogenous neublastin gene, to make a neublastin production cell; (b) culturing the neublastin production cell under culture conditions which result in expression of a neublastin polypeptide.
36. A neublastin polypeptide comprising: (a) conserved Cys residues; (b) at least 70% homology to any one of the sequences set forth in SEQ {ID NOS: 2,4,5,6,7,9, 10, 11, 12, and 16, wherein said neublastin polypeptide exhibits neurotrophic activity.
37. The neublastin polypeptide of claim 36, wherein the polypeptide has a C- terminal amino acid sequence as set forth in AA7,-AA gs of SEQ ID NO: 2.
38. The neublastin polypeptide of claim 36 wherein the polypeptide has a C- terminal amino acid sequence as set forth in AA4;-AAqgs of SEQ ID NO: 2
39. The neublastin polypeptide of any one of claims 36, 37 or 38, wherein said homology to any one of the sequences set forth in SEQ ID NOS: 2, 4, 5, 6, 7, 9, 10, 11, 12, and 16 is greater than 85%.
40. The neublastin polypeptide of any one of claims 36, 37 or 38, wherein said homology to any one of the sequences set forth in SEQ ID NOS: 2, 4, 5, 6, 7, 9, 10, 11, 12, and 16 is greater than 95%.
41. A neublastin polypeptide of any one of SEQ ID NOS: 2, 4, 5,6, 7, 9, 10, 11, 12, and 16, and vanants thereof with conservative amino acid substitutions. SUBSTITUTE SHEET (rule 26)
42. The neublastin polypeptide of claim 41 wherein the conservative amino acid substitutions represent less than 10% of the total number of residues in the polypeptide.
43. The neublastin polypeptide of claim 41 wherein the conservative amino acid substitutions represent less than 2% of the polypeptide.
44. The neublastin polypeptide of claim 41 wherein the conservative amino acid substitutions represent a single amino acid substitution in the mature sequence, wherein the both the substituted and replacement amino acid are non-cyclic.
45. An isolated nucleic acid sequence as set forth in any one of SEQ ID NOS: 17-28 and 31-32.
46. An isolated nucleic acid sequence comprising nucleotides 721 - 865 of SEQ ID NO: 1, nucleotides 718 - 861 of SEQ ID NO: 3, nucleotides 718 - 861 of SEQ ID NO: 8, and nucleotides 1647 - 2136 of SEQ ID NO: 15. :
47. An isolated nucleic acid sequence consisting of between 10-25 contiguous base pairs falling within or produced from any one of the sequences of claim 46.
48. An isolated nucleic acid sequence comprising nucleotides 1-10 of SEQ ID NO: 1, nucleotides 1 - 57 of SEQ ID NO: 8, nucleotides 1-974 of SEQ ID NO: 15
49. An isolated nucleic acid sequence consisting of between 10-25 contiguous base pairs falling within or produced from any one of the sequences of claim 48.
50. A method for identifying, isolating or amplifying a neublastin nucleic acid sequence comprising using the nucleic acids of any one of claims 45-49, 43, 44 or 45 as a primer or a probe.
51. A neublastin nucleic acid isolated by the method of claim 50.
52. An isolated nucleic acid sequence comprising the sequence set forth in SEQ ID NOS: 13 or 14. SUBSTITUTE SHEET ( rule 26)
53. A synthetic gene encoding a neublastin polypeptide, the synthetic gene as set forth in SEQ ID NOS: 29 or 30.
54. An antibody to a neublastin peptide or neublastin polypeptide, wherein said antibody is generated using any one of peptides: GPGSRARAAGARGC (AA30-43 of SEQ ID NO: 9); LGHRSDELVRFRFC (AA 57-70 of SEQ ID NO: 9); CRRARSPHDLSL (AA 74-85 of SEQ ID NO: 9); LRPPPGSRPVSQPC (AA 94-107 of SEQ ID NO: 9); STWRTVDRLSATAC (AA 123-136 of SEQ ID NO: 9). CRLRSQLVPVRALGLGHRSDELVRFRFC (AA43-70 of SEQ ID NO: 9); CRRARSPHDLSLASLLGAGALRPPPGSRPVSQPC (AA74-107 of SEQ ID NO: 9); CRPTRYEAVSFMDVNSTWRTVDRLSATAC (AA108-136 of SEQ ID NO: 9); CRPTRYEAVSFMDVNST (AA108-124 of SEQ ID NO: 9); and ALRPPPGSRPVSQPC (AA93-107 of SEQ ID NO: 9).
55. The neublastin polypeptide of claim 36 wherein said polypeptide comprises seven cysteine residues conserved as set forth in SEQ ID NO: 2 at positions 8, 35, 39, 72,73, 101 and 103, or as in SEQ ID NOS: 4 and 9 at positions 43, 70, 74, 107, 108, 136 and 138.
56. A kit comprising, in one or more containers, a substance selected from the group consisting of a neublastin polypeptide, an antibody against a neublastin polypeptide, nucleic acid probes capable of hybridizing to RNA of neublastin, or pairs of nucleic acid primers capable of priming amplification of at least a portion of a neublastin gene.
S57. A method of diagnosing or screening for the presence of or a predisposition for developing a disease or disorder characterised by an aberrant level of a neublastin polypeptide in a subject comprising measuring the level of said neublastin polypeptide, RNA encoding the neublastin polypeptide, or functional activity of the neublastin polypeptide in a sample derived from the subject, in which an increase or decrease in the level of the neublastin polypeptide, neublastin RNA, or functional activity of neublastin polypeptide in the sample, relative to the level of the neublastin polypeptide, neublastin RNA or functional activity of neublastin found in an analogous sample not having the disease or disorder or a predisposition for developing the SUBSTITUTE SHEET ( rule 26)
disease or disorder, indicates the presence of the disease or disorder or a predisposition for developing the disease or disorder.
58. A method for screening a purified neublastin polypeptide, or derivative or fragment thereof, or a modulator of the activity of the foregoing, for activity in treating or preventing a disease, comprising measuring and comparing alterations in the phenotype, genotype, behaviour, survival or proliferation of cells from a cell line or test animal which are derived from or display characteristics associated with the disease, which cells or animals have been contacted with or administered the neublastin polypeptide, derivative, fragment, or modulator, with the phenotype, genotype, behaviour, survival or proliferation in cells or animals not so contacted with or administered the neublastin polypeptide, derivative, fragment, or modulator.
59. A method of treating a neurological disorder selected from the group consisting of peripheral neuropathies in a mammal which comprises administering a therapeutically effective amount of a neublastin polypeptide, wherein said peripheral neuropathy is selected from the group consisting of trauma-induced neuropathies, chemotherapy-induced neuropathies, toxin-induced neuropathies, drug-induced neuropathies, vitamin-deficiency-induced neuropathies; idiopathic neuropathies; and diabetic neuropathies.
60. The method of claim 23 wherein the neublastin is delivered directly into the central nervous system.
61. The method of claim 23 wherein the neublastin is delivered systemically by subcutaneous injection, intravenous administration, or intravenous infusion. administration.
62. A method of using the sequence of one or more nucleic acids of any one of claims 1-4 or 45-49 in a computer program for identifying, isolating or detecting novel nucleic acid sequences.
63. A method of using the sequence of one or more nucleic acids of any one of claims 1-4, 33 or 45-49 on a fixed substrate or DNA chip for identifying, isolating or detecting novel nucleic acid sequences. SUBSTITUTE SHEET ( rule 26)
64. A method of using the sequence of one or more polypeptides of any one of claims 14-16, 20, 22, or 36-44 in a computer program for identifying, isolating or detecting novel nucleic acid sequences.
65. A method for identifying a candidate compound that induces a neuroblastin- mediated biological effect, the method comprising the steps of: (a) providing a test cell, said cell when contacted with neublastin being induced to express a detectable product; (b) exposing the cell to the candidate compound and detecting the detectable product, said expression of the detectable product indicating the ability of the candidate compound to induce said neuroblastin-mediated biological effect. SUBSTITUTE SHEET ( rule 26)
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