EP1196026A1 - Modeles animaux et methodes d'analyse du metabolisme des lipides et criblage d'agents pharmaceutiques et de pesticides modulant le metabolisme des lipides - Google Patents
Modeles animaux et methodes d'analyse du metabolisme des lipides et criblage d'agents pharmaceutiques et de pesticides modulant le metabolisme des lipidesInfo
- Publication number
- EP1196026A1 EP1196026A1 EP00939730A EP00939730A EP1196026A1 EP 1196026 A1 EP1196026 A1 EP 1196026A1 EP 00939730 A EP00939730 A EP 00939730A EP 00939730 A EP00939730 A EP 00939730A EP 1196026 A1 EP1196026 A1 EP 1196026A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- leu
- ser
- val
- ala
- thr
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
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Classifications
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/46—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
- C07K14/47—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
- C07K14/4701—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals not used
- C07K14/4702—Regulators; Modulating activity
- C07K14/4705—Regulators; Modulating activity stimulating, promoting or activating activity
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K67/00—Rearing or breeding animals, not otherwise provided for; New or modified breeds of animals
- A01K67/033—Rearing or breeding invertebrates; New breeds of invertebrates
- A01K67/0333—Genetically modified invertebrates, e.g. transgenic, polyploid
- A01K67/0335—Genetically modified worms
- A01K67/0336—Genetically modified Nematodes, e.g. Caenorhabditis elegans
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2217/00—Genetically modified animals
- A01K2217/05—Animals comprising random inserted nucleic acids (transgenic)
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K2217/00—Genetically modified animals
- A01K2217/07—Animals genetically altered by homologous recombination
- A01K2217/075—Animals genetically altered by homologous recombination inducing loss of function, i.e. knock out
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K2319/00—Fusion polypeptide
Definitions
- SREBP sterol regulatory element binding protein
- SREBPs are also implicated in the process of fat cell differentiation and adipose cell gene expression, particularly as transcription factors that can promote adipogenesis in a dominant fashion (reviewed by Spiegelman et al, Cell (1996) 87:377-389). SREBP function is regulated by intracellular levels of sterols or polyunsaturated fatty acids (PUFAs) (Xu J. et al, J. Biol. Chem. (1999) 274:23577-23583).
- PUFAs polyunsaturated fatty acids
- SREBPs are retained as membrane-bound protein precursors that are kept inactive by virtue of being attached to the nuclear envelope and endoplasmic reticulum (ER) and therefore, excluded from the nucleus.
- An SREBP in its membrane-bound form has large N-terminal and C-terminal segments facing the cytoplasm and a short loop projecting into the lumen of the organelle.
- the N-terminal domain is a transcription factor of the basic-helix-loop- helix-leucine zipper (bHLH-Zip) family, and contains an "acid blob" typical of many transcriptional activators (Brown and Goldstein, Cell (1997) 89:331-340).
- the N- terminal acid blob is followed by a basic helix-loop-helix/leucine zipper domain (bHLH-Zip) similar to those found in many other DNA-binding transcriptional regulators.
- SIP site 1 protease
- a second protease (the site 2 protease, S2P) cleaves the N-terminal fragment and releases the mature N-terminal domain into the cytosol, from which it rapidly enters the nucleus, apparently with a portion of the transmembrane domain still attached at the C-terminus.
- S2P site 2 protease
- S2P homologues have been identified in both vertebrates and invertebrates and have been cloned from human cells and hamster cells (Rawson et al, Molec Cell (1997) 1 :47-57).
- SCAP SREBP Cleavage Activating Protein
- SREBP pathway genes have been identified in invertebrates.
- the isolation of a Drosophila SREBP, referred to as "HLH106" has been described (Theopold et al., Proc. Natl. Acad. Sci., USA, (1996) 93(3): 1195-1199).
- An expressed sequence tag (EST) from Caenorhabditis elegans (C. elegans) which has homology to S2P is described by Rawson et al., supra and is listed in GenBank (Gil 559384). Additionally, GenBank has listed a protein predicted from the C. elegans genome as having HMG-CoA reductase homology (GI3875380).
- the present invention discloses invertebrate SREBP pathway nucleic acids and proteins and methods of use.
- invertebrate model organism genetics can greatly facilitate the elucidation of biochemical pathways, and the identification of molecules that can modulate such pathways. Accordingly, it is an object of the invention to provide invertebrate nucleic acids and polypeptides involved in the SREBP pathway. It is also an object of the invention to provide invertebrate model organisms, including novel mutant phenotypes, for the study of lipid metabolism in general, and more particularly, for the elucidation of the SREBP pathway. It is a further object of the invention to provide methods for screening molecules that modulate lipid metabolism and/or the function of genes and proteins involved in the SREBP pathway.
- SREBP pathway protein is driven by a heterologous promoter that is tissue-specific, developmentally- specific, or inducible, so that the effects of the expression or mis-expression can be observed in specific tissues, at certain developmental stages, or at specified times, respectively.
- the SREBP pathway protein may be linked to one or more selectable markers that allows detection of expression. Typically, the expression of the SREBP pathway protein results in an identifiable phenotype.
- the invention provides novel methods for the in vivo measurement of lipid content using BODIPY-fatty acid conjugates.
- the animal models can be used in genetic screens to identify other genes involved in lipid metabolism. They can also be used for screening small molecule libraries directly on whole organisms for possible therapeutic or pesticide use.
- the invention also provides novel isolated nucleic acids (SEQ ID NOs:l, 3, 5 and 7) and the SREBP pathway proteins encoded thereby (SEQ ID NOs:2, 4, 6, and 8 respectively), as well as derivatives and fragments thereof.
- Methods are provided for constructing vectors containing the isolated nucleic acids. Such vectors can be used for making the animal models of the invention. They can also be introduced into host cells to be used for a variety of purposes including two-hybrid screening assays, production of SREBP pathway proteins, screening small molecules that affect lipid synthesis or metabolism, etc.
- Figs. 1A and IB depict the inactive, membrane-bound form of SREBP (Fig. 1 A) and the two-step proteolytic cleavage that activates SREBP in low sterol conditions (Fig. IB).
- Fig. 2 depicts the presumed interactions between SREBP, SCAP, SIP and S2P in the SREBP processing complex.
- invertebrate model organism genetics and related technologies can greatly facilitate the elucidation of biological pathways (Scangos, Nat. Biotechnol. (1997) 15:1220-1221 ; Margolis and Duyk, supra).
- Drosophila Drosophila melanogaster
- C. elegans Novel SREBP pathway nucleic acids, from Drosophila and C. elegans, and their encoded proteins are identified herein.
- SREBP pathway nucleic acid refers to a nucleic acid that encodes any one of SREBP, SCAP, SIP, and S2P.
- SREBP pathway nucleic acids have led to the discovery of several mutant phenotypes that can be used to study the pathways involved in lipid and fatty acid metabolism.
- invertebrate model organisms such as Drosophila and C. elegans, for analyzing the expression and mis-expression of SREBP pathway proteins has great advantages over the traditional approach of using mammalian cell culture due to the ability to rapidly carry out large-scale, systematic genetic screens. These can identify other components involved in the synthesis, activation, control, and turnover of SREBP pathway proteins.
- model organisms or cultured cells that have been genetically engineered to misexpress SREBP pathway genes can be used to screen candidate compounds or small molecule libraries for their ability to modulate the expression or activity of SREBP pathway proteins. They are therefore useful in the identification of new drug targets, therapeutic agents, diagnostics and prognostics for the treatment of disorders associated with lipid metabolism. Additionally, use of these invertebrate model organisms could lead to the identification and validation of pesticide targets directed to components of the SREBP pathway.
- Nucleic acids of the SREBP pathway can be used to screen candidate compounds or small molecule libraries for their ability to modulate the expression or activity of SREBP pathway proteins. They are therefore useful in the identification of new drug targets, therapeutic agents, diagnostics and prognostics for the treatment of disorders associated with lipid metabolism. Additionally, use of these invertebrate model organisms could lead to the identification and validation of pesticide targets directed to components of the SREBP pathway.
- the present invention provides a nucleic acid sequence (SEQ ID NO:l) that was isolated from C. elegans and encodes an SREBP homologue referred to herein as "ceSREBP".
- the invention also provides nucleic acid sequences that were isolated from Drosophila and encode homologues of S2P (dS2P; SEQ ID NO:3), SCAP (dSCAP; SEQ ID NO:5) and SIP (dSIP; SEQ TD NO:7).
- dS2P SEQ ID NO:3
- SCAP dSCAP
- SEQ ID NO:5 SIP
- SEQ TD NO:7 SIP
- the invention includes the reverse complements thereof.
- nucleic acid sequences, derivatives and fragments thereof may be RNA molecules comprising the nucleotide sequence of any one of SEQ ID NOs 1, 3, 5 and 7 (or derivative or fragment thereof) wherein the base U (uracil) is substituted for the base T (thymine).
- the DNA and RNA sequences of the invention can be single- or double-stranded.
- nucleic acid sequence includes the reverse complement, RNA equivalent, DNA or RNA double-stranded sequences, and DNA/RNA hybrids of the sequence being described, unless otherwise indicated explicitly or by context.
- RNAi Interfering RNA
- ds double-stranded
- SREBP pathway nucleic acid fragments are also useful as nucleic acid hybridization probes and replication/amplification primers.
- Certain "antisense" fragments i.e. that are reverse complements of portions of the coding sequence of SEQ ID NOs: 1, 3, 5, and 7 have utility in inhibiting the function of SREBP pathway proteins.
- the fragments are of length sufficient to specifically hybridize with the corresponding SEQ ID NOs:l, 3, 5, and 7.
- the fragments consist of or comprise at least 12, preferably at least 24, more preferably at least 36, and more preferably at least 96 contiguous nucleotides of SEQ ID NOs: 1, 3, 5, and 7.
- the total length of the combined nucleic acid sequence is less than 15 kilobases (kb), preferably less than 10 kb or less than 5kb, and more preferably less than 2 kb.
- Preferred fragments of ceSREBP contain approximately residues 1090 to 1290, which encode the bHLH-Zip domain.
- Preferred fragments of dS2P include those having at least 1226 contiguous nucleotides of SEQ LD NO:3, and more preferably at least 1231 nucleotides.
- Preferred fragments of dSCAP encode the WD repeats, which are located at approximately nucleotides 2509-2617, 3080-3196, 3208-3325, and 3337-3445.
- Preferred fragments of dSIP encode the extracellular or intracellular domains, which are located at approximately nucleotides 131-1149, 1214-1434, 1499-1560, and 1625-3040.
- Other preferred fragments consist or comprise at least 12 contiguous nucleotides, preferably at least 37 contiguous nucleotides, and more preferably at least 62 contiguous nucleotides of nucleotides 2015-2546 of SEQ ID NO:7.
- dsRNA molecules have utility in RNA interference (RNAi) studies, as described in more detail below, where model organisms exhibiting loss-of-function phenotype are generated.
- dsRNA molecules for RNAi studies are from about 200 to 2000 bp, and are preferably 600-900 bp in size.
- the subject nucleic acid sequences may consist solely of SEQ ID NOs:l, 3, 5, and 7 or fragments thereof.
- the subject nucleic acid sequences and fragments thereof may be joined to other components such as labels, peptides, agents that facilitate transport across cell membranes, hybridization-triggered cleavage agents or intercalating agents.
- the subject nucleic acid sequences and fragments thereof may also be joined to other nucleic acid sequences (i.e. they may comprise part of larger sequences) and are of synthetic/non-natural sequences. They may be isolated and/or are purified and thus unaccompanied by at least some of the material with which they associate in the natural state.
- the isolated nucleic acids constitute at least about 0.5%, and more preferably at least about 5%, by weight, of the total nucleic acid present in a given fraction, and are preferably recombinant, meaning that they comprise a non-natural sequence or a natural sequence joined to nucleotide(s) other than that which it is joined to on a natural chromosome.
- Derivative SREBP pathway nucleic acid sequences include sequences that hybridize to the nucleic acid sequence of SEQ ID NO:l, 3, 5 or 7 under stringency conditions such that the hybridizing derivative nucleic acid is related to the subject nucleic acid by a certain degree of sequence identity.
- a nucleic acid molecule is "hybridizable" to another nucleic acid molecule, such as a cDNA, genomic DNA, or RNA, when a single stranded form of the nucleic acid molecule can anneal to the other nucleic acid molecule.
- Stringency of hybridization refers to conditions under which nucleic acids are hybridizable.
- the degree of stringency can be controlled by temperature, ionic strength, pH, and the presence of denaturing agents such as formamide during hybridization and washing.
- stringent hybridization conditions are those normally used by one of skill in the art to establish at least a 90% sequence identity between complementary pieces of DNA or DNA and RNA.
- Modely stringent hybridization conditions are used to find derivatives having at least 70% sequence identity.
- low-stringency hybridization conditions are used to isolate derivative nucleic acid molecules that share at least about 50%) sequence identity with the subject nucleic acid sequence.
- the ultimate hybridization stringency reflects both the actual hybridization conditions as well as the washing conditions following the hybridization, and it is well known in the art how to vary the conditions to obtain the desired result.
- Conditions routinely used are set out in readily available procedure texts (e.g. , Current Protocol in Molecular Biology, Vol. 1, Chap. 2.10, John Wiley & Sons, Publishers (1994); Sambrook et al., Molecular Cloning, Cold Spring Harbor (1989)).
- a preferred derivative nucleic acid is capable of hybridizing to SEQ ID NO:l, 3, 5, or 7 under stringent hybridization conditions that comprise: prehybridization of filters containing nucleic acid for 8 hours to overnight at 65° C in a solution comprising 6X single strength citrate (SSC) (IX SSC is 0.15 M NaCl, 0.015 M Na citrate; pH 7.0), 5X Denhardt's solution, 0.05% sodium pyrophosphate and 100 ⁇ g/ml herring sperm DNA; hybridization for 18-20 hours at 65° C in a solution containing 6X SSC, IX Denhardt's solution, 100 ⁇ g/ml yeast tRNA and 0.05% sodium pyrophosphate; and washing of filters at 65° C for 1 h in a solution containing 0.2X SSC and 0.1% SDS (sodium dodecyl sulfate).
- SSC single strength citrate
- Derivative nucleic acid sequences that have at least about 70% sequence identity with SEQ ID NOs:l, 3, 5 or 7 are capable of hybridizing to SEQ ID NOs:l, 3, 5, and 7, respectively, under moderately stringent conditions that comprise: pretreatment of filters containing nucleic acid for 6 h at 40° C in a solution containing 35% formamide, 5X SSC, 50 mM Tris-HCl (pH 7.5), 5 mM EDTA, 0.1% PVP, 0.1% Ficoll, 1% BSA, and 500 ⁇ g/ml denatured salmon sperm DNA; hybridization for 18-20 h at 40° C in a solution containing 35% formamide, 5X SSC, 50 mM Tris-HCl (pH 7.5), 5 mM EDTA, 0.02% PVP, 0.02% Ficoll, 0.2% BSA, 100 ⁇ g/ml salmon sperm DNA, and 10% (wt/vol) dextran sulfate; followed by washing twice for 1 hour
- SEQ ID NOS: 1 , 3, 5, or 7 are capable of hybridizing to SEQ ID NOS: 1 , 3, 5, or 7 under low stringency conditions that comprise: incubation for 8 hours to overnight at 37° C in a solution comprising 20% formamide, 5 x SSC, 50 mM sodium phosphate (pH 7.6), 5X Denhardt's solution, 10% dextran sulfate, and 20 ⁇ g/ml denatured sheared salmon sperm DNA; hybridization in the same buffer for 18 to 20 hours; and washing of filters in 1 x SSC at about 37° C for 1 hour.
- percent (%) nucleic acid sequence identity with respect to a subject sequence, or a specified portion of a subject sequence, is defined as the percentage of nucleotides in the candidate derivative nucleic acid sequence identical with the nucleotides in the subject sequence (or specified portion thereof), after aligning the sequences and introducing gaps, if necessary to achieve the maximum percent sequence identity, as generated by the program WU-BLAST-2.0al9 (Altschul et al, J. Mol. Biol. (1997) 215:403-410; http://blast.wustl.edu blast/README.html; hereinafter referred to generally as "BLAST") with all the search parameters set to default values.
- a percent (%) nucleic acid sequence identity value is determined by the number of matching identical nucleotides divided by the sequence length for which the percent identity is being reported.
- Derivative SREBP pathway nucleic acid sequences usually have at least 70% sequence identity, preferably at least 80% sequence identity, more preferably at least 85% sequence identity, still more preferably at least 90%> sequence identity, and most preferably at least 95% sequence identity with SEQ ID NO:l, 3, 5 or 7, or domain- encoding regions thereof.
- Preferred derivatives of SEQ ID NO:7 comprise a nucleotide sequence having at least 53% sequence identity, and preferably at least 60% sequence identity with any contiguous 125 or 275 bases of nucleotides 2015-2546 of SEQ ID NO:7, or the reverse complement thereof.
- the derivative nucleic acids encode polypeptides comprising SREBP pathway amino acid sequence of SEQ ID NOs:2, 4, 6, and 8 or fragments or derivatives thereof as described further below under the subheading "SREBP pathway proteins".
- a derivative SREBP pathway nucleic acid sequence, or fragment thereof may comprise 100% sequence identity with SEQ ID NO:l, 3, 5, or 7 but be a derivative thereof in the sense that it has one or more modifications at the base or sugar moiety, or phosphate backbone. Examples of modifications are well known in the art (Bailey, Ullmann's Encyclopedia of Industrial Chemistry (1998), 6th ed. Wiley and Sons). Such derivatives may be used to provide modified stability or any other desired property.
- a humanized nucleic acid sequence is one in which one or more codons has been substituted with a codon that is more commonly used in human genes. Preferably, a sufficient number of codons have been substituted such that a higher level expression is achieved in mammalian cells than what would otherwise be achieved without the substitutions. Codons that are more commonly used in human genes are known (Wada et al., Nucleic Acids Research (1990) 18(Suppl.):2367-2411). Also, a detailed discussion of the humanization of nucleic acid sequences is provided in U.S. Pat. No. 5,874,304 to Zolotukhin et al.
- nucleic acid derivatives can be generated with codon usage optimized for expression in other organisms, such as yeasts, bacteria, and plants, where it is desired to engineer the expression of SREBP pathway proteins by using specific codons chosen according to the preferred codons used in highly expressed genes in each organism. More specific embodiments of preferred SREBP pathway protein fragments and derivatives are further discussed below.
- Nucleic acid encoding the amino acid sequence of any one of SEQ ID NO:2, 4, 6, or 8, or a fragment or derivative thereof may be obtained from an appropriate cDNA library prepared from any eukaryotic species that encodes SREBP pathway proteins such as vertebrates, preferably mammalian (e.g. primate, porcine, bovine, feline, equine, and canine species, etc.) and invertebrates, such as arthropods, particularly insects species (preferably Drosophila), acarids, Crustacea, molluscs, nematodes (preferably C. elegans), and other worms.
- An expression library can be constructed using known methods.
- mRNA can be isolated to make cDNA that is ligated into a suitable expression vector for expression in a host cell into which it is introduced.
- Various screening assays can then be used to select for the gene or gene product (e.g. ohgonucleotides of at least about 20 to 80 bases designed to identify the gene of interest, or labeled antibodies that specifically bind to the gene product).
- the gene and/or gene product can then be recovered from the host cell using known techniques.
- PCR Polymerase chain reaction
- oligonucleotide primers representing fragmentary sequences of interest amplify RNA or DNA sequences from a source such as a genomic or cDNA library (as described by Sambrook et al., supra). Additionally, degenerate primers for amplifying homologs from any species of interest may be used.
- a PCR product of appropriate size and sequence is obtained, it may be cloned and sequenced by standard techniques, and utilized as a probe to isolate a complete cDNA or genomic clone.
- Fragmentary sequences of SEQ ID NOs 1, 3, 5 and 7 nucleic acids and derivatives may be synthesized by known methods. For example, ohgonucleotides may be synthesized using an automated DNA synthesizer available from commercial suppliers (e.g. Biosearch, Novato, CA; Perkin-Elmer Applied Biosystems, Foster City, CA).
- Antisense RNA sequences can be produced intracellularly by transcription from an exogenous sequence, e.g. from vectors that contain antisense SREBP pathway nucleic acid sequences. Newly generated sequences may be identified and isolated using standard methods.
- An isolated SREBP pathway nucleic acid sequence can be inserted into any appropriate cloning vector, for example bacteriophages such as lambda derivatives, or plasmids such as PBR322, pUC plasmid derivatives and the Bluescript vector (Stratagene, San Diego, CA). Recombinant molecules can be introduced into host cells via transformation, transfection, infection, electroporation, etc., or into a transgenic animal such as a fly. The transformed cells can be cultured to generate large quantities of the SREBP pathway nucleic acid. Suitable methods for isolating and producing the subject nucleic acid sequences are well known in the art (Sambrook et al, supra; DNA Cloning: A Practical Approach, Vol. 1, 2, 3, 4, (1995) Glover, ed., MRL Press, Ltd., Oxford, U.K.).
- the nucleotide sequence encoding an SREBP pathway protein, or a fragment or derivative thereof, can be inserted into any appropriate expression vector for the transcription and translation of the inserted protein-coding sequence.
- the native SREBP pathway gene and/or its flanking regions can supply the necessary transcriptional and translational signals.
- a variety of host-vector systems may be utilized to express the protein-coding sequence. These include mammalian cell systems infected with virus (e.g. vaccinia virus, adenovirus, etc.), insect cell systems infected with virus (e.g. baculovirus), microorganisms such as yeast containing yeast vectors, or bacteria transformed with bacteriophage, DNA, plasmid DNA, or cosmid DNA. Expression of a SREBP pathway protein may be controlled by a suitable promoter/enhancer element.
- a host cell strain may be selected which modulates the expression of the inserted sequences, or modifies and processes the gene product in the specific fashion desired.
- the expression vector can comprise a promoter operably linked to an SREBP pathway nucleic acid, one or more origins of replication, and, one or more selectable markers (e.g. thymidine kinase activity, resistance to antibiotics, etc.).
- selectable markers e.g. thymidine kinase activity, resistance to antibiotics, etc.
- recombinant expression vectors can be identified by assaying for the expression of the SREBP pathway gene product based on the physical or functional properties of the SREBP pathway protein in in vitro assay systems (e.g. immunoassays).
- the SREBP pathway protein, fragment, or derivative may be optionally expressed as a fusion, or chimeric protein product (i.e., joined via a peptide bond to a heterologous protein sequence of a different protein).
- a chimeric product can be made by ligating the appropriate nucleic acid sequences encoding the desired amino acid sequences to each other in the proper coding frame using standard methods and expressing the chimeric product.
- a chimeric product may also be made by protein synthetic techniques, e.g. by use of a peptide synthesizer.
- the gene product can be isolated and purified using standard methods (e.g. ion exchange, affinity, and gel exclusion chromatography; centrifugation; differential solubility; electrophoresis).
- the amino acid sequence of the protein can be deduced from the nucleotide sequence of the chimeric gene contained in the recombinant and can thus be synthesized by standard chemical methods (Hunkapiller et al, Nature (1984) 310:105-111).
- native SREBP pathway proteins can be purified from natural sources, by standard methods (e.g. immunoaffmity purification).
- SREBP pathway proteins of the invention comprise or consist of an amino acid sequence of any one of SEQ ID NO: 2, 4, 6 or 8, or fragments or derivatives thereof.
- Compositions comprising these proteins may consist essentially of the SREBP pathway protein, fragments, or derivatives, or may comprise additional components (e.g. pharmaceutically acceptable carriers or excipients, culture media, etc.).
- SREPB pathway protein derivatives typically share a certain degree of sequence identity or sequence similarity with any one of SEQ ID NOs: 2, 4, 6, and 8, or a fragment thereof.
- percent (%) amino acid sequence identity with respect to a subject sequence, or a specified portion of a subject sequence, is defined as the percentage of amino acids in the candidate derivative amino acid sequence identical to the amino acid in the subject sequence (or specified portion thereof), after aligning the sequences and introducing gaps as necessary to achieve the maximum percent sequence identity as generated by BLAST (Altschul et al, supra) using the same parameters discussed above for derivative nucleic acid sequences.
- a % amino acid sequence identity value is determined by the number of matching identical amino acids divided by the sequence length for which the percent identity is being reported.
- Percent (%) amino acid sequence similarity is determined by doing the same calculation as for determining % amino acid sequence identity, but including conservative amino acid substitutions in addition to identical amino acids in the computation.
- a conservative amino acid substitution is one in which an amino acid is substituted for another amino acid having similar properties such that the folding or activity of the protein is not significantly affected.
- Aromatic amino acids that can be substituted for each other are phenylalanine, tryptophan, and tyrosine.
- Interchangeable hydrophobic amino acids are leucine, isoleucine, methionine, and valine.
- Interchangeable polar amino acids are glutamine and asparagine.
- Interchangeable basic amino acids are arginine, lysine and histidine.
- Interchangeable acidic amino acids are aspartic acid and glutamic acid; and interchangeable small amino acids are alanine, serine, cysteine, threonine, and glycine.
- an SREBP pathway protein derivative shares at least 75% sequence identity or similarity, preferably at least 80%o, more preferably at least 85%, still more preferably at least 90% and most preferably at least 95%> sequence identity or similarity with a contiguous stretch of at least 25 amino acids, preferably at least 50 amino acids, more preferably at least 100 amino acids, and in some cases, the entire length of any of SEQ ID NO:2, 4, 6, or 8.
- ceSREBP consist of or comprise an amino acid sequence that shares at least 75% similarity, preferably at least 80% similarity, and more preferably, at least 85% similarity with amino acid residues 335-428 of SEQ ID NO:2. Preferably, such derivatives share antigenicity with amino acid residues 335-428 of SEQ ID NO:2.
- dSCAP consist of or comprise an amino acid sequence that shares at least 75% similarity, preferably at least 80% similarity, and more preferably, at least 85% similarity with amino acid residues 812-848, 1005- 1041, 1045-1084, and 1088-1124 of SEQ ID NO:6, which constitute the WD repeats.
- such derivatives share antigenicity with amino acid residues 812-848, 1005-1041, 1045-1084, and 1088-1124 of SEQ ID NO:6.
- the dSIP protein derivative may consist of or comprise a sequence that shares 100%> similarity with any contiguous stretch of at least 33 amino acids, preferably at least 35 amino acids, more preferably at least 38 amino acids, and most preferably at least 43 amino acids of SEQ LD NO:8.
- Preferred derivatives of dSIP consist of or comprise an amino acid sequence that has at least 70%, preferably at least 80%o, more preferably at least 85%, still more preferably at least 90%, and most preferably at least 95% sequence identity or sequence similarity with any of amino acid residues 22-362, 384-457, and 521-993, which are extracellular or intracellular domains of dSIP.
- Another preferred derivative of dSIP protein consists of or comprises a sequence of at least 10 amino acids that share 100% similarity with an equivalent number of contiguous amino acids of residues 653-828 of SEQ ID NO:8.
- Preferred fragments of dSIP proteins consist or comprise at least 16, preferably at least 18, more preferably at least 21, and most preferably at least 26 contiguous amino acids of SEQ ID NO:2.
- Other preferred fragments include any 10 contiguous amino acids, preferably any 20 contiguous amino acids, and more preferably any 60 contiguous amino acids of residues 653-828 of SEQ ID NO:2.
- the fragment or derivative of an SREBP pathway protein is preferably "functionally active" meaning that the SREBP pathway protein derivative or fragment exhibits one or more functional activities associated with a full-length, wild-type SREBP pathway protein comprising the amino acid sequence of any one of SEQ ID NO:2, 4, 6 or 8.
- a fragment or derivative may have antigenicity such that it can be used in immunoassays, for immunization, for inhibition of SREBP pathway activity, etc., as discussed further below regarding generation of antibodies to SREBP pathway proteins.
- a fragment or derivative of SREBP may be considered functionally active if it binds a regulatory DNA element of an appropriate target gene such as the SRE-1 sequence.
- SIP may be considered functionally active if it cleaves SREBP at site 1 (as depicted in Fig. IB).
- S2P may be considered functionally active if it cleaves SREBP at site 2.
- a fragment or derivative of SCAP may be considered functionally active if it binds to the C-terminal, regulatory domain of SREBP.
- the functional activity of SREBP pathway proteins, derivatives and fragments can be assayed by various methods known to one skilled in the art (Current Protocols in Protein Science (1998) Coligan et al, eds., John Wiley & Sons, Inc., Somerset, New Jersey).
- a model organism such as an insect (e.g., Drosophila) or worm (e.g., C. elegans), or other model system, is used in genetic studies to assess the phenotypic effect of a fragment or derivative (i.e. mutant).
- the SREBP pathway derivatives can be produced by various methods known in the art. The manipulations that result in their production can occur at the gene or protein level. For example, a cloned SREBP pathway gene sequence can be cleaved at appropriate sites with restriction endonuclease(s) (Wells et al., Philos. Trans. R. Soc. London SerA (1986) 317:415), followed by further enzymatic modification if desired, isolated, and ligated in vitro, and expressed to produce the desired derivative.
- an SREBP pathway gene can be mutated in vitro or in vivo, to create and/or destroy translation, initiation, and/or termination sequences, or to create variations in coding regions and/or to form new restriction endonuclease sites or to destroy preexisting ones, to facilitate further in vitro modification.
- a variety of mutagenesis techniques are known in the art such as chemical mutagenesis, in vitro site-directed mutagenesis (Carter et al, Nucl. Acids Res. (1986) 13:4331), use of TAB ® linkers (available from Pharmacia and Upjohn, Kalamazoo, MI), etc.
- manipulations include post translational modification, e.g. glycosylation, acetylation, phosphorylation, amidation, derivatization by known protecting/blocking groups, proteolytic cleavage, linkage to an antibody molecule or other cellular ligand, etc. Any of numerous chemical modifications may be carried out by known technique (e.g. specific chemical cleavage by cyanogen bromide, trypsin, chymotrypsin, papain, V8 protease, NaBH , acetylation, formylation, oxidation, reduction, metabolic synthesis in the presence of tunicamycin, etc.).
- Derivative proteins can also be chemically synthesized by use of a peptide synthesizer, for example to introduce nonclassical amino acids or chemical amino acid analogs as substitutions or additions into the SREBP pathway protein sequence.
- Chimeric or fusion proteins can be made comprising an SREBP pathway protein or fragment thereof (preferably comprising one or more structural or functional domains of the SREBP pathway protein) joined at its amino- or carboxy- terminus via a peptide bond to an amino acid sequence of a different protein.
- Chimeric proteins can be produced by any known method. These include: recombinant expression of a nucleic acid encoding the protein (comprising an SREBP pathway coding sequence joined in-frame to a coding sequence for a different protein), ligating the appropriate nucleic acid sequences encoding the desired amino acid sequences to each other in the proper coding frame and expressing the chimeric product, and protein synthetic techniques (e.g. by use of a peptide synthesizer).
- SREBP pathway gene regulatory DNA elements such as enhancers or promoters can be used to identify tissues, cells, genes and factors that specifically control SREBP pathway protein production.
- such regulatory elements reside within nucleotides 1 to 61 of SEQ ID NO:7.
- Gene fusions with the SREBP pathway regulatory elements can be made.
- the regulatory elements that control spatial and temporal expression patterns are typically found in the DNA immediately upstream of the coding region, extending to the nearest neighboring gene.
- Regulatory regions can be used to construct gene fusions where the regulatory DNAs are operably fused to a coding region for a reporter protein whose expression is easily detected, and these constructs are introduced as transgenes into the animal of choice.
- An entire regulatory DNA region can be used, or the regulatory region can be divided into smaller segments to identify sub-elements that might be specific for controlling expression a given cell type or stage of development.
- Reporter proteins that can be used for construction of these gene fusions include E. coli beta-galactosidase and green fluorescent protein (GFP). These can be detected readily in situ, and thus are useful for histological studies and can be used to sort cells that express SREBP pathway proteins (O'Kane and Gehring PNAS (1987) 84(24):9123-9127; Chalfie et al, Science (1994) 263:802-805; and Cumberledge and Krasnow (1994) Methods in Cell Biology 44:143-159).
- GFP green fluorescent protein
- Recombinase proteins such as FLP or ere
- Recombinase proteins can be used in controlling gene expression through site-specific recombination (Golic and Lindquist (1989) Cell 59(3):499-509; White et al, Science (1996) 271 :805-807).
- Toxic proteins such as the reaper and hid cell death proteins are useful to specifically ablate cells that normally express SREBP pathway proteins in order to assess the physiological function of the cells. (Kingston, In Current Protocols in Molecular Biology (1998) Ausubel et al, John Wiley & Sons, Inc. sections 12.0.3-12.10).
- a binary reporter system can be used, similar to that described further below, where an SREBP pathway gene's regulatory element is operably fused to the coding region of an exogenous transcriptional activator protein, such as the GAL4 or tTA activators described below, to create a SREBP pathway "driver gene".
- an exogenous transcriptional activator protein such as the GAL4 or tTA activators described below
- the exogenous activator controls a separate "target gene” containing a coding region of a reporter protein operably fused to a cognate regulatory element for the exogenous activator protein, such as UAS G or a tTA-response element, respectively.
- Reporter gene fusions with an SREBP pathway gene's regulatory element are also useful for testing genetic interactions, in order to identify genes that control the expression of SREBP pathway genes, or promote the growth and differentiation of the tissues that expresses the SREBP pathway protein.
- SREBP pathway gene regulatory DNA elements are also useful in protein-DNA binding assays to identify gene regulatory proteins that control the expression of SREBP pathway genes. The gene regulatory proteins can be detected using a variety of methods that probe specific protein-DNA interactions well known to those skilled in the art (Kingston, supra).
- Candidate SREBP pathway gene regulatory proteins can be purified using a combination of conventional and DNA-affinity purification techniques. Molecular cloning strategies can also be used to identify proteins that specifically bind SREBP pathway gene regulatory DNA elements. For example, a Drosophila cDNA library in an expression vector can be screened for cDNAs that encode SREBP pathway gene regulatory element DNA-binding activity.
- yeast "one-hybrid" system can be used (Li and Herskowitz, Science (1993) 262:1870-1874; Luo et al, Biotechniques (1996) 20(4):564-568; Vidal et al, PNAS (1996) 93(19):10315-
- a variety of methods can be used to identify or screen for molecules, such as proteins or small molecules, which interact with SREBP pathway proteins, or with derivatives or fragments thereof.
- the assays may employ a purified SREBP pathway protein, or cell lines or model organisms such as Drosophila and C. elegans that have been genetically engineered to express an SREBP pathway protein.
- Suitable screening methodologies are well known in the art to test for proteins and other molecules that interact with SREBP pathway genes and proteins (see e.g., PCT International Publication No. WO 96/34099).
- the newly identified interacting molecules may provide new targets for pharmaceutical agents.
- exogenous molecules both naturally occurring and/or synthetic (e.g., libraries of small molecules or peptides, or phage display libraries), may be screened for binding capacity.
- the SREBP pathway protein or fragment is mixed with candidate molecules under conditions conducive to binding, sufficient time is allowed for any binding to occur, and assays are performed to test for bound complexes.
- Assays to find interacting proteins can be performed by any method known in the art. Examples include immunoprecipitation with an antibody that binds to the protein in a complex followed by analysis by size fractionation of the immunoprecipitated proteins (e.g. by denaturing or nondenaturing polyacrylamide gel electrophoresis), Western analysis, non-denaturing gel electrophoresis, etc.
- a preferred method for identifying interacting proteins is a two-hybrid assay system or variation thereof (Fields and Song, Nature (1989) 340:245-246; U.S. Pat. No. 5,283,173; for review see Brent and Finley, Annu. Rev. Genet. (1997) 31 :663- 704).
- the most commonly used two-hybrid screen system is performed using yeast. All systems share three elements: 1) a gene that directs the synthesis of a "bait" protein fused to a DNA binding domain; 2) one or more "reporter” genes having an upstream binding site for the bait, and 3) a gene that directs the synthesis of a "prey” protein fused to an activation domain that activates transcription of the reporter gene.
- the "bait” is preferably an SREBP pathway protein, expressed as a fusion protein to a DNA binding domain.
- the "prey” protein is a protein to be tested for ability to interact with the bait, which is expressed as a fusion protein to a transcription activation domain.
- the prey proteins can be obtained from recombinant biological libraries expressing random peptides.
- the bait fusion protein can be constructed using any suitable DNA binding domain, such as the E. coli LexA repressor protein, or the yeast GAL4 protein (Bartel et al, BioTechniques (1993) 14:920-924, Chasman et al, Mol. Cell. Biol. (1989) 9:4746-4749; Ma et al, Cell (1987) 48:847-853; Ptashne et al, Nature (1990) 346:329-331).
- any suitable DNA binding domain such as the E. coli LexA repressor protein, or the yeast GAL4 protein (Bartel et al, BioTechniques (1993) 14:920-924, Chasman et al, Mol. Cell. Biol. (1989) 9:4746-4749; Ma et al, Cell (1987) 48:847-853; Ptashne et al, Nature (1990) 346:329-331).
- the prey fusion protein can be constructed using any suitable activation domain such as GAL4, VP-16, etc.
- the preys may contain useful moieties such as nuclear localization signals (Ylikomi et al, EMBO J. (1992) 1 1 :3681-3694; Dingwall and Laskey, Trends Biochem. Sci. Trends Biochem. Sci. (1991) 16:479-481) or epitope tags (Allen et al, Trends Biochem. Sci. Trends Biochem. Sci. (1995) 20:511- 516) to facilitate isolation of the encoded proteins.
- a limitation of the two-hybrid system occurs when transmembrane portions of proteins in the bait or the prey fusions are used. This occurs because most two-hybrid systems are designed to function by formation of a functional transcription activator complex within the nucleus. The use of transmembrane portions of the protein can interfere with proper association, folding, and nuclear transport of bait or prey segments (Ausubel et al, supra; Allen et al, Trends Biochem. Sci. (1995) 20:511- 516). Since SREBP, SCAP, SIP, and S2P all contain membrane- spanning domains, the "bait" is preferably an SREBP pathway protein derivative or a fragment that lacks transmembrane domains.
- Any reporter gene can be used that has a detectable phenotype such as reporter genes that allow cells expressing them to be selected by growth on appropriate medium (e.g. HIS3, LEU2 described by Chien et al, PNAS (1991) 88:9572-9582; and Gyuris et al, Cell (1993) 75:791-803).
- Other reporter genes such as LacZ and GFP, allow cells expressing them to be visually screened (Chien et al, supra).
- SREBP pathway proteins encoded by SEQ ID NOs:2, 4 , 6 and 8, and derivatives and fragments thereof, such as those discussed above, may be used as immunogens to generate monoclonal or polyclonal antibodies and antibody fragments or derivatives (e.g. chimeric, single chain, Fab fragments).
- Antibodies to a particular domain of an SREBP pathway protein, such as the SRE binding domain, may be desired.
- fragments of an SREBP pathway protein identified as hydrophilic are used as immunogens for antibody production using art-known methods.
- SREBP pathway polypeptide fragments provide specific antigens and/or immunogens, especially when coupled to carrier proteins.
- peptides are covalently coupled to keyhole limpet antigen (KLH) and the conjugate is emulsified in Freund's complete adjuvant.
- KLH keyhole limpet antigen
- Laboratory rabbits are immunized according to conventional protocol and bled.
- the presence of specific antibodies is assayed by solid phase immunosorbent assays using immobilized corresponding polypeptide.
- Specific activity or function of the antibodies produced may be determined by convenient in vitro, cell-based, or in vivo assays: e.g. in vitro binding assays, etc.
- Binding affinity may be assayed by determination of equilibrium constants of antigen-antibody association (usually at least about 10 7 M “1 , preferably at least about 10 8 M “1 , more preferably at least about 10 9 M "1 ).
- immunoassays can be used to identify proteins that interact with or bind to SREBP pathway proteins.
- Various assays are available for testing the ability of a protein to bind to or compete with binding to a wild-type SREBP pathway protein or for binding to an anti-SREBP pathway protein antibody.
- Suitable assays include radioimmunoassays, ELISA (enzyme linked immunosorbent assay), immunoradiometric assays, gel diffusion precipitin reactions, immunodiffusion assays, in situ immunoassays (e.g., using colloidal gold, enzyme or radioisotope labels), western blots, precipitation reactions, agglutination assays (e.g., gel agglutination assays, hemagglutination assays), complement fixation assays, immunofluorescence assays, protein A assays, immunoelectrophoresis assays, etc. Identification of interacting compounds
- SREBP pathway genes or SREBP pathway interacting genes can be assessed as potential drug or pesticide targets.
- Putative drugs and molecules can be applied onto whole insects, nematodes, and other small invertebrate metazoans, and the ability of the compounds to modulate (e.g. block or enhance) SREBP pathway activity can be observed.
- the effect of various compounds on SREBP pathways can be assayed using cells that have been engineered to express one or more SREBP pathways and associated proteins.
- the compounds to be tested are dissolved in DMSO or other organic solvent, mixed with a bacterial suspension at various test concentrations, preferably OP50 strain of bacteria (Brenner, Genetics (1974) 110:421-440), and supplied as food to the worms.
- the population of worms to be treated can be synchronized larvae (Sulston and Hodgkin, in The Nematode C. elegans (1988) Wood, ed., Cold Spring Harbor Laboratory Press, Cold Spring harbor, New York) or adults or a mixed-stage population of animals.
- Ratios are treated with different concentrations of compounds, typically ranging from 1 mg/ml to 0.001 mg/ml. Behavioral aberrations, such as a decrease in motility and growth, and morphological aberrations, sterility, and death are examined in both acutely and chronically treated adult and larval worms.
- larval and adult worms are examined immediately after application of the compound and re-examined periodically (every 30 minutes) for 5-6 hours.
- Chronic or long-term assays are performed on worms and the behavior of the treated worms is examined every 8-12 hours for 4-5 days. In some circumstances, it is necessary to reapply the compound to the treated worms every 24 hours for maximal effect.
- Compounds can be administered to insects in a variety of ways, including orally (including addition to synthetic diet, application to plants or prey to be consumed by the test organism), topically (including spraying, direct application of compound to animal, allowing animal to contact a treated surface), or by injection. Hydrophobic molecules must commonly be dissolved in organic solvents, which are allowed to evaporate in the case of methanol or acetone, or at low concentrations can be included to facilitate uptake (ethanol, dimethyl sulfoxide).
- the first step in an insect assay is usually the determination of the minimal lethal dose (MLD) on the insects after a chronic exposure to the compounds.
- the compounds are usually diluted in DMSO, and applied to the food surface bearing 0-48 hour old embryos and larvae.
- this step allows the determination of the fraction of eggs that hatch, behavior of the larvae, such as how they move /feed compared to untreated larvae, the fraction that survive to pupate, and the fraction that eclose (emergence of the adult insect from puparium). Based on these results more detailed assays with shorter exposure times may be designed, and larvae might be dissected to look for obvious morphological defects. Once the MLD is determined, more specific acute and chronic assays can be designed.
- compounds are applied to the food surface for embryos, larvae, or adults, and the animals are observed after 2 hours and after an overnight incubation.
- embryos defects in development and the percent that survive to adulthood are determined.
- larvae defects in behavior, locomotion, and molting may be observed.
- behavior and neurological defects are observed, and effects on fertility are noted.
- Compounds that modulate (e.g. block or enhance) SREBP pathway activity may also be assayed using cell culture.
- compounds that alter the protease activity of SIP are tested.
- Various compounds added to cells expressing dSIP and/or other SREBP pathway genes may be screened for their ability to modulate the activity of SREBP pathway genes based upon measurements of protease activity.
- Assays for changes in protease activity can be performed on cultured cells expressing endogenous normal or mutant SREBP pathway genes. Such studies also can be performed on cells transfected with vectors capable of expressing these genes, or their functional domains.
- cells may be cotransfected with genes encoding dSIP proteins.
- cells may be transfected with soluble or membrane bound dSIP, and lysed.
- the lysates may be analyzed for ability to process peptides corresponding to cleavage of fly SREBP at site 1, in presence or absence of compounds, using a fluorogenic peptide assay essentially as described (Cheng D. et al, J. Biol. Chem. (1999) 274:22805-22812).
- Compounds that selectively modulate the dSIP activity are identified as potential drug candidates having dSIP specificity.
- HTS high-throughput screening
- cells or cell lines expressing wild type or mutant dSIP protein or de ⁇ vatives, and a reporter gene can be treated with compounds of interest
- Interactions can be measured using a va ⁇ ety of methods depending on the reporter genes, such as color detection, fluorescence detection (e g GFP), autoradiography, scintillation analysis, etc
- mis-expression encompasses mis-expression due to gene mutations
- a mis-expressed SREBP pathway protein may be one having an ammo acid sequence that differs from wild type (i e it is a derivative of the normal protein)
- a mis- expressed SREBP pathway protein may also be one m which one or more ammo acids have been deleted, and thus is a "fragment" of the normal protein
- mis-expressed SREBP pathway protein may be one having an ammo acid sequence that differs from wild type (i e it is a derivative of the normal protein)
- a mis- expressed SREBP pathway protein may also be one m which one or more ammo acids have been deleted, and thus is a "fragment" of the normal protein
- mis-expressed SREBP pathway protein may be one having an ammo acid sequence that differs from wild type (i e it is a derivative of the normal protein)
- a mis- expressed SREBP pathway protein may also be one m which one or more ammo acids have been deleted, and thus
- the in vivo and in vitro models may be genetically engineered or modified so that they 1) have deletions and/or insertions of one or more SREBP pathway genes, 2) harbor interfering RNA sequences de ⁇ ved from SREBP pathway genes, 3) have had one or more endogenous SREBP pathway genes mutated (e.g. contain deletions, insertions, rearrangements, or point mutations in SREBP pathway gene or other genes in the pathway), and/or 4) contain transgenes for mis-expression of wild-type or mutant forms of such genes.
- Such genetically modified in vivo and in vitro models are useful for identification of new genes that are involved in the synthesis, activation, control, etc. of SREBP pathway genes and/or gene products.
- genes of interest that are involved in cholesterol and/or fatty acid biosynthesis or metabolism may be identified.
- the newly identified genes could constitute possible pesticide targets (as judged by animal model phenotypes such as non-viability, block of normal development, defective feeding, defective movement, or defective reproduction).
- they may constitute possible therapeutic targets, particularly in the area of metabolic diseases and disorders, for example, cholesterol synthesis, metabolism, and other fatty acid disorders.
- the model systems can also be used to test potential pesticidal or pharmaceutical compounds that interact with the SREBP pathway.
- the compound can be administered to the model system using any suitable method (e.g. direct contact, ingestion, injection), and any changes in phenotype, such as changes in lipid content or lethality, can be observed.
- Various genetic engineering and expression modification methods that can be used are well known in the art, including chemical mutagenesis, transposon mutagenesis, antisense RNAi, dsRNAi, and transgene-mediated mis-expression.
- Loss-of-function mutations in an invertebrate metazoan SREBP pathway genes can be generated by any of several mutagenesis methods known in the art (Ashburner, Drosophila melanogaster: A Laboratory Manual (1989), Cold Spring Harbor, NY, Cold Spring Harbor Laboratory Press: pp. 299-418; Greenspan RJ, Fly pushing: The Theory and Practice of Drosophila melanogaster Genetics (1997) Cold Spring Harbor Press, Plainview, NY; Wood supra).
- Techniques for producing mutations in a gene or genome include use of radiation (e.g., X-ray, UV, or gamma ray); chemicals (e.g., EMS, MMS, ENU, formaldehyde, etc.); and insertional mutagenesis by mobile elements including dysgenesis induced by transposon insertions, or transposon- mediated deletions, for example, male recombination, as described below.
- Other methods of reducing expression of genes include antisense; double-stranded RNA interference; peptide and RNA aptamers; directed deletions; homologous recombination; dominant negative alleles; and intrabodies. Generating loss-function phenotypes by transposon insertion or excision
- Transposable elements are particularly useful for inserting sequences into a gene of interest so that the encoded protein is not properly expressed, creating a "knock-out" animal having a loss-of-function phenotype.
- transposable elements There are several suitable transposable elements that can be used. Techniques are well-established for the use of P element in Drosophila (Rubin and Spradling, Science (1982) 218:348-53; U.S. Pat. No. 4,670,388) and Tel in C. elegans (Zwaal et al, Proc. Natl. Acad. Sci. U.S.A.
- Tcl-like transposable elements can be used such as minos, mariner and sleeping beauty, as well transposable elements that function in a variety of insect species, such as PiggyBac, hobo, and hermes (Thibault et al, Insect Mol Biol (1999) 8:119-23).
- P elements which contain one or more elements that allow detection of animals containing the P element, are preferred for the isolation of loss-of-function mutations in Drosophila SREBP pathway genes.
- marker genes are used that affect the eye color of Drosophila, such as derivatives of the Drosophila white or rosy genes (Rubin and Spradling, Science (1982) 218(4570):348-353; and Klemenz et al, Nucleic Acids Res. (1987) 15(10):3947-3959).
- any gene can be used as a marker that causes a reliable and easily scored phenotypic change in transgenic animals.
- markers include bacterial plasmid sequences having selectable markers such as ampicillin resistance (Steller and Pirrotta, EMBO. J. (1985) 4:167-171); and lacZ sequences fused to a weak general promoter to detect the presence of enhancers with a developmental expression pattern of interest (Bellen et al, Genes Dev. (1989) 3(9):1288-1300).
- Other examples of marked P elements useful for mutagenesis have been reported (Nucleic Acids Research (1998) 26:85-88; and http://flybase.bio.indiana.edu).
- transgenesis system was described that may be suitable for following gene transfer in eye-bearing animals of diverse insect and other species (Berghammer et al, Nature (1999) 402:370-371).
- An artificial promoter that is universally expressed and restricted to eye tissue drives expression of a universal marker, such as GFP.
- the preferred promoter contains three binding sites for Pax-6 homodimers in front of a TATA box, (Sheng et al, Genes Devel. (1997) 11:1122- 1131).
- the system is transferred via a vector capable of delivering transgenes to a broad range of animal species, such as transposon-based vectors derived from Hermes, piggyBac, or mariner, or pantropic retro viruses (Jordan et al, Insect Mol Biol (1998) 7: 215-222; U.S. Pat. No.5,670,345).
- transposon-based vectors derived from Hermes, piggyBac, or mariner, or pantropic retro viruses.
- the genomic sequence flanking each transposon insert is determined either by plasmid rescue (Hamilton et al, PNAS (1991) 88:2731-2735) or by inverse polymerase chain reaction (Rehm, http://www.fruitfly.org/methods/) to determine if the P is in a gene of interest.
- a preferred method of transposon mutagenesis in Drosophila employs the "local hopping" method described by Tower et al. (Genetics (1993) 133:347-359).
- Each new P insertion line can be tested molecularly for transposition of the P element into the gene of interest (e.g. dSIP) by assays based on PCR.
- dSIP gene of interest
- Products of the PCR reactions are detected by agarose gel electrophoresis. The sizes of the resulting DNA fragments reveal the site of P element insertion relative to the gene of interest.
- Southern blotting and restriction mapping using DNA probes derived from genomic DNA or cDNAs of the gene of interest can be used to detect transposition events that rearrange the genomic DNA of the gene.
- P transposition events that map to the gene of interest can be assessed for phenotypic effects in heterozygous or homozygous mutant Drosophila.
- Drosophila lines carrying P insertions in the gene of interest can be used to generate localized deletions using "imprecise excision" methods (Kaiser, Bioessays (1990) 12(6):297-301; Harnessing the power of Drosophila genetics, In Drosophila melanogaster: Practical Uses in Cell and Molecular Biology, Goldstein and Fyrberg, Eds., Academic Press, Inc. San Diego, California). This is particularly useful if no P element transpositions are found that disrupt the gene of interest. Briefly, flies containing P elements inserted near the gene of interest are exposed to a further round of transposase to induce excision of the element.
- Progeny in which the transposon has excised are typically identified by loss of the eye color marker associated with the transposable element.
- the resulting progeny will include flies with either precise or imprecise excision of the P element, where the imprecise excision events often result in deletion of genomic DNA neighboring the site of P insertion.
- Such progeny are screened by molecular techniques to identify deletion events that remove genomic sequence from the gene of interest, and assessed for phenotypic effects in heterozygous and homozygous mutant Drosophila. We have used this method to generate a small deletion in the enhancer/5' UTR region of Drosophila SREBP.
- the corresponding excision which left most of the P-element intact and removed -450 bp of genomic DNA, was homozygous lethal and was lethal over a large deficiency that removes Drosophila SREBP.
- the deletion allele may be used to isolate further mutations in the gene and to further investigate the function of Drosophila SREBP.
- P-element mobilization can further generate chromosomal deletions and duplications by the process of "male recombination (Preston et al, Genetics (1996) 144:1623-38)”.
- P-mediated germ line recombination i.e., cross-over events between paired chromosomes in the germline
- Male recombination frequently induces deletions and reciprocal duplications of the adjacent chromosomal DNA.
- Tel transposable element can be used for directed mutagenesis of a gene of interest.
- a Tel library is prepared by the methods of Zwaal et al, supra and Plasterk, supra, using a strain in which the Tel transposable element is highly mobile and present in a high copy number.
- the library is screened for Tel insertions in the region of interest using PCR with one set of primers specific for Tel sequence and one set of gene-specific primers and C. elegans strains that contain Tel transposon insertions within the gene of interest are isolated.
- Tel insertions do not fully disrupt the function of a gene due to insertion into non-coding sequence or the ability of the host transcriptional machinery to bypass the effect of the insertion.
- imprecise excision of the Tel element may be used to identify a deletion in the gene of interest.
- this method of Tel insertion followed by imprecise excision to generate a partial deletion allele of ceSREBP.
- SREBP pathway genes may be identified and/or characterized by generating loss-of-function phenotypes in animals of interest through RNA-based methods, such as antisense RNA (Schubiger and Edgar, Methods in Cell Biology (1994) 44:697- 713).
- RNA-based methods such as antisense RNA (Schubiger and Edgar, Methods in Cell Biology (1994) 44:697- 713).
- One form of the antisense RNA method involves the injection of embryos with an antisense RNA that is partially homologous to the gene of interest (in this case any of the SREBP pathways genes of SEQ ID NO: 1, 3, 5, or 7).
- antisense RNA method involves expression of an antisense RNA partially homologous to the gene of interest by operably joining a portion of the gene of interest in the antisense orientation to a powerful promoter that can drive the expression of large quantities of antisense RNA, either generally throughout the animal or in specific tissues.
- Antisense RNA-generated loss-of-function phenotypes have been reported previously for several Drosophila genes including cactus, pecanex, and Kr ⁇ ppel (LaBonne et al, Dev. Biol. (1989) 136(1).1-16; Schuh and Jackie, Genome (1989) 31(l):422-425, Geisler et al, Cell (1992) 71(4):613-621).
- Loss-of-function phenotypes can also be generated by cosuppression methods (Bmgham Cell (1997) 90(3):385-387; Smyth, Curr. Biol. (1997) 7(12):793-795; Que and Jorgensen, Dev. Genet. (1998) 22(1):100-109).
- Cosuppression is a phenomenon of reduced gene expression produced by expression or injection of a sense strand RNA corresponding to a partial segment of the gene of interest.
- Cosuppression effects have been employed extensively in plants and C elegans to generate loss-of- function phenotypes, and there is a single report of cosuppression in Drosophila, where reduced expression of the Adh gene was induced from a white- Adh transgene using cosuppression methods (Pal-Bhadra et al, Cell (1997) 90(3) 479-490)
- Another method for generating loss-of-function phenotypes is by double- stranded RNA interference
- This method is based on the interfe ⁇ ng properties of double-stranded RNA de ⁇ ved from the coding regions of gene, and has proven to be of great utility in genetic studies of C elegans (Fire et al, Nature (1998) 391 806- 811), and can also be used to generate loss-of-function phenotypes m Drosophila (Kennerdell and Carthew, Cell (1998) 95-1017-1026; Misqmtta and Patterson PNAS (1999) 96:1451-1456)
- complementary sense and antisense RNAs de ⁇ ved from a substantial portion of a gene of interest such as an SREBP pathway gene, are synthesized in vitro.
- dsRNA can be delivered to the animal by bathing the animal in a solution containing a sufficient concentration of the dsRNA.
- dsRNA de ⁇ ved from SREBP pathway genes can be generated in vivo by simultaneous expression of both sense and antisense RNA from approp ⁇ ately positioned promoters operably fused to the SREBP pathway gene sequence in both sense and antisense orientations.
- the dsRNA can be delivered to the animal by engineering expression of dsRNA within cells of a second organism that serves as food for the animal.
- examples include engineering expression of dsRNA in E. coli bacteria that are fed to C. elegans, engineering expression of dsRNA in baker's yeast which is fed to Drosophila, or engineering expression of dsRNA in transgenic plants that are fed to plant-eating insects such as Leptinotarsa or Hehothis.
- dsRNA fragments were generated that spanned the amino-terminal ⁇ 2kb of the coding sequence of Drosophila SREBP.
- Animals that were injected as early embryos generally died during larval development, demonstrating that Drosophila SREBP is essential for viability.
- RNAi has been successfully used in cultured Drosophila cells to inhibit expression of targeted proteins (Dixon lab, University of Michigan, http://dixonlab.biochem.med.umich.edu/protocols/RNAiExperiments.html).
- RNAi has been successfully used in cultured Drosophila cells to inhibit expression of targeted proteins (Dixon lab, University of Michigan, http://dixonlab.biochem.med.umich.edu/protocols/RNAiExperiments.html).
- cell lines in culture can be manipulated using RNAi both to perturb and study the function of SREBP pathway components and to validate the efficacy of therapeutic strategies that involve the manipulation of this pathway.
- RNAi can selectively inactivate one or more genes simultaneously in Drosophila tissue culture cells provides an additional means of screening for genes that regulate SREBP activation. In this screen RNAi suppresses expression of a regulatory gene and thus mimics the function of a drug that specifically targets that gene function.
- the procedure for carrying out RNAi in Drosophila tissue culture cells can be carried out on a large scale such that part or all the genes in the Drosophila genome are inactivated by RNAi and tested as potential regulatory genes.
- a library of double stranded RNAi molecules directed against these genes is constructed by in vitro transcription from convergently oriented T7 promoters. The sense and antisense RNA strands are annealed and arrayed into 96-well plates with each well containing a different RNAi molecule directed against a different gene in the genome.
- Drosophila tissue culture cells such as wild type S2 or S2 cells specifically engineered to assay for SREBP function
- Drosophila tissue culture cells such as wild type S2 or S2 cells specifically engineered to assay for SREBP function
- An aliquot of each of the 96 different dsRNAs from the RNAi library is added to a different well containing the Drosophila cells.
- Each well of the 96 well plate thus contains a different RNAi molecule directed against a different gene in the genome.
- the cells are assayed for SREBP activation.
- Such assays can measure a decrease in membrane-bound SREBP, SREBP translocation to the nucleus, SREBP phosphorylation, or increased transcription of SREBP transcriptional or indirect target genes (such as fatty acid synthase or ATP citrate lyase - as described in the section "Assays for Change in Gene Expression").
- a change in the activation of SREBP in RNAi treated cells and not control cells indicates that the RNAi molecule directed against that regulator gene is causing this change.
- Assays can be designed to uncover genes that either up- regulate or down-regulate the activation of SREBP.
- peptide aptamers are peptides or small polypeptides that act as dominant inhibitors of protein function.
- Peptide aptamers specifically bind to target proteins, blocking their function ability (Kolonin and Finley, PNAS (1998) 95:14266-14271). Due to the highly selective nature of peptide aptamers, they may be used not only to target a specific protein, but also to target specific functions of a given protein (e.g. proteolytic function). Further, peptide aptamers may be expressed in a controlled fashion by use of promoters which regulate expression in a temporal, spatial or inducible manner. Peptide aptamers act dominantly; therefore, they can be used to analyze proteins for which loss-of-function mutants are not available.
- Peptide aptamers that bind with high affinity and specificity to a target protein may be isolated by a variety of techniques known in the art. In one method, they are isolated from random peptide libraries by yeast two-hybrid screens (Xu et al. , PNAS (1997) 94:12473-12478). They can also be isolated from phage libraries (Hoogenboom et al, Immunotechnology (1998) 4:1-20) or chemically generated peptides/libraries.
- RNA aptamers are specific RNA ligands for proteins that can specifically inhibit protein function of the gene (Good et al, Gene Therapy (1997) 4:45-54; Ellington, et al, Biotechnol. Annu. Rev. (1995) 1 :185-214). In vitro selection methods can be used to identify RNA aptamers having a selected specificity (Bell et al, J. Biol. Chem. (1998) 273:14309-14314). It has been demonstrated that RNA aptamers can inhibit protein function in Drosophila (Shi et al, Proc. Natl. Acad. Sci USA (1999) 96:10033-10038). Accordingly, RNA aptamers can be used to decrease the expression of an SREBP pathway protein or derivative thereof, or a protein that interacts with an SREBP pathway protein.
- Transgenic animals can be generated to test peptide or RNA aptamers in vivo (Kolonin, MG, and Finley, RL, Genetics, (1998) 95:4266-4271).
- transgenic Drosophila lines expressing the desired aptamers may be generated by P element mediated transformation (discussed below).
- the phenotypes of the progeny expressing the aptamers can then be characterized. Generating loss of function phenotypes using intrabodies
- Intracellularly expressed antibodies, or intrabodies are single-chain antibody molecules designed to specifically bind and inactivate target molecules inside cells. Intrabodies have been used in cell assays and in whole organisms such as Drosophila (Chen et al, Hum. Gen. Ther. (1994) 5:595-601; Hassanzadeh et al, Febs Lett. (1998) 16(1, 2):75-80 and 81-86). Inducible expression vectors can be constructed with intrabodies that react specifically with an SREBP pathway protein. These vectors can be introduced into model organisms and studied in the same manner as described above for aptamers.
- transgenic animals are created that contain gene fusions of the coding regions of an SREBP pathway gene (from either genomic DNA or cDNA) or genes engineered to encode antisense RNAs, cosuppression RNAs, interfering dsRNA, RNA aptamers, peptide aptamers, or intrabodies operably joined to a specific promoter and transcriptional enhancer whose regulation has been well characterized, usually heterologous promoters/enhancers (i.e. promoters/enhancers that are non- native to the SREBP pathway genes being expressed).
- Methods are well known for incorporating exogenous nucleic acid sequences into the genome of animals or cultured cells to create transgenic animals or recombinant cell lines. For invertebrate animal models, the most common methods involve the use of transposable elements.
- transposable elements can be used to incorporate the gene of interest, or mutant or derivative thereof, as an additional gene into any region of an animal's genome resulting in mis-expression of the gene.
- a preferred vector designed specifically for misexpression of genes in transgenic Drosophila is derived from pGMR (Hay et al, Development (1994) 120:2121-2129). It is 9Kb long, and contains: an origin of replication for E. coli; an ampicillin resistance gene; P element transposon ends to mobilize the inserted sequences; a White marker gene; an expression unit comprising the TATA region of hsp70 enhancer and the 3 'untranslated region of ⁇ -tubulin gene.
- the expression unit contains a first multiple cloning site (MCS) designed for insertion of an enhancer and a second MCS located 500 bases downstream, designed for the insertion of a gene of interest.
- MCS multiple cloning site
- Homologous recombination or gene targeting techniques can be used to substitute a gene of interest for one or both copies of the animal's homologous gene.
- the transgene can be under the regulation of either an exogenous or an endogenous promoter element, and be inserted as either a minigene or a large genomic fragment.
- gene function can be analyzed by ectopic expression, using, for example, Drosophila (Brand et al, Methods in Cell Biology (1994) 44:635- 654) or C. elegans (Mello and Fire, Methods in Cell Biology (1995) 48:451-482).
- Genes are typically introduced into C. elegans via injection into the ovaries of young adult hermaphrodites. Circular DNA that is injected into nematodes at high concentrations generally concatamerizes to form "extrachromosomal arrays," which typically contain hundreds of copies of the injected sequences and are stably transmitted at rates of -10% to 90%>. X-ray irradiation of animals carrying the array can induce chromosomal integration of the transgenes (Epstein and Shakes, supra).
- gene fusions for directing the mis-expression of SREBP pathway genes are incorporated into a vector which is injected into nematodes along with a plasmid containing a dominant selectable marker, such as rol-6.
- Transgenic animals are identified as those exhibiting a roller phenotype, and the transgenic animals are inspected for additional phenotypes of interest created by mis-expression of the SREBP pathway gene.
- heterologous promoters examples include heat shock promoters/enhancers, which are useful for temperature induced mis-expression.
- heat shock promoters/enhancers include the hsplO and hsp83 genes, and in C. elegans, include hsp 16-2 and hsp 16-41.
- Tissue specific promoters/enhancers are also useful, and in Drosophila, include eyeless (Mozer and Benzer, Development (1994) 120:1049-1058), sevenless (Bowtell et al, PNAS (1991) 88(15):6853-6857), and g/ ⁇ ss-responsive promoters/enhancers (Quiring et al, Science (1994) 265:785-789) which are useful for expression in the eye; and enhancers/promoters derived from the dpp or vestigal genes which are useful for expression in the wing (Staehling-Hampton et al, Cell Growth Differ.
- tissue specific promoters/enhancers examples include the myo-2 gene promoter, useful for pharyngeal muscle-specific expression; the hlh-1 gene promoter, useful for body- muscle-specific expression; and the gene promoter, useful for touch-neuron-specific gene expression.
- endogenous promoters of genes in the pathway such as the SREBP pathway genes.
- binary control systems that employ exogenous DNA are useful when testing the mis-expression of genes in a wide variety of developmental stage-specific and tissue-specific patterns.
- binary exogenous regulatory systems include the UAS/GAL4 system from yeast (Hay et al, PNAS (1997) 94(10):5195-5200; Ellis et al, Development (1993) 119(3):855-865), and the "Tet system” derived from E. coli (Bello et al., Development (1998) 125:2193-2202).
- the UAS/GAL4 system is a well-established and powerful method of mis-expression in Drosophila which employs the UAS G upstream regulatory sequence for control of promoters by the yeast GAL4 transcriptional activator protein (Brand and Perrimon, Development (1993) 118(2):401-15).
- transgenic Drosophila termed "target” lines
- driver lines transgenic Drosophila strains
- GAL4 coding region is operably fused to promoters/enhancers that direct the expression of the GAL4 activator protein in specific tissues, such as the eye, wing, nervous system, gut, or musculature.
- the gene of interest is not expressed in the target lines for lack of a transcriptional activator to drive transcription from the promoter joined to the gene of interest.
- transgenic Drosophila driver lines are generated where the coding region for a tetracycline-controlled transcriptional activator (tTA) is operably fused to promoters/enhancers that direct the expression of tTA in a tissue-specific and/or developmental stage-specific manner.
- the driver lines are crossed with transgenic Drosophila target lines where the coding region for the gene of interest to be mis-expressed is operably fused to a promoter that possesses a tTA-responsive regulatory element.
- Expression of the gene of interest can be induced at will simply by removal of tetracycline from the food. Also, the level of expression of the gene of interest can be adjusted by varying the level of tetracycline in the food.
- Tet system as a binary control mechanism for mis-expression has the advantage of providing a means to control the amplitude and timing of mis-expression of the gene of interest, in addition to spatial control. Consequently, if a gene of interest (e.g.
- an SREBP pathway gene has lethal or deleterious effects when mis-expressed at an early stage in development, such as the embryonic or larval stages, the function of the gene of interest in the adult can still be assessed by adding tetracycline to the food during early stages of development and removing tetracycline later so as to induce mis-expression only at the adult stage.
- Dominant negative mutations which cause the mutant protein to interfere with the normal function of a wild-type copy of the protein and which can result in loss-of- function or reduced-function phenotypes in the presence of a normal copy of the gene, can be made using known methods (Hershkowitz, Nature (1987) 329:219-222).
- overexpression of an inactive form achieved, for example, by linking the mutant gene to a highly active promoter, can cause competition for natural substrates or ligands sufficient to significantly reduce net activity of the normal protein.
- changes to active site residues can be made to create a virtually irreversible association with a target.
- Various expression analysis techniques may be used to identify genes that are differentially expressed between a cell line or an animal expressing a wild type SREBP pathway gene compared to another cell line or animal expressing a mutant SREBP pathway gene.
- Such expression profiling techniques include differential display, serial analysis of gene expression (SAGE), transcript profiling coupled to a gene database query, nucleic acid array technology, subtractive hybridization, and proteome analysis (e.g. mass-spectrometry and two-dimensional protein gels).
- Nucleic acid array technology may be used to determine a global (i.e., genome-wide) gene expression pattern in a normal animal for comparison with an animal having a mutation in one or more SREBP gene.
- Gene expression profiling can also be used to identify other genes (or proteins) that may have a functional relation to SREBP pathway genes (e.g. may participate in a signaling pathway with these genes).
- the genes are identified by detecting changes in their expression levels following mutation, (i.e., insertion, deletion or substitution in, or over-expression, under- expression, mis-expression or knock-out) of the SREBP pathway gene.
- dSREBP.CA Drosophila SREBP activation protein
- reporter constructs can be generated that fuse these genes' regulatory elements to a reporter gene, such as GFP or lacZ. Such constructs can be introduced into animals or cells and used to assay genetic or chemical modifications that alter the activity of SREBP pathway proteins.
- mice After isolati u of model animals carrying mutated or mis-expressed SREBP pathway genes or ii.nibitory RNAs, animals are carefully examined for phenotypes of interest.
- SREBP pathway genes that have been mutated (i.e. deletions, insertions, and/or point mutations) animal models that are both homozygous and heterozygous for the altered SREBP pathway gene are analyzed. Examples of specific phenotypes that may be investigated include lethality; sterility; and changes in various characteristics of the animal such as motility, body shape, body size and weight, metabolism, lipid accumulation, feeding, development, morphogenesis of organs, brood size, hermotaxis, etc.
- Some phenotypes more specific to Drosophila include alterations in: morphogenesis of the peripheral sensory organs, imaginal discs, eye development, wing development, leg development, bristle development, antennae development, gut development, fat body, and musculature.
- Some phenotypes more specific to nematodes include: alterations in chemotaxis, a dauer constitutive phenotype, a dauer defective phenotype, and a pale-intestine phenotype.
- a phenotype of particular interest in C. elegans is the pale intestine phenotype, which is indicative of defects in lipid metabolism and is discussed in more detail below and in the Examples. Both the partial deletion allele of ceSREBP, described above, and dsRNAi using ceSREBP gene fragments produces this pale intestine phenotype.
- Genomic sequences containing an SREBP pathway gene can be used to confirm whether an existing mutant insect or worm line corresponds to a mutation in one or more SREBP pathway genes, by rescuing the mutant phenotype.
- a genomic fragment containing the SREBP pathway gene of interest and potential flanking regulatory regions can be subcloned into any appropriate insect (such as Drosophila) or worm (such as C. elegans) transformation vector, and injected into the animals.
- an appropriate helper plasmid is used in the injections to supply transposase for transposon-based vectors. Resulting germline transformants are crossed for complementation testing to an existing or newly created panel of Drosophila or C.
- elegans lines whose mutations have been mapped to the vicinity of the gene of interest (Greenspan, supra; and Caenorhabditis elegans: Modern Biological Analysis of an Organism (1995), Epstein and Shakes, eds.). If the genomic fragment rescues a mutant line, as judged by complementation of the mutant phenotype, then the mutant line likely harbors a mutation in the SREBP pathway gene. This prediction can be further confirmed by sequencing the SREBP pathway gene from the mutant line to identify the lesion in the SREBP pathway gene.
- RNAi methods can be used to simulate loss-of-function mutations in the genes being analyzed. It is of particular interest to investigate whether there are any interactions of SREBP pathway genes with other well-characterized genes, particularly genes involved in lipid metabolism.
- a candidate gene that may be tested for interaction with the SREBP pathway is the insulin receptor gene (referred to as inr in Drosophila, and daf-2 in C. elegans).
- a genetic modifier screen using invertebrate model organisms is a particularly preferred method for identifying genes that interact with SREBP pathway genes, because large numbers of animals can be systematically screened making it more likely that interacting genes will be identified.
- a screen of up to about 10,000 animals is considered to be a pilot-scale screen.
- Moderate-scale screens usually employ about 10,000 to about 50,000 flies or up to about 100,000 worms, and large-scale screens employ greater than about 50,000 or 100,000 flies or worms, respectively.
- animals having a mutant phenotype due to a mutation in one or more SREBP pathway genes are further mutagenized, for example by chemical mutagenesis or transposon mutagenesis.
- mutagenesis procedures used in typical genetic modifier screens of C. elegans are well known in the art.
- One method involves exposure of hermaphrodites that carry mutations in one or more SREBP pathway genes to a mutagen, such as EMS or trimethylpsoralen with ultraviolet radiation (Huang and Sternberg, Methods in Cell Biology (1995) 48:97- 122).
- a mutagen such as EMS or trimethylpsoralen with ultraviolet radiation
- transposable elements are used, oftentimes by the introduction of a mutator locus, such as mut-2, which promotes mobility of transposons (Anderson, Methods in Cell Biology (1995) 4:31-58).
- Drosophila the mutagenesis methods and other procedures used in a genetic modifier screen depend upon the precise nature of the mutant allele being modified; these methods are discussed in more detail below under the Drosophila genetic modifier screen subheading.
- Progeny of the mutagenized animals are generated and screened for the rare individuals that display suppressed or enhanced versions of the original mutant SREBP pathway phenotype. Such animals are presumed to have mutations in other genes, called "modifier" genes, that participate in the same pheno type-generating pathway.
- the newly identified modifier genes can be isolated away from the mutations in the SREBP pathway genes by genetic crosses, so that the intrinsic phenotypes caused by the modifier mutations can be assessed in isolation.
- elegans SR ⁇ BP gene Several modifier genes have been identified.
- Modifier genes can be mapped using a combination of genetic and molecular methods known in the art. Modifiers that come from a genetic screen in C. elegans are preferably mapped with visible genetic markers and/or with molecular markers such as STS markers (Woods, supra; Epstein and Shakes, supra). Modifier genes may be uncovered by identification of a genomic clone that rescues the mutant phenotype, as described above. Alternatively, modifier genes that are identified by a Tel -based screen can be uncovered using transposon display technology (Korswagen et al., Proc Natl Acad Sci U.S.A. (1996) 93(25): 14680-5).
- Standard techniques used for the mapping of modifiers that come from a genetic screen in Drosophila include meiotic mapping with visible or molecular genetic markers, male recombination relative to P-element insertions, complementation analysis with deficiencies, duplications, and lethal P-element insertions, and cytological analysis of chromosomal aberrations (Greenspan, supra; Drosophila: A Laboratory Handbook, supra).
- Genes corresponding to modifier mutations that fail to complement a lethal P-element may be cloned by plasmid rescue of the genomic sequence sunounding that P-element.
- modifier genes may be mapped by phenotype rescue and positional cloning (Sambrook et al., supra).
- Newly identified modifier mutations can be tested directly for interaction with other genes of interest known to be involved or implicated in the SREBP using methods described above. Also, the new modifier mutations can be tested for interactions with genes in other pathways that are not believed to be related to lipid metabolism (e.g. Notch in Drosophila, and lin in C. elegans). New modifier mutations that exhibit specific genetic interactions with other genes implicated in lipid metabolism, but not interactions with genes in unrelated pathways, are of particular interest.
- the modifier mutations may also be used to identify "complementation groups". Two modifier mutations are considered to fall within the same complementation group if animals carrying both mutations in trans exhibit essentially the same phenotype as animals that are homozygous for each mutation individually and, generally, are lethal when in trans to each other. Generally, individual complementation groups defined in this way correspond to individual genes.
- SREBP pathway modifier genes are identified, homologous genes in other species can be isolated using procedures based on cross-hybridization with modifier gene DNA probes, PCR-based strategies with primer sequences derived from the modifier genes, and/or computer searches of sequence databases. For therapeutic applications related to the function of SREBP pathway, human and rodent homologues of the modifier genes are of particular interest.
- Insects, acarids, arachnids, nematodes, and other organisms of interest include, among others, Isopoda; Diplopoda; Chilopoda; Symphyla; Thysanura; Collembola; Orthoptera, such as Scistocerca spp; Blattoidea, such as Blattella germanica; Dermaptera; Isoptera; Anoplura; Mallophaga; Thysanoptera; Heteroptera; Homoptera, including Bemisia tabaci, and Myzus spp.; Lepidoptera including Plodia interpunctella, Pectinophora gossypiella, Plutella spp., Heliothis spp., and Spodoptera species; Coleoptera such as Leptinotarsa, Diabrotica spp., Anth
- mutant allele is genetically recessive, as is commonly the situation for a loss-of-function allele, then most typically males, or in some cases females, which carry one copy of the mutant allele are exposed to an effective mutagen, such as EMS, MMS, ENU, triethylamine, diepoxyalkanes, ICR-170, formaldehyde, X-rays, gamma rays, or ultraviolet radiation.
- the mutagenized animals are crossed to animals of the opposite sex that also carry the mutant allele to be modified.
- wild type males are mutagenized and crossed to females carrying the mutant allele to be modified.
- progeny of the mutagenized and crossed flies that exhibit either enhancement or suppression of the original phenotype are immediately crossed to adults containing balancer chromosomes and used as founders of a stable genetic line.
- progeny of the founder adult are retested under the original screening conditions to ensure stability and reproducibility of the phenotype. Additional secondary screens may be employed, as appropriate, to confirm the suitability of each new modifier mutant line for further analysis.
- Drosophila genetic modifier screens are quite powerful and sensitive, some genes that participate in the SREBP pathway may be missed in this approach, particularly if there is functional redundancy of those genes. This is because the vast majority of the mutations generated in the standard mutagenesis methods will be loss-of-function mutations, whereas gain-of-function mutations that could reveal genes with functional redundancy will be relatively rare. Methods for systematic gain-of-function screens in Drosophila have been developed (Rorth et al, Development (1998) 125:1049-1057).
- This method is based on a modular mis-expression system utilizing components of the GAL4/UAS system (described above) where a modified P element, termed an "enhanced P” (EP) element, is genetically engineered to contain a GAL4-responsive UAS element and promoter.
- EP enhanced P
- the resulting transposon is used to randomly tag genes by insertional mutagenesis (similar to the method of P element mutagenesis described above).
- Thousands of transgenic Drosophila strains, termed EP lines can be generated, each containing a specific UAS-tagged gene. This approach takes advantage of the preference of P elements to insert at the 5'-ends of genes. Consequently, many of the genes that are tagged by insertion of EP elements become operably fused to a GAL4-regulated promoter, and increased expression or mis-expression of the randomly tagged gene can be induced by crossing in a GAL4 driver gene.
- Systematic gain-of-function genetic screens for modifiers of phenotypes induced by mutation or mis-expression of an SREBP pathway gene can be performed by crossing several thousand Drosophila EP lines into a genetic background containing a mutant or mis-expressed SREBP pathway gene, and further containing an appropriate GAL4 driver transgene. The progeny of this cross are then analyzed for enhancement or suppression of the original mutant phenotype as described above. Those identified as having mutations that interact with the SREBP pathway can be crossed further to verify the reproducibility and specificity of this genetic interaction.
- EP insertions that demonstrate a specific genetic interaction with a mutant or mis- expressed SREBP pathway gene have a physically tagged a new gene which can be identified and sequenced using PCR or hybridization screening methods, allowing the isolation of the genomic DNA adjacent to the position of the EP element insertion.
- BODIPY-fatty acid conjugates for determining lipid content of nematodes have a physically tagged a new gene which can be identified and sequenced using PCR or hybridization screening methods, allowing the isolation of the genomic DNA adjacent to the position of the EP element insertion.
- the invention provides an improved method for measuring lipid storage in live nematodes. It has been found that BODIPY® dyes conjugated to fatty acids (e.g.
- BODIPY® FL C12 (4,4-difluoro-5,7-dimethyl- 4-bora- 3a,4a-diaza-s-indacene- 3-dodecanoic acid), and CI -BODIPY® 500/510 C12 (4,4- difluoro-5-methyl-4-bora- 3a,4a-diaza-s-indacene- 3-dodecanoic acid)
- Molecular Probes Eugene, OR
- the invention provides a method of using BODIPY®-fatty acid conjugates to stain live nematodes for determining the relative and absolute lipid content in response to changes in metabolic conditions brought on by a) changes in genetic backgrounds including mutations in genes essential for control of metabolic processes, b) changes in environmental conditions such as food sources, temperature, and crowding conditions, and c) different developmental states including the dauer larva.
- This method is particularly valuable in uses that involve genetic screens and compound screens based on changes in metabolic processes such as the SREBP processing pathway, among others.
- BODIPY® conjugates have previously been used to study (1) lipid content in the surface membrane of Shistosoma mansoni worms (Redman and Kusel, Parasitology (1996) 113(2):137- 143), (2) lipid endocytosis in cultured mammalian fibroblasts (Pagano and Chen, Ann N Y Acad Sci (1998) 845:152-160), (3) lipid trafficking between the Golgi apparatus and plasma membrane of cultured mammalian fibroblasts (Pagano et al, J. Cell.
- BODIPY® fatty acid conjugates quenches background fluorescence from lysosomes, providing for more accurate quantification, is an unexpected and important advantage provided by the invention that permits large-scale, automated sorting of animals based on fluorescence.
- BODIPY®-fatty acid conjugates can be used to stain nematodes of different genetic backgrounds for use in genetic screens, both de novo screens for mutations affecting lipid content of whole nematodes and modifier screens for mutations that change lipid accumulation in mutant nematodes (for example, the insulin receptor (daf-2) or the SREBP homolog (ceSREBP) nematodes).
- mutant nematodes for example, the insulin receptor (daf-2) or the SREBP homolog (ceSREBP) nematodes.
- the intestines of the nematodes can be visually examined for lipid content under a fluorescent microscope and mutant animals can be subsequently propagated for cloning purposes. This method can be used in conjunction with automatic flow sorter technology to rapidly separate large numbers of living nematodes by lipid content.
- the method can be used to determine changes in lipid accumulation in nematodes exposed to inhibitory compounds that might serve as therapeutic agents for the control of diabetes, obesity, lipid storage diseases, or other human or animal diseases.
- a test compound can be administered to a nematode by direct contact, ingestion, injection, or any suitable method and changes in lipid content of the nematode or its progeny are observed.
- the method is applicable to reverse genetic screening using inhibitory RNA. For example, nematodes could be exposed to combinations of large numbers of RNAs in 384-well plates and screened for changes in lipid content mediated by RNAi using fluorometry or direct visual observation.
- the C. elegans genomic database was searched with the protein sequence of the human SREBP- 1, SREBP-2, and Drosophila SREBP homologue, HLH106, using the TBLASTN search tool (Altschul et al., supra).
- One C. elegans open reading frame showed significant homology with all three of the above SREBP proteins. This homology extends throughout much of the SREBP protein sequences, excluding the C-terminal part of the gene.
- the C. elegans open reading frame was located on two overlapping clones on the right arm of chromosome III (Y47D3 and H10N23). At the time of the search, there were no previous annotations, gene predictions, nor candidate mutants that mapped to this region that would suggest previous identification of this open reading frame as an SREBP-related gene.
- ceSREBP C. elegans SREBP-related gene
- ceSREBP was cloned by PCR from a mixed-stage, 1 st strand cDNA pool that was synthesized from poly-A+ RNA using the Notl primer/adapter (Life Technologies, Gaithersburg, MI).
- the N-terminal and C-terminal ends of ceSREBP were cloned using gene-specific internal primers and non-specific primers at 3' and 5' ends.
- the 5' and 3' non-specific primers were, respectively the Splice Leader 1 ("SL1") sequence (Shakes and Epstein, supra) and a modified Notl primer/adaptor (Life Technologies).
- PCR amplicons were subcloned into the PCR2.1 intermediate vector (Invitrogen, San Diego, CA) and sequenced using the Big DyeTM dye-terminator sequencing kit and the ABI377 sequencer (ABI, Foster City, CA). Sequence analysis was done with the Sequencher program (Gene Codes Corporation, Ann Arbor, MI). Sequencing primers were designed using the Oligo 4.0 program (Molecular Biology Insights, Inc.; Cascade, CO) and were selected from the predicted gene sequence and, subsequently, from sequence of newly obtained fragments.
- Sequence information obtained from the initial amplified fragments allowed subsequent amplification overlapping fragments that represented the entire cDNA. Any sequence discrepancies, either with the available genomic sequence or among different subclones of the same sequence, were resolved by sequencing multiple, independently isolated subclones of the given fragment.
- a single contiguous sequence (“contig") was assembled that shared sequence identity with the YAC sequence Y47D3 (GI3646936) from which gene predictions were made. It was mostly identical to the gene prediction in this region but contained one exon not included in the gene prediction.
- the contig contained a single open reading frame (ORF), initiation and termination codons, and a likely poly-adenylation signal. BLAST analysis of this contig against GenBank sequences, showed highest homology to other SREBPs.
- the cDNA sequence of the ceSREBP gene, SEQ ED NO:l is shown in Figure 2.
- the cDNA is 3419 nucleotides long. This full-length clone contained a single open reading frame with an apparent translational initiation site at nucleotide position 24 and a stop signal at nucleotide position 3365.
- the predicted polypeptide precursor is 1113 amino acids.
- Additional features include an acidic domain at about nucleotides 24 to 233 (amino acid residues 1 to 69); a possible second acidic domain at about nucleotides 987 to 1040 (amino acid residues 321 to 338); a basic Helix-loop- helix domain at about nucleotides 1089 to 1286 (amino acid residues 355 to 421); a first transmembrane domain at about nucleotides 1455 to 1514 (amino acid residues 477 to 497); and a second transmembrane domain at about nucleotides 1653 to 1706 (amino acid residues 543 to 561).
- SEQ ID NO:2 An alignment of the predicted protein sequence (SEQ ID NO:2) against the human and Drosophila SREBP proteins was performed. Amino acid residues 353 to 423 of SEQ LD NO:2 share 45% and sequence identity and 77% sequence similarity with amino acid residues 281-351 of Drosophila SREBP (Theopold et al, supra; GI079656). Amino acid residues 466 to 826 of SEQ ID NO:2 share 28% sequence identity and 47% sequence similarity with human SREBP2 (Gil 082805).
- ceSREBP was assayed using a transcriptional reporter system in which the putative promoter/enhancer region of ceSREBP was fused to GFP.
- the Y47D3 contig containing the N-terminal region of the ceSREBP cDNA and -25 kb upstream of the ceSREBP initiation codon was analyzed using ACEDB Genefinder and GENSCAN programs (Burge and Karlin, supra). There were no known genes within this region, and no predicted genes reported by either program. Of the two predicted genes within -8 kilobases (kb) of ceSREBP, one, -5 kb upstream of ceSREBP showed limited homologies by BLAST analysis to C. elegans expressed sequence tags (ESTs). A genomic fragment of -4.5 kb was chosen as the putative promoter/enhancer region.
- the promoter enhancer fragment was amplified by PCR.
- PCR primers were designed to amplify the -4.5 kb genomic fragment, including the first few amino acids of ceSREBP. Restriction sites were included in the primers to facilitate sub-cloning into the GFP reporter vector pPDl 17.01 (from the laboratory of Dr. Andrew Z. Fire (Fire Lab)), Carnegie Institution of Washington, Baltimore, MD) in an in- frame translational fusion to GFP.
- the sense primer nucleotides 71,242-71,265 of Y47D3 (GL3646936), contained an Ascl site;
- the antisense primer nucleotides 66,719-66,747 of Y47D3, contained a Kpnl/Asp718 site:
- PCR was performed in duplicate to provide two independently amplified promoter fragments for independent confirmation of the expression pattern and thus control for sequence errors introduced by PCR.
- the Klentaq enzyme and buffer systems were used essentially according to manufacturer's protocols. From each original PCR reaction, a single clone that contained the expected insert was identified. The putative promoter/enhancer fragments were ligated into Ascl and Asp718 restriction sites in pPDl 17.01 to create "ceSREBP:: GFP.” ceSREBP: :GFP was injected into N2 worms using standard protocols for C.
- the ceSREBP promoter contained within nucleotides 66,719-71,265 of Y47D3 (GL3646936), has utility as a tissue specific promoter that can be operably linked to heterologous sequences, such as marker genes and/or genes of interest.
- the ceSREBP promoter can be used for studying biochemical pathways within the intestine of C. elegans.
- RNAi experiments were performed with C. elegans SREBP pathway genes in order to generate loss-of-function phenotypes that could help elucidate the function of the SREBP pathway in C. elegans.
- PCR was carried out on C. elegans sequences for SREBP (SEQ ID NO:l) and S2P (Rawson et al., supra; Gil 559384), and a Genbank sequence (GI3875380), that is annotated as having HMG-CoA reductase homology, and additionally has been determined to have homology to the human SCAP protein. Accordingly, GI3875380 is refe ⁇ ed to herein as ceSCAP. Fragments of between 0.3kb to 1.2kb were produced in regions of interest. In general, mixtures of fragments that individually corresponded to different regions of the genes and together covered most of the central region of each gene were injected.
- ceSREBP For ceSREBP, these fragments spanned a mid-region of -1.4 kb, excluding the amino-terminal ⁇ 0.6 kb and the carboxy- terminal -1.4 kb.
- ceS2P dsRNA fragments excluded the amino terminal -0.7 kb and carboxy-terminal -0.3 kb and covered the central region.
- ceSCAP fragments covered most of the coding sequence, excluding the amino-terminal -0.4 kb and the carboxy-terminal -lkb.
- PCR was carried out with 0.5 ⁇ M each primer and 0.4 ⁇ g genomic DNA using the ExpandTM PCR Kit (Roche) at 94°C 1 min 15 sec; and 35 cycles of: 94°C 15 sec, 57°C 45 sec, and 72°C 1 min.
- RNA polymerase Promega, Madison, WI; RNA production kit, Cat#1300
- RNA samples were ethanol-precipitated and resuspended in 20 ⁇ l of RNAse-free TE (lOmM tris, ImM EDTA), followed by 10 ⁇ l of RNase free 3X LM annealing buffer (20mM KPO4 pH7.5, 3mM KCitrate pH 7.5, 2% PEG 6000). The reactions were incubated at 68°C for 10 minutes and then at 37°C for 30 minutes to anneal the sense and antisense strands.
- Injection volumes were selected to deliver 0.5xl0 6 to lxlO 6 molecules of RNA. Injections were delivered to the gonads or the intestinal cavity of C. elegans, and were carried out using the methods of Fire et al. (Development (1991) 113:503- 514).
- RNAi For germline RNAi, adult animals were microinjected with RNA into either the gonad or intestine using a glass needle mounted on a Medical Systems Corp. (Holliston, MA) PLI-90 injector.
- RNAi of larvae wild type LI larvae were isolated by first collecting embryos from gravid adults by digestion in 1.25% sodium hypochlorite, 0.25M potassium hydroxide, and then allowing the embryos to hatch overnight in M9 buffer. Equal volumes of larvae in M9 buffer and RNA were mixed in wells of microtiter plates, incubated for 24 hours at 15°C, and then transferred to standard nematode growth plates.
- M9 buffer per liter: 30gr Na 2 HPO 4 , 15g KH 2 PO 4 , 2.5g NaCl, 5g NH 4 C1
- FL.C12 stock solution is lmg/ml in ethanol
- the worms were placed on a benchtop shaker overnight at room temperature to absorb the dye. Images were captured using a fluorescence microscope (AxioplanTM, Zeiss, Thornwood, NY) the next day.
- Germline ceSREBP RNAi produced several visible phenotypes in the progeny of the microinjected animals.
- the gross phenotype was a fully penetrant larval arrest.
- Arrested larvae appeared to be at the L2 stage based on gonad and cuticle morphology, although their length was more similar to that of LI stage larvae.
- Arrested larvae remained motile and feeding for several days at 20°C before dying.
- Their intestine appeared paler, or less darkly pigmented, than wild type, and this is referred to as the "pale intestine" or "Pin" phenotype.
- ceSREBP is required for formation and/or maintenance of lipid droplets in the intestine, the main lipid storage organ of C. elegans.
- the gut granules appeared larger and more birefringent than in wild type.
- the vesicles in ceSREBP RNAi larvae were usually each associated with a gut granule, and they showed autofluorescence similar in color and intensity to that of gut granules.
- ceSREBP RNAi larvae Since gut granules are thought to be lysosomal structures, the abnormal vesicles in ceSREBP RNAi larvae may also have been lysosomal in origin. The larval arrest and morphological defects in the intestine described above were also observed in mutant larvae homozygous for the ceSREBP partial deletion allele "ep79 (see Example 4), " suggesting that germline RNAi reproduced the zygotic null phenotype. ceSREBP RNAi of larvae at the LI stage resulted in apparently normal development through the L2 stage, with approximately normal accumulation of intestinal pigmented droplets. However, most larvae arrested at the L3 or L4 stage and failed to maintain their droplets.
- ceSREBP RNAi larvae were defective in digesting and/or metabolizing food. ceSREBP RNAi larvae showed greater dispersal away from the food source than wild type, possibly because they could not derive nutrients from the bacteria. Gut granules of the arrested larvae and adults were often larger and more birefringent that normal. Adults that displayed the Pin phenotype had fewer embryos than normal in their uterus, suggesting reduced fecundity, and some of the embryos showed variable developmental defects. Finally, Pin adults often contained large, transparent vacuoles in the anterior half of the intestine.
- vacuoles were distinct from the abnormal vesicles observed in larvae, since the vacuoles were irregularly shaped and not auto fluorescent, although their origin remains unidentified.
- ceSREBP RNAi of larvae at the L2 stage resulted in the same defects as LI treatment, but mainly in later stages of development. Most animals arrested at the L4 stage or displayed the adult defects.
- RNAi feeding experiment A DNA vector in which a portion of the ceSREBP cDNA was inserted between two T7 promoters was constructed and introduced into E. coli that express the T7 polymerase. The fragment contained most of the coding sequence except the amino-terminal -600 nucleotides. The bacteria generated both sense and antisense transcripts, and thus produced dsRNA of ceSREBP. When fed to wild type nematodes, these E. coli produced the same phenotypes obtained from RNAi treatment of L2 larvae, namely, pale intestine, reduced body size, and reduced fecundity.
- Germline RNAi of the ceS2P resulted in apparently normal development through the adult stage.
- adults showed a fully penetrant phenotype, exhibiting all the defects observed for ceSREBP larval RNAi except larval arrest.
- the adult phenotype included a small, thin body, pale intestine associated with few lipid droplets, abnormally large and birefringent gut granules, large vacuoles in the anterior intestine, fewer embryos in the uterus, and variable developmental defects in some of the embryos.
- the gut granule defects seemed more pronounced than observed for ceSREBP RNAi.
- RNAi phenotypes for ceS2P and ceSREBP strongly suggested that these two genes function in a common genetic pathway.
- the lack of effect of ceS2P RNAi on larval development may indicate functional redundancy with an unidentified gene or reduced potency of RNAi for ceS2P compared to ceSREBP.
- Germline RNAi of the SCAP homologue generated a phenotype similar to ceS2P RNAi in less than 10% of adults. Defective adults displayed a pale intestine, small and thin body, few embryos in the uterus, and slightly more birefringent gut granules. Germline RNAi of both ceS2P and ceSCAP together produced a fully penetrant phenotype indistinguishable from ceSREBP germline RNAi. This phenotype included L2-L3 larval arrest, pale intestine associated with few or no intestinal lipid droplets, and abnormally large and birefringent gut granules.
- ceS2P and ceSCAP homologues function in the ceSREBP genetic pathway at all larval and adult stages. If RNAi of ceS2P or ceSCAP produced the null phenotype for these genes, then there must exist other gene activities that can partially substitute for their functions, presumably in proteolytic cleavage at site 2 and 1 analogues, respectively, of ceSREBP.
- Tel transposon insertion library comprising 3 sets of 960 cultures was constructed according to published protocols (Zwaal et al, supra, and Plasterk, supra). Library screening
- the library was screened in individual tiers, each library having three tiers, with each tier composed of 1,000 lysates or -200,000 haploid genomes. Lysates were pooled according to the published protocol.
- a first dimension screen involved PCR on 8 samples of pooled DNA from ten 96-well plates.
- a second dimension screen was used to determine which of the ten 96-well plates contained the desired mutant (involved screening of 10 DNA pools).
- a third dimension screen was used to determine the "address" of a particular mutant (i.e., in which column and row a particular mutant resided - via screening of 12 individual lysates from a single row). First dimension reactions were done in quadruplicate; second and third were done in triplicate.
- the second PCR reaction was designed to be a nested reaction. Accordingly, two nested pairs of Tel primers were used: one pair pointing outward from the left of the transposon, and the other pair pointing outward from the right (these primer pairs are described in the references cited above).
- the gene- specific primers are all contained within SEQ ED NO:l or intervening intron sequence contained within Y47D3 (see Table I in Example I).
- the first and second round PCR for each dimension was performed in 15 ⁇ l total volume using the following in each reaction: IX PCR buffer provided by the manufacturer (Perkin-Elmer), 1.5 mM MgCl 2 , 0.2 mM dNTPs, 0.5 ⁇ M each of the Tcl and the gene-specific primer, 0.5 units of Taq Polymerase (Perkin-Elmer); and H 2 O to 13 ⁇ l for the first round reactions, and to 15 ⁇ l for the second round
- First and Second dimension 2 ⁇ l of 1 :20 diluted DNA was added; 1:10 DNA diluted was added to the third dimension reactions. A small amount of first round reaction was transferred to the second round using a pin replicator. PCR cycling conditions were: 94°C for 3 minutes; then 94 °C for 40 seconds, 58°C for 1 minute, 72°C for 2 minutes for 35 cycles; then 72°C for 2 minutes.
- the "6D2" address, located downstream of the two predicted transmembrane domain coding regions was chosen for further analysis based on its relatively central location within the SREBP gene.
- Nematodes were recovered from a frozen stock representing the 6D2 address. In order to identify a nematode carrying the insertion, individual surviving nematodes were transferred to individual plates. After progeny from these nematodes were present on the plates, the parent nematodes were transferred into individual wells of a 96-well plate that contained 5 ⁇ l of nematode lysis buffer (100 mM KC1, 20 mM Tris- HCl pH 8.3, 5 mM MgC12, 0.9% Nonidet P-40, 0.9% Tween-20, 0.02% gelatin, and 400 ⁇ g/ml proteinase K).
- nematode lysis buffer 100 mM KC1, 20 mM Tris- HCl pH 8.3, 5 mM MgC12, 0.9% Nonidet P-40, 0.9% Tween-20, 0.02% gelatin, and 400 ⁇ g/ml proteinase K.
- the nematodes were lysed in a PCR machine at 60°C for one hour, followed by 95°C for 15 minutes. 18 ⁇ l of a PCR master mix then was added to the crude lysates (to give -20 ⁇ l total reaction volume, assuming evaporation of a portion of the lysate); this mix contained IX reaction buffer (Perkin-Elmer), 1.5 mM MgCl 2 , 0.2 mM each dNTP, 0.5 ⁇ M each gene-specific primer, 0.5 units Taq polymerase, and dH 2 O to 18 ⁇ l per reaction
- IX reaction buffer Perkin-Elmer
- PCR reactions were cycled using a program identical to that used for screening the library for the insertions described above. Subsequently, a second round of PCR was performed using the same conditions and primers described above for the insertion screen, after transferring a small amount of the first round reaction to the second round master mix using a pin replicator. Reactions were analyzed on agarose gels for insertion products identical in size to those observed in the original screen for insertions.
- a small library consisting of 244 cultures of 6D2 insertion nematodes was generated.
- -5-10 nematodes homozygous for the 6D2 insertion were seeded onto individual plates. After these nematodes had grown, reproduced, and consumed all of the bacteria on these plates, triplicate lysates representing these cultures were created.
- a sample of nematodes from each plate was collected by washing the plate with distilled water, and placing the nematodes washed from each plate in one well of a 96-well plate. This was repeated two additional times to create a triplicate set of lysates. Nematodes were lysed by addition of an equal volume of lysis buffer followed by incubation at -80°C for 15 minutes, 60°C for 3 hours, and 95°C for 15-30 minutes.
- Deletion screening was carried out using a PCR-based approach similar to that used for insertion screening, both of which have been described previously (Zwaal et al., supra; and Plasterk, supra).
- Two sets of gene-specific primer pairs were chosen for carrying out a nested PCR strategy such that an outside set was used for the first round of PCR and an inside set was used for the second round of PCR.
- the second round of PCR was performed to achieve greater specificity in the reaction.
- the primer sets chosen were -3.2 kb apart in the ceSREBP genomic sequence (within the typical range for Tcl deletion screening) flank either side of the Tcl insertion in the 6D2 population.
- the first round PCR reactions were performed using 2 ⁇ l of lysate from two of the three sets of lysates, with reactions carried out in a 96-well plate. PCR was done as described above for identification of insertions.
- the reactions were carried out in duplicate using the following cycling parameters: 94°C for 3 minutes, then 35 cycles of the following: 94°C for 40 seconds, 55°C for 1 minute, and 72°C for 1 minute.
- the second round of PCR was essentially the same.
- a small amount of first-round reaction products was transferred to the second-round reaction mixtures using a 96-pin replicator.
- Products of the second round of PCR were analyzed by electrophoresis in 1% agarose gels. A potential deletion product was observed in both of the reactions, and the putative positive lysate was re-tested by performing duplicate reactions using the relevant lysate from all 3 sets of the library (for a total of six reactions) in two rounds of PCR as described above. The product was gel purified and sequenced directly to confirm the presence of the desired deletion. In addition, in order to confirm that the deletion product obtained was specific for the SREBP region (i.e. not an artifact of the PCR), an additional primer set was used in two rounds of PCR. A separate set of reactions was performed using all three lysates and one of the two original primer pairs.
- This primer set was chosen such that the PCR product generated would be -100-300 base-pairs different in size from the original deletion product, resulting in a noticeable shift in size from the original product when analyzed on l%o agarose gels.
- This part of the screening procedure is termed the "specificity test”.
- This procedure to screen the 244 lysates from the 6D2 insertion library with the primers listed above one deletion of -2.2 kb within the ceSREBP genomic region was identified, and confirmed by the specificity test and by sequence analysis. This deletion begins within intron 6, and ends within exon 9 of the ceSREBP gene. This partial deletion allele was named ceSREBP (ep79).
- deletion mutation was placed in trans to a balancer chromosome and maintained as a heterozygous strain. Reduction or elimination of function mutations often recapitulate phenotypes observed by RNAi, and ceSREBP RNAi resulted in larval arrest. Accordingly, homozygous deletion mutants would not be able to propagate themselves if the mutation produced a larval arrest phenotype.
- dS2P Drosophila S2P
- a full length clone (SEQ ED NO:3) was identified that contained a single open reading frame with an apparent translation start site at nucleotide position 219, and a stop signal at nucleotide position 1745.
- the predicted polypeptide precursor is 508 amino acids long (SEQ ED NO:4).
- a search of the PFam and PROSITE databases (Sonnhammer et al., Genomics (1997) 46:200-216; Bairoch et al. NAR (1991) 19 Suppl:2241-2245; and Hofmann et al., NAR (1999) 27:215-219) revealed seven transmembrane domains and a PDZ domain.
- the transmembrane domains are located at approximately amino acid residues 4 to 20 (TM1), 82-98 (TM2), 143-159 (TM3), 163-179 (TM4), 208-224 (TM5), 428-444 (TM6) and 478-494 (TM7).
- the putative PDZ domain is located at approximately amino acid residues 215-285.
- the most homologous sequence was human S2P (GI2745733) which shared 9 contiguous amino acids at positions 201-207 of SEQ ID NO:4. Amino acids 127 to 501 of SEQ ID NO:4 shares 32 % sequence identity with amino acids 148 to 515 of GI2745733.
- the Drosophila SCAP homologue (dSCAP) identified herein was cloned by PCR based on sequence from a gene prediction and from 5' RACE.
- BLAST analysis of the hamster SCAP (GI1675220) revealed a genomic PI clone, DS06954, with regions of high homology.
- GENSCAN gene finder analysis of this PI predicted a cDNA that included these homologous regions and was partially covered by ESTs.
- dSCAP was cloned in overlapping N-terminal and C-terminal fragments.
- N-terminal sequence not represented within the gene prediction was obtained by RACE from embryo cDNA prepared with Marathon system (Clontech). A short N-terminal fragment was amplified using non-specific primer API to the Marathon adaptor and an antisense primer contained within the 5' EST. Amplification was performed with KlentaqTM enzyme and buffers, essentially according to manufacturer's recommendations.
- the major -0.7 kb PCR product was cloned into the pCRII shuttle vector (Invitrogen) and completely sequenced using Ml 3 forward and reverse primers, and the start codon was identified. Based on the N-terminal sequence identified, a longer N-terminal and an overlapping C-terminal fragment were amplified.
- a full-length contig was identified that contained a single open reading frame with an apparent translational initiation site at nucleotide position 73 and a stop signal at nucleotide position 3786 (SEQ ED NO:5).
- the predicted polypeptide precursor is 1237 amino acids long (SEQ ED NO:6). Additional features include:
- GB1 at nucleotides 2509 to 2617, corresponding to amino acid residues 812 to 848;
- GB2 at nucleotides 3080 to 3196, corresponding to amino acid residues 1005 to 1041 ;
- GB3 at nucleotides 3208 to 3325, corresponding to amino acid residues 1045 to 1084;
- GB4 at nucleotides 3337 to 3445, corresponding to amino acid residues 1088 to 1124;
- TM1 at nucleotides 991 to 1039, corresponding to amino acid residues 306 to 322; TM2 at nucleotides 1117 to 1165, corresponding to amino acid residues 348 to 364; TM3 at nucleotides 1180 to 1228, corresponding to amino acid residues 369-385; TM4 at nucleotides 1366 to 1414, corresponding to amino acid residues 431-447; TM5 at nucleotides 1753 to 1801, corresponding to amino acid residues 560 to 576; and TM6 at nucleotides 2353 to 2401, corresponding to amino acid residues 760 to 776.
- dSCAP The presence of other gene and protein sequences bearing significant homology to dSCAP (SEQ ED NO:5) was investigated using BLAST (Altschul et al., supra) against nucleotide databases. This revealed that dSCAP is covered by two genomic clones from BDGP: DS06954 (PI D338, GI 4454581), and DS05325 (PI D340, GI 4454581). The accession number for the two clones is AC007121. Other sequences bearing nucleotide homology with dSCAP are human mRNA for KIAA0199 gene (GI 1228046), and Cricetulus griseus SCAP mRNA (GI 1228046).
- dSCAP shares homology with the following sequences: C. elegans predicted SCAP D2013.8 (GI 642180), Homo sapiens KIAA0199 gene (GI 1228047), Cricetulus griseus SCAP (GI 1675220), and is similar to the transmembrane domain of HMG-CoA reductase (GI 3875380).
- dSREBP.CA Drosophila SREBP
- SEQ ID NO:8 amino acids 1-448 of dSREBP (SEQ ID NO:8), including the acid blob and bHLH-Zip domain, but terminated just prior to the first membrane-spanning domain, where a stop codon was added. It thus required no proteolytic processing for activation of transcriptional targets.
- pExPress is a vector designed specifically for misexpression of genes in transgenic Drosophila that was derived from pGMR (Hay et al, supra).
- the vector is 9Kb long, and contains the following components: an origin of replication for E. coli, an ampicillin resistance gene, P element transposon ends, a White marker gene, and an expression unit comprising the TATA region of hsp70 enhancer and the 3' untranslated region from the -tubulin gene.
- the expression unit contains a first multiple cloning site (MCS) designed for insertion of an enhancer and a second MCS located 500 bases downstream, designed for the insertion of a gene of interest.
- dSREBP.CA was cloned into the EcoRI site of the second MCS.
- the expression construct was injected into yw Drosophila embryos using standard protocols for Drosophila transformation (Rubin and Spradling, supra).
- a variety of GAL4 driver lines were used to drive mis-expression of the transgenes.
- Driver lines Kruppel, Rhomboid, and 1878 are available from the University of Indiana (http://flybase.bio.indiana.edu) and drive expression in many tissues in 3 rd instar larvae, including the gut, fat body and nervous system.
- Lines T93 and Tl 13 were kindly provided by Tian Xu (Yale University School of Medicine, New Haven, CT) and drive expression primarily in larval fat body.
- dSREBP.CA produced a lethal phenotype when expressed by the 1878, Kruppel, or Rhomboid drivers.
- Expression via the T93 driver produced a range of phenotypes which included reduced male viability, reduced female fertility, adults with shrunken abdomens and a starved appearance, persistence of the larval fat body in adults, and a short life span.
- Expression via the Tl 13 driver produced mostly pupal lethality. Most adult survivors were female and displayed the shrunken abdomen phenotype.
- the Drosophila homologue of mammalian SIP was cloned based on sequence from an EST library that was prepared from tissue from mixed stage embryos, larval imaginal discs, and adult fly heads. mRNA from these tissue was used to construct a random primer library that was normalized using a modification of the method described by Bonaldo et al. (Genome Research (1996 6:791-806). The total number of colonies picked for sequencing from the normalized library was 240,000. The reactions were primarily carried out with primer that initiated at the 5' end of the cDNA inserts. Clones that were of biological interest or that could extend assemblies of contiguous sequences ("contigs") were also sequenced from the 3' end. DNA sequencing was carried out using ABI377 automated sequencers and used either ABI FS, dirhodamine or BigDye chemistries (Applied Biosystems, Inc., Foster City, CA).
- the predicted full-length dSIP nucleic acid was amplified using PCR and sequenced. Sequences were assembled using Phred/Phrap and analyzed using Consed. This effort resulted in a contiguous nucleotide sequence of 3160 bases in length, encompassing an open reading frame (ORF) of 2979 nucleotides encoding a predicted protein of 993 amino acids.
- the ORF extends from base 62-3040 of SEQ ED NO:l.
- Nucleotide and amino acid sequences for the dSIP nucleic acid sequence and the encoded protein were searched against all available nucleotide and amino acid sequences in the public databases, using BLAST (Altschul et al, supra). At the protein level, the closest homologs predicted by BLAST analysis were the human and hamster SIP sequences (GI 4506775 and GI 7522635) and mouse and rat proteins related to subtilisin (GI4679093 and GI 4679095).
- EXAMPLE 9 GENETIC INTERACTIONS OF C. ELEGANS SREBP, INSULIN RECEPTOR, AND TGF-B PATHWAY GENES Genetic and Phenotypic Analyses:
- Loss-of-function and reduction-of function mutations in either the daf-2/ ⁇ nR (GI2338417) or daf-7/TGF- ⁇ (GI1684866) signaling pathways that confer a dauer- constitutive phenotype also produce a dark intestine phenotype associated with increased accumulation of lipid droplets in the intestine (Kimura KD et al, Science (1997) 277:942-946).
- the dark intestine phenotype can occur in late larvae and adults independent of dauer formation, and appears to be the reciprocal of the pale intestine phenotype cause by reduction of SREBP function and associated with decreased accumulation of intestinal lipid droplets.
- daf-2 el 370
- Kimura et al, supra adults grown on E. coli expressing double-stranded RNA for part of the C elegans SREBP gene produced larvae and adults that showed significantly more intestinal pigmentation and lipid droplets than similarly treated wild-type animals.
- the accumulation of lipid droplets was intermediate in amount between that of RNAi - treated and untreated wild-type animals.
- the ep79 mutation deletes the C-terminus of the SREBP protein, including the Site-1 protease and Site-2 protease processing sites but not the N-terminal transcription factor domain, and acts genetically as a reduction-of-function mutation.
- the daf-7/TGF- ⁇ pathway acts in parallel with the daf-2/InR pathway in a non- redundant manner to inhibit dauer formation (Riddle DL and Albert PS, 1997, .in C. elegans II (eds. DL Riddle, T Blumenthal, BJ Meyer, and JR Priess), Cold Spring Harbor Laboratory, Cold Spring Harbor, NY, pp. 739-768.).
- the daf-7 (el 372) temperature-sensitive mutation (GI1684866; Ren PC et al, Science (1996) 274: 1389-1391) at the permissive temperatures 20°C and 15°C behaved as a weak suppressor of the pale intestine phenotype produced by RNAi of ceSREBP.
- the daf-14/Sm.ad gene (GI6110600) acts downstream of d ⁇ f 7/TGF- 3, and a putative null mutation of d ⁇ f-1 ' 4, m77 (Inoue T, and Thomas JH. Dev. Biol. (2000) 217: 192-204), partially suppressed the SREBP reduction of function. Interestingly, this suppression was nearly complete at 15°C.
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Abstract
L'invention porte sur des Drosophila melanogaster et le C. elegans modifiés génétiquement pour exprimer ou mésexprimer des protéines intervenant dans le mécanisme de la protéine de fixation des éléments régulateurs des stérols (SREBP). Ces modèles d'animaux génétiquement modifiés présentent des phénotypes identifiables les rendant utiles dans des essais servant à l'étude: du métabolisme des lipides, d'autres gènes intervenant dans le métabolisme des lipides, et de composés capables de moduler le mécanisme du métabolisme des lipides. L'invention porte également sur des méthodes d'étude du métabolisme des lipides chez des nématodes vivants à l'aide de conjugués d'acide gras marqués par fluorescence tels que les conjugués BODIPYTM, et sur de nouvelles séquences d'acides nucléiques et de protéines du mécanisme de la protéine SREBP.
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US332522 | 1999-06-14 | ||
US09/332,522 US6781028B1 (en) | 1999-06-14 | 1999-06-14 | Animal models and methods for analysis of lipid metabolism and screening of pharmaceutical and pesticidal agents that modulate lipid metabolism |
US18970000P | 2000-03-15 | 2000-03-15 | |
US189700P | 2000-03-15 | ||
PCT/US2000/015880 WO2000076308A1 (fr) | 1999-06-14 | 2000-06-08 | Modeles animaux et methodes d'analyse du metabolisme des lipides et criblage d'agents pharmaceutiques et de pesticides modulant le metabolisme des lipides |
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JP (1) | JP2003501102A (fr) |
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AUPP249298A0 (en) | 1998-03-20 | 1998-04-23 | Ag-Gene Australia Limited | Synthetic genes and genetic constructs comprising same I |
CN101818145A (zh) | 1998-03-20 | 2010-09-01 | 联邦科学和工业研究组织 | 控制基因表达 |
US7803765B2 (en) | 1999-05-05 | 2010-09-28 | Phylogica Limited | Methods of constructing biodiverse gene fragment libraries and biological modulators isolated therefrom |
US6423885B1 (en) | 1999-08-13 | 2002-07-23 | Commonwealth Scientific And Industrial Research Organization (Csiro) | Methods for obtaining modified phenotypes in plant cells |
US7037676B2 (en) | 2000-03-21 | 2006-05-02 | Bristol-Myers Squibb | Drosophila tumor necrosis factor class molecule polynucleotides and variants thereof |
WO2002055663A2 (fr) * | 2001-01-12 | 2002-07-18 | Exelixis, Inc. | Modulation du passage srebp par des hisrs cibles |
AUPR621501A0 (en) | 2001-07-06 | 2001-08-02 | Commonwealth Scientific And Industrial Research Organisation | Delivery of ds rna |
WO2005030985A2 (fr) * | 2003-09-25 | 2005-04-07 | Devgen N.V. | Utilisation de sequences d'acides amines impliquees dans l'elongation d'acides gras lors de l'identification et/ou du developpement de composes destines a prevenir et/ou a traiter des maladies metaboliques |
AU2005250511B2 (en) * | 2004-06-03 | 2012-01-19 | Phylogica Limited | Peptide modulators of cellular phenotype and bi-nucleic acid fragment library |
WO2006009814A2 (fr) * | 2004-06-18 | 2006-01-26 | The Regents Of The University Of Colorado | Produits et procedes associes a des acides gras en chaine ramifiee monomethyle |
DK1987178T3 (en) | 2006-02-20 | 2015-04-20 | Phylogica Ltd | Process for the construction and screening of peptide structure libraries |
AU2007299562A1 (en) | 2006-09-19 | 2008-03-27 | Phylogica Limited | Neuroprotective peptide inhibitors of AP-1 signaling and uses therefor |
ES2302625B1 (es) * | 2006-09-30 | 2009-05-29 | Consejo Sup. De Invest. Cientificas | Modelo animal no humano util para la identificacion de compuestos farmaceuticos reguladores de la via hedgehog, procedimiento de obtencion y su utilizacion en un procedimiento de identificacion de compuestos farmaceuticos reguladores de la via hedgehog. |
US8822409B2 (en) | 2007-06-20 | 2014-09-02 | Phylogica Limited | Compositions and uses thereof for the treatment of acute respiratory distress syndrome (ARDS) and clinical disorders associated with therewith |
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2000
- 2000-06-08 JP JP2001502665A patent/JP2003501102A/ja active Pending
- 2000-06-08 WO PCT/US2000/015880 patent/WO2000076308A1/fr not_active Application Discontinuation
- 2000-06-08 EP EP00939730A patent/EP1196026A1/fr not_active Withdrawn
- 2000-06-08 CA CA002373628A patent/CA2373628A1/fr not_active Abandoned
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