GB2334580A - Method of detecting and differentiating a tagged exogenously applied protein from the endogenous protein - Google Patents
Method of detecting and differentiating a tagged exogenously applied protein from the endogenous protein Download PDFInfo
- Publication number
- GB2334580A GB2334580A GB9825104A GB9825104A GB2334580A GB 2334580 A GB2334580 A GB 2334580A GB 9825104 A GB9825104 A GB 9825104A GB 9825104 A GB9825104 A GB 9825104A GB 2334580 A GB2334580 A GB 2334580A
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- tagged
- molecule
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- growth hormone
- polypeptide
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- C07K14/475—Growth factors; Growth regulators
- C07K14/505—Erythropoietin [EPO]
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- C—CHEMISTRY; METALLURGY
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- C07K14/575—Hormones
- C07K14/60—Growth hormone-releasing factor [GH-RF], i.e. somatoliberin
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- C—CHEMISTRY; METALLURGY
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- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
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- C07K14/61—Growth hormone [GH], i.e. somatotropin
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- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/58—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving labelled substances
- G01N33/582—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving labelled substances with fluorescent label
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Abstract
Disclosed is a method of detecting the presence in a sample of a polypeptide exogenously administered to a mammalian subject from whom the sample is obtained, and distinguishing between such an exogenously administered polypeptide and a naturally-occurring endogenous polypeptide present in the sample; the method comprising obtaining a sample from the subject; and subjecting the sample to analysis of fluorescence at a suitable wavelength; wherein the exogenously administered polypeptide is tagged with a greater or lesser amount of fluorescence activity, relative to the untagged endogenous polypeptide, at the wavelength(s) analysed.
Description
Title: Improvements in or Relating to Detection of Molecules in Samples
Field of tile Invention
This invention relates to tagged molecules (distinguishable from untagged, but otherwise identical, molecules), methods of preparing tagged molecules, nucleic acid sequences and constructs encoding tagged molcules, and a method of distinguishing between tagged and untagged (but otherwise identical) molecules.
In particular, the present invention relates to a method of tagging a protein with a therapeutically acceptable tag which enables detection of the tagged protein administered exogenously to humans, bovines or other animals where the same (but untagged) protein is produced endogenously, and a method of detecting and differentiating the tagged protein over the endogenous protein. In particular, the method is suitable for application to human growth hormone (hGH), to enable differential detection of exogenously administered hGH in humans, for example, to determine whether hGH is being administered unlawfully for its performance enhancing effects.
Background of the Invention
Previously, the usual method of differentiating exogenously administered protein from the endogenous one has been to tag the exogenous protein with radioactive labels. Because of the hazards of radioactivity, radioactively tagged proteins are administered to patients over short periods of time in controlled conditions and under medical supervision. Further, radioactive labels are not therapeutically acceptable since they are intrusive to the biological system in which such tagged proteins are administered. Other tagging methods tend to alter the biological function of the protein molecule and therefore, are no longer suitable for therapeutic use. Such prior art tagging methods are therefore limited to controlled research uses and do not have widespread cost effective commercial applications.
Some amino acids, for example tryptophan (W) and tyrosine (Y) in particular, are natural fluorophores, which fluoresce when appropriately stimulated. This fluorescence can be detected and measured with standard prior art fluorescence detection techniques. Proteins which contain such fluorophores in their amino acid sequence may also fluoresce when appropriately stimulated. The level of fluorescence can be crudely related to the number of fluorophores in the protein. The fluorescent yield of any fluorophore is sensitive to its local environment such that, for example, there may be a difference between its fluorescence in an aqueous and a hydrophobic environment. Waldman et al (1987 Biochem. Biophys. Acta 931, 66-71; 1988 Biochem. Biophys Res. Comm. 150 (2), 752-759), Corinne (1991
Biochemistry 30, 1028-1036) and others have exploited this property to perform in vitro laboratory studies on conformational and structural changes of lactate dehydrogenase when, for example, substrate binding occurs. Waldman and Corrine have mutated lactate dehydrogenase to incorporate tryptophan residues at the substrate binding site. This technique is restricted to use as a research tool for conformational and structural studies of proteins in vitro, since often the full biological activity or structural conformation of the native protein is lost. Thus, such modified proteins are no longer suitable for therapeutic purposes and there is no disclosure or suggestion of pharmaceutical compositions comprising the mutated protein. Moreover, there is no disclosure or suggestion in the prior art that such mutations could form the basis for a method of distinguishing the altered compound from the naturally occurring compound.
WO 94/10200 discloses and is concerned with amino acid substitutions in somatotropin (i.e.
Growth Hormone) which provide increased conformational and chemical stability.
There is no suggestion in WO 94/10200 that modifications can be made to Growth Hormone for the purpose of distinguishing between endogenous Growth Hormone present in a subject and exogenous Growth Hormone administered to the subject. A number of amino acid substitutions in somatotropin are disclosed or suggested in WO 94/10200 which, because of the natural fluorophore activity of the amino acid residues tryptophan and tyrosine (discussed above) result in a somatotropin molecule having an altered fluorescence activity relative to the wild type, unsubstituted molecule. Such substitutions include the following: G40 > Y (i.e. glycine substituted by tyrosine at residue number 40); F52~Y; W86 < F, Y, L, I or V; F103 Y; I137Y; A reliable method for differentiating and detecting exogenously administered hGH is particularly desirable when attempting to monitor the pharmacokinetics and/or pharmacodynamics of hGH, or to detect its unlawful administration by athletes and others who illicitly use hGH for improving their performance. Presently, standard detection methods (e.g. HPLC, ELISA), are used for measuring the total amount of hGH in an athletes' blood or urine samples, and by subtracting the expected levels referenced to the general population, estimations of elevated hGH levels can be made. However, as levels vary considerably between individuals, and exogenous levels fall rapidly with time, this is a very crude measurement. In addition, as the performance enhancing effects last much longer than the detectable transient elevated levels of hGH in these samples, unless samples are taken shortly after administration the technique does not give indisputable proof that exogenous hGH has or has not been used.
The present invention seeks to alleviate the above mentioned problems by tagging or modifying a protein (such as hGH) with a therapeutically acceptable tag which can be detected simply and can be differentiated from the endogenous protein present in a sample of cells, blood, urine or other body fluid. The invention has little or no effect on the biological activity of the protein, such that the modified protein can be administered therapeutically in the same manner as the unmodified protein. Thus, the modified or tagged protein can be safely prescribed by physicians for existing or new therapeutic purposes, and also economically manufactured commercially at substantially the same cost as the untagged protein.
A further advantage of the present invention is that although levels of the exogenous protein may drop rapidly after administration, the specificity for the tagged protein and high sensitivity of the detection method allow detection long after the exogenous protein has been administered. Thus, an abuser cannot claim abnormally elevated production of the endogenous protein, and unlawful use of the tagged protein can be detected. Additionally, the present invention allows the pharmacokinetics and/or pharmacodynamics of the tagged exogenous protein to be detected and monitored.
Therefore, it is an object of the present invention to provide a method for tagging proteins which method enables detection of the exogenous tagged protein over any endogenous polypeptide which may be present in a sample (e.g. such as blood or urine) taken from, for example, a human subject (e.g. an athlete) or other mammalian subject (e.g. domesticated farm livestock).
It is another object of the present invention to provide a modified polypeptide molecule such as hGH, tagged in a manner which is therapeutically acceptable. Further, the tagging method of the present invention enables the biological activity per se of a protein to remain substantially unaltered such that the therapeutic efficacy is maintained and the protein can be administered in a manner identical to or similar with the unmodified protein.
A further specific object of the present invention is to provide a modified hGH molecule substituted with tryptophans at strategic positions in the native hGH sequence.
Summary of the Invention
In a first aspect, the invention provides a method of detecting the presence in a sample of a polypeptide exogenously administered to a mammalian subject from whom the sample is obtained, and distinguishing between such an exogenously administered polypeptide and a naturally-occurring endogenous polypeptide present in the sample; the method comprising obtaining a sample from the subject; and subjecting the sample to analysis of fluorescence at a suitable wavelength; wherein the exogenously administered is tagged with a greater or lesser amount of fluorescence activity, relative to the untagged endogenous polypeptide, at the wavelength(s) analysed.
In a second aspect, the invention provides a composition for administration to a mammalian subject, the composition comprising a polypeptide and a physiologically acceptable carrier substance, characterised in that the polypeptide is tagged with a greater or lesser amount of fluorescent activity relative to an untagged polypeptide endogenously present in the subject, the tagged molecule thereby being distinguishable from the untagged molecule by analysis of the fluorescence characteristics of the respective molecules, excluding those compositions in which the tagged molecule is Growth Hormone and wherein the fluorescent tagging consists solely of one or more of the following substitutions in the tagged Growth Hormone:
G40 < Y; F52 > Y; W86 F, Y, L, I or V; F103 > Y; and 1137 - Y.
The tagged molecule is a polypeptide, which may typically be administered to a mammalian subject to exert a beneficial effect (e.g. for clinical or veterinary reasons, or for reasons of animal husbandry). The mammalian subject will generally be human, but may also be a domesticated animal, especially a farm animal such as a bovine, porcine or ovine animal.
The tagged molecule will generally therefore be a therapeutic polypeptide (i.e. comprises five or more amino acid residues and has a desirable effect on the subject, with little or no undesired side effect, when administered in an appropriate dose) and will possess the same biological activity as, and normally be substantially identical (except for the tagging) to, a naturally-occurring polypeptide present in the subject, although where the tagged molecule is a recombinant polypeptide it may have additional slight differences relative to the naturally occurring polypeptide (e.g. to increase activity, or to increase stability, e.g. as taught in WO 94/10200). (The "biological activity" of the molecule is that activity by which the molecule exerts its beneficial effect on the subject e.g. stimulation of growth in the case of GH; or stimulation of erythrocyte production in the case of EPO.)
The molecule may be, for example, a pharmaceutical. A particularly preferred molecule is a mammalian growth hormone, especially human growth hormone (hGH), bovine growth hormone (bGH), or porcine growth hormone (pGH); or calcitonin; or erythropoietin (EPO).
Accordingly it is preferred that any fluorophores present in the tagged molecule: (a) do not have any significant effect on the biological activity of the molecule; and (b) are essentially non-toxic (that is, any fluorophores present will not cause the tagged molecule to exhibit any toxicity for the subject when the molecule is administered at normal therapeutic doses).
Accordingly, tryptophan or tyrosine and closely-related compounds are preferred fluorophores for use in tagged molecules in accordance with the invention. These have the additional advantage of being readily incorporated into polypeptide molecules.
Advantageously, the tagged molecule is either deficient in, or comprises additional, fluorescent entities (fluorophores) relative to the untagged molecule. The tagging may therefore be "positive" (in which the tagged molecule comprises additional fluorophores) or "negative" (where the tagged molecule is deficient in fluorophores relative to the untagged molecule).
As explained above, the naturally occurring amino acid residues tryptophan (W) and, to a lesser extent, tyrosine (Y), possess natural fluorophore activity. Thus, if an "untagged" polypeptide comprises one or more tryptophan and/or tyrosine residues it may be fluorescent.
Thus a tagged molecule, in accordance with the invention, may be distinguishable from an untagged molecule by having additional fluorophores (especially if the untagged polypeptide comprises no, or very few, tryptophan or tyrosine residues and thus possesses no, or very little, intrinsic fluorescence). Alternatively, where the untagged molecule comprises a fluorophore (especially a plurality of fluorophores), the tagged molecule may be distinguishable by having fewer fluorophores than the untagged molecule.
Preferably, the tagged molecule comprises additional fluorophores present in amino acid residues or other compounds which are capable of forming a peptide bond, and thus are capable of being covalently incorporated into a polypeptide, either internally during synthesis of the polypeptide, and/or at the C-terminal after synthesis of the bulk of the polypeptide.
Conveniently the fluorophores additionally present in (or absent from) the tagged molecule (relative to the untagged molecule) are tyrosine and/or tryptophan residues, or a synthetic amino acid derivative wherein a fluorophore is covalently joined to an "amino acid" backbone, the synthetic derivative having the general formula
wherein R1 comprises the fluorophore and R2 is H, OH, halide or lower alkyl (C, to C3, substituted or unsubstituted). The fluorophore Rl may be a fluorophore which is present in a naturally occurring amino acid residue (e.g. the aromatic groups of tryptophan or tyrosine) or may be some other fluorophore (typically comprising a delocalised electron system, such as in an aromatic or heterocyclic ring). Such synthetic amino acid derivatives are already known in the art or can readily be prepared using standard organic chemistry techniques.
As a less preferable alternative to the tagged molecule comprising a different number of fluorophores (relative to the untagged molecule), the tagged molecule may comprise the fluorophores at different positions - the immediate chemical environment can affect the level of fluorescence of a fluorophore. Accordingly, the tagged molecule may not have a different number of fluorophores relative to the untagged molecule, but they may be of different fluorescent activities and/or be differently disposed within the molecule so as to affect their fluorescence.
Where the tagged molecule is a polypeptide, tagging is conveniently accomplished by substituting a non-fluorescent amino acid present in the untagged molecule for an amino acid residue comprising a fluorophore (such as tryptophan, tryosine or a synthetic amino acid derivative), so as to increase the fluorescence of the tagged molecule relative to the untagged molecule.
With the benefit of the teaching of the present specification, and with the benefit of information otherwise readily available as common general knowledge, the person skilled in the art can, by routine trial and error, find appropriate amino acid residues which can be substituted, without substantially affecting the biological activity of the molecule.
Conveniently, phenylalanine residues (F) or tyrosine residues (Y) can be replaced with tryptophan residues (W), which exhibit far greater fluorescence activity. Such substitutions are "conservative" and thus tend not to have any significant effect on the biological properties of a polypeptide. Further guidance for the person skilled in the art is given in the example below, which utilises principles which are generally applicable to any biologically active polypeptide.
The composition will normally comprise an effective amount of the tagged molecule, such that the biological activity thereof produces a demonstrable effect when administered to the subject. An "effective amount" is the amount of tagged molecule which results in the desired biological effect in the mammalian subject to which the composition is administered. The desired effect will, of course, depend on the identity of the tagged molecule: where the tagged molecule is EPO, for example, the desired effect is an increase in the number of erythrocytes per unit volume of blood in the subject. In some embodiments the composition will be essentially sterile, and suitable for delivery by means of injection (e.g. by transdermal, intravenous, intramuscular or subcutaneous routes). In other embodiments the composition will be in the form of a tablet, pill or capsule (e.g. enteric-coated capsules for slow release) for oral consumption.
Administration of the compositions of the invention into a mammalian subject may be performed according to known methods using any route effective to deliver the required dosage to the subject. Modes of administration include those typically encountered for the species of choice. Because proteins in general are susceptible to degradation in the digestive system, injection is preferred via an intramuscular, transdermal or subcutaneous route. The use of sustained or prolonged release formulations or implants are also suitable modes.
Generally, injection of a sustained release formulation is preferred.
The effective dosage range depends on the species, age, weight, and general health of the mammalian subject. These and other parameters which are needed to determine the effective dosage range for a given mammal are well within the purview of one skilled in the art. For instance, in bovines the effective amount of bovine GH (whether tagged or untagged) is in the range of 1.0 to 200 milligrams per animal per day. In pigs, for instance the effective amount of porcine GH is about 60 jg/kg/day.
The physiologically acceptable carrier may be a sterile liquid diluent where the composition is injected (e.g. saline, phosphate-buffered saline, or other aqueous buffer preparation).
Where the composition is to be administered orally or transdermally, the carrier may be calcium carbonate, calcium sulphate or other substantially inert solid. Transdermal delivery by means of a needleless injection device may generally be preferred.
Methods of performing the fluorescence analysis may be entirely conventional and well known to those skilled in the art (e.g. spectrofluorimetry). The choice of method will depend in part on the manner in which the exogenous substance is tagged, and the characteristics of the fluorophore (if any) employed in the tagged molecule. For example, where the tagged molecule comprises fewer or more tryptophan residues than the untagged molecule, fluorescence analysis will typically be performed at about 297nm excitation.
Advantageously the sample is subjected to processing, prior to fluorescence analysis, to enrich or purify the endogenous and (if present) exogenous molecules in the sample. This improves the signal-to-noise ratio. Various methods of enrichment or purification may be employed, using one or more of the following techniques: centrifugation; HPLC FPLC; affinity chromatography; immunoaffinity chromatography; heat treatment at 50-55"C for ten
minutes (this is particularly appropriate for purification of growth hormone, which is relatively heat-stable - contaminating proteins will tend to be denatured, aggregate and
precipitate, and so can be simply removed by centrifugation whilst the undenatured growth
hormone stays in solution); all of which are well known to those skilled in the art. The
preferred method may depend, at least in part, on the identity of the endogenous and
exogenous molecules.
The method defined immediately above is extremely useful in detecting the presence of exogenously administered molecules used illicitly by cyclists, athletes and others to improve performance. Very often, such molecules occur naturally (e.g. EPO, hGH, and the like) and are endogenous to the athlete's body, such that proving illicit use of performance-enhancing substances is very difficult. However, with the benefit of the present invention, such substances can be tagged, and thus made distinguishable over endogenous molecules synthesised naturally in the athlete's body.
Additionally the invention can be used to monitor the persistence of substances administered to the body. For example, the pharmacokinetics and/or pharmacodynamics of various drugs can readily be monitored by comparing fluorescence activities at different time points - this is particularly useful where the tagged drug is otherwise identical to an endogenous compound.
In a preferred embodiment, the tagged molecule is a polypeptide prepared using recombinant
DNA technology. In such embodiments the method may additionally comprise the preparation of a nucleic acid sequence encoding the tagged molecule, the sequence being mutated relative to the wild type sequence encoding the untagged molecule. Typically the nucleic acid sequence encoding the tagged polypeptide comprises nucleotide substitutions (relative to the wild type sequence) so as to direct the expression of a polypeptide having one or more tryptophan residues not present in the untagged molecule or, less preferably, directing the expression of a polypeptide having fewer tryptophan residues than in the untagged molecule.
The nucleic acid sequence encoding the tagged molecule may be prepared, for example, by mutation of the wild-type sequence (e.g. by site-directed mutagenesis), by polymerase chain reaction (PCR), or by de novo synthesis (e.g. using an automated DNA synthesiser). All of these techniques are familiar and well-known to those skilled in the art and/or are readily obtained by reference to standard texts in the field (e.g. Sambrook et al, "Molecular Cloning,
A Laboratory Manual" Cold Spring Harbor Laboratory Press, 1989).
Where the subject is a human, the sample may conveniently be a sample of body fluids, such as a blood, sweat, semen, urine, or saliva sample. Less preferably the sample may be a tissue sample comprising cells (e.g. skin scrapings from the buccal cavity, hair or the like).
Where the subject is a domesticated farm animal, the sample may be taken from the animal before or after slaughter. Samples taken after slaughter conveniently include muscle tissue or other solid tissues taken from the carcass.
In another aspect of the present invention there is provided a tagged GH molecule comprising a tryptophan residue substituted for a phenylalanine residue present in a naturally-occurring molecule. In one embodiment, tryptophan is substituted at positions F31 and/or F97 in the amino acid sequence.
In a preferred embodiment, the tagged growth hormone comprises a tryptophan residue at one or more of positions 10, 31, 97, 160 or 176 (of which tryptophan residues at positions 31 and/or 97 are especially preferred). The tagged growth hormone molecule is preferably tagged hGH.
According to a still further aspect of the present invention there is provided a nucleic acid expression vector comprising substantially nucleotides 114-695 of the nucleic acid sequence shown in Figure 2. The CPG2 signal sequence (nucleotides 39-113) is intended to direct the encoded polypeptide product to the bacterial periplasm - those skilled in the art will appreciate that the CPG2 signal does not form an essential part of the vector, but is useful for expression in prokaryotes. Other signal sequences are well known to those skilled in the art and could be substituted for the CPG2 signal sequence if desired. Thus the expression vector may be designed to cause expression in eukaryotes (e.g. mammalian tissue culture, fungal or yeast cultures) or in prokaryotes (bacterial cultures). In a particular embodiment the expression vector is a prokaryotic expression system, preferably comprising the vector pMTLhGHm described below.
The invention will now be described by way of illustrative examples and with reference to the accompanying drawings, in which:
Figure 1 shows the primary amino acid sequence (Seq. ID No. 1) of native hGH protein;
Figure 2 shows a nucleic acid sequence (Seq. ID No. 2) encoding a tagged hGH molecule for use in the method of present invention;
Figure 3 shows the primary amino acid sequence (Seq. ID No. 3) of the tagged hGH molecule encoded by the nucleic acid sequence of Figure 2;
Figure 4 is a schematic representation of the nucleic acid construct pMTLhGHm used to express a tagged polypeptide in accordance with the invention;
Figure 5 shows the amino acid sequence of human calcitonin (Seq. ID No. 4) - the sequence is shown in the orientation N terminal terminal, but the C terminal residue includes a naturally occurring amide group (as a post-translational modification);
Figure 6 shows the amino acid sequence of human growth hormone releasing factor (HGHRF) (Seq. ID No. 5) - the sequence is shown in the orientation N terminal terminal, but the C terminal residue includes a naturally occurring amide group (as a post-translational modification);
Figures 7A and 7B show the amino acid sequence of the A and B chains respectively of human insulin (Seq. ID Nos. 6 and 7);
Figure 8 shows the amino acid sequence of human Erythropoietin (Seq. ID No. 8); and
Figure 9 shows the amino acid sequence of human Interleukin 2 (Seq. ID No. 9).
Example 1 - Construction of an enhanced fluorescent form of hGH.
Amino acids can be generally classified into 4 main classes depending on their R groups: (1) non-polar or hydrophobic R groups; (2) neutral (uncharged) polar R groups; ((3) positively charged R groups; and (4) negatively charged R groups.
Although within any single class there is considerable variation in the size, shape, and properties of the R groups, certain amino acids show similar properties and can often be substituted without dramatically changing the protein conformation or biological activity. It has been suggested that there is a 70-80% chance of attaining a mutated protein with unchanged biological properties, by replacing any one phenylalanine (F) or tyrosine (Y) residue by tryptophan (W). However, it is not always possible accurately to predict the actual effect of such substitutions on the conformation and/or biological activity of a protein.
The extent of the effect or sensitivity of the protein to such substitution(s), will depend on the function of the target amino acid residue which is to be substituted. If the target amino acid is involved in catalysis or interacts with another residue, the protein will be sensitive to substitution. However, if the target amino acid is a scaffolding residue, the protein will be less sensitive to substitution by an amino acid with a similar R group.
In the native hGH amino acid sequence, there are twelve F, eight Y and one W residues (see
Figure 1). In the method described below, techniques available in the art are used to establish which of the F and Y residues will have the least effect on the structure and biological activity of hGH, if substituted with W.
Determination:
Using the available 3D X-ray structures of hGH alone and hGH complexed with its receptor (both obtained from the Brookhaven data base) the positions of twenty potential substitutions were analysed in order to filter out the sensitive substitutions by Environmental Filtering which involves:1) Eliminating residues close to the surface of the protein:
The inventors find that substitutions at surface sites should be avoided since the added hydrophobic character of the tryptophan residue sometimes gives rise to increased protein aggregation. Further, modifications to residues at the surface of a polypeptide are generally undesirable as they may (i) interfere with binding activity of the protein; and (ii) are more likely to create a new epitope which may be recognised as foreign by the immune system of the recipient. The following residues were shown to be surface residues and were therefore regarded as poor candidates for substitution in hGH:- F1; F25; Y35; Y42; F44; F54; F92;
Y103; Y111; Y143; F146; F191.
2) Eliminating residues close to inter-protein surfaces:
The remaining eight residues were determined to be buried in the protein conformational structure. Y164 and Y28 were determined to have close proximity to the hGH receptor glutamate residue and therefore likely to be critical in the interaction between hGH and its receptor. Thus, residues Y164 and Y28 are poor candidates for substitution.
3) Eliminating residues close to W86:
It is known that fluorophores which are in close proximity to each other can interact through internal energy transfer (a blue shift in emission) thereby quenching the individual fluorescence of each fluorophore. F166 was determined to be in close proximity to W86, the single naturally occurring fluorophore in the native hGH protein. In order to avoid such potential quenching effects which could reduce the desired effect of fluorescence enhancement of the mutated protein, F166 was regarded as a poor candidate for substitution.
From the above analysis the inventors determined that the best candidates for W substitutions are: F31, F97, F10, F176 and/or Y160. Further analysis of the environmental position of these five residues within the native hGH revealed suitability for W substitution (see Table l). In the exam
Example 2 - Construction of gene by substituting W for F31 and F97.
Optimised gene sequence: Using the empirically observed codon utilisation bias for highly expressed E: coli genes, the known DNA sequence coding for native hGH was re-designed incorporating, where possible, this E. coli codon bias whilst ensuring retention of the original translated protein sequence. The two substitutions (W31 and W97) were then incorporated into this optimised E. coli gene sequence. It will be appreciated by those skilled in the art that optimisation of codon bias for E. coli may not be desirable if the sequence is to be expressed in a host other than E. coli.
Figure 2 shows the nucleotide sequence used to encode the modified hGH. To facilitate expression and subsequent purification, the hGH coding sequence is preceded by a 75bp fragment of DNA derived from the carboxypeptidase G, (COG) gene encoding the twentyfive amino acid signal peptide of CPG2 (Minton et al, 1985 Gene 31, 31-38). The CPG2 signal peptide directs the expressed protein to the periplasm where the CPG2 signal sequence is enzymatically cleaved, releasing the authentic hGH protein into the periplasm. Those skilled in the art will appreciate that the CPG2 signal peptide sequence could be replaced with any one of a large number of functionally equivalent signal sequences from other sources, without substantially affecting the nature of the construct.
The amino acid sequence of the tagged hGH encoded by the nucleic acid sequence is shown in Figure 3; the tryptophan substitutions at positions 31 and 97 are shown in bold type.
Construction of the synthetic gene: This synthetic gene was constructed by standard chemical procedures (Wosnick et al, 1987 Gene 60 (1), 115-127) using double-stranded annealed pairs of 60-100 bp oligonucleotides with appropriately compatible sticky ends.
Cloning: Using standard techniques, the synthesised gene was restricted with Nde I and .tho I and cloned into the identical restriction sites of pMTL101t (Chambers et al, 1986 Gene 68(1), 139- 149) to produce pMTL hGHm (illustrated schematically in Figure 4). This vector directs expression of the synthetic gene under the control of the mdh promoter (Alldread et al, 1992 Gene 114(1), 139-143), and carries a selectable tetracycline resistance gene (TcR).
Those skilled in the art will appreciate that the mdh promoter could be replaced with any one of a large number of functionally equivalent promoters from other sources, without substantially affecting the nature of the construct.
The new construct, pMTLhGHm, was transformed and subsequently expressed in an appropriate strain of E. coli (K-12 strain RV308, ATCC 31608) using standard procedures.
Production and Purification: The modified hGH protein (hGHf) may be produced in an industrial scale fermenter by methods well known to those skilled in the art. For example, a transformed E. coli culture containing pMTLhGHm may be grown up in aqueous media in a steel or other fermentation vessel conventionally aerated and agitated, in aqueous media at e.g. about 28-37"C and near neutral pH, supplied with appropriate nutrients such as glycerol, nitrogen sources such as ammonium sulphate, potassium sources such as potassium phosphate, trace elements, magnesium sulphate and the like. The plasmid pMTLhGHm carries tetracycline resistance as a selectable characteristic, so that selection pressure (i.e. inclusion in the medium of tetracycline at 12.5(g/ml) may be imposed to discourage competitive growth from wild-type organisms which lack the resistance characteristic (e.g. due to "segregation" of the plasmid during growth of the culture).
Upon completion of fermentation the cell suspension is centrifuged or the cellular solids otherwise collected from the broth and then lysed by physical or chemical means. Cellular debris is removed from supernatant and soluble hGHf isolated and purified.
HGHf may be purified from cell extracts using one or more of the following techniques: (i) polyethyleneimine fractionation; (ii) gel filtration chromatography on Sephacryl S-200; (iii) ion exchange chromatography on ToyoPearl Super Q 650m or CM Sephadex; (iv) hydrophobic chromatography using Phenyl-Sepharose; (v) ammonium sulphate and/or pH fractionation; (vi) selective heat enrichment; and (vii) affinity chromatography using antibody resins prepared from anti-hGH IgG isolated from immunosensitised animals or hybridomas; and desorbed under acid or slightly denaturing conditions. In particular, recombinant Growth
Hormone may be purified from E. coli cultures according to the method disclosed in WO 87/00204 or EP 0 177 343.
Example 3 - Fluorescence detection
In order to detect the hGHf by fluorescent measurements in samples from a mammalian subject to whom the hGHf has been administered, it is preferable to purify or enrich the sample (i.e. blood or urine) to reduce background fluorescent interference. This can be routinely accomplished by the use of a number of standard chromatographic techniques such as HPLC, FPLC, affinity chromatography, or immunoaffinity chromatography. Fluorescence may be increased by prior denaturation of the protein, for example by use of mild heat treatment and/or chaotropic agents(e.g. 1-6M Urea or guanidimium chloride).
W-fluorescence is measurable using standard techniques such as, for example, an SLM 8000 single photon counting spectrofluorometer. The purified sample is subjected to excitation around 297nm across a 2mm cell using a mercury-Xenon arc lamp and fluorescence detected around 345nm using a Mullard XP 9()90Q rapid-response photomultiplier along a lcm path at 900 to the excitation beam. Scattered light is excluded by cut-off filter (Schott 310) between the sample and photomultiplier.
An alternative embodiment of the invention can be envisaged, in which exogenous hGH is provided with reduced fluorescence relative to the naturally occurring molecule, for example by replacing W at position 86 with either F or Y.
It will be appreciated that the present invention has applications in other areas such as detection of exogenous proteins over the same protein produced endogenously, for example, measuring exogenous bovine growth hormone (bGH) which is administered to increase milk or meat production in cattle. Additionally the methods of the present invention can be used to detect abuse of such anabolic proteins in humans or in animals.
It will be further appreciated that the present invention is not limited to mammalian growth hormone proteins and can be equallv successfully applied to other proteins including those which are also produced endogenously and those with therapeutic applications, such as calcitonin.
Example 4 - Human Calcitonin
Calcitonin (thvrocalcitonin) is an endogenous 32 amino acid peptide hormone produced by certain cells in the thyroid gland whose principle action is to lower the levels of calcium and phosphate in the blood. It is used clinically to treat several disorders such as hypercalcaemia and bone disorders such as Paget's disease and Osteoporosis. The amino acid sequence of calcitonin is illustrated in Figure 5. and included as Seq. ID No. 4 in the attached Sequence
Listing.
Calcitonin may be negatively tagged (i.e. provided with reduced fluorescence) or positively tagged (i.e. provided with reduced fluorescence) relative to the naturally occurring molecule as follows:
To reduce fluorescence: replace Y 12 with L;
To increase fluorescence any one of the following substitutions may be performed: replace
Y 12 with W; replace any F residue (located at positions 16, 19, and 22) with W; replace any two F residues (located at positions 16, 19, and 22) with W, preferably F 16 and F 22 (so as to avoid possible complications of "quenching" or other interference if fluorophores are too close together); replace any F residue (located at positions 16, 19, and 22) with Y, preferably F 22; replace any two F residues (located at positions 16, 19, and 22) with Y, preferably F 16 and F 22.
Example 5 - Human Growth Hormone Releasing Factor
Human Growth Hormone Releasing Factor (HGHRF) is an endogenous 44 amino acid peptide hormone that controls the release of human growth hormone. Consequently its clinical uses are similar to those for human growth hormone itself. The amino acid sequence of HGHRF is shown in Figure 6, and included as Seq. ID No. 5 in the attached sequence listing. HGHRF may be positively tagged (i.e. provided with increased fluorescence) relative to the naturally occurring molecule, by performing any one of the following substituions: replace any one of R 41, 42, or 43 with W; or replace both R 41 and R 43 with W.
Example 6 - Human Insulin
Human insulin is an endogenous hormone produced in the pancreas by the beta cells of the islets of Langerhans and is important for regulating the amount of glucose in the blood.
Lack of this hormone gives rise to diabetes mellitus, and as such insulin is used clinically to treat this condition. Mature insulin consists of two peptides, termed A and B, which are joined by two disulphide bridges: one between A chain C7 and B chain C7r and a second between A chain C20 and B chain C19. The sequence of the A and B chains of human insulin are shown in Figures 7A and 7B respectively, and are included as Seq. ID Nos. 6 and 7 in the attached sequence listing.
Human insulin may be negatively tagged or positively tagged, relative to the naturally occurring molecule, so as to be provided with reduced or increased fluorescence respectively, as described below:
To reduce fluorescence: replace any one or more Y residues (located at positions A 14; B 16 B 26) with either L or F;
To increase fluorescence: either; replace any F residue (located at positions B 24 and B 25) with W; replace any Y residue (located at positions A 14; B 16; and B 26) and either F residue (located at positions B 24 and B 25) with W.
Example 7 - Human Erythropoietin (EPO)
Human Erythropoietin is the principal endogenous factor responsible for the regulation of red blood cell production during steady-state conditions and for accelerating recovery of red blood cell mass following haemorrhage. As a result, EPO has important clinical uses where elevated levels of red blood cell expression is indicated. The amino acid sequence of EPO is shown in Figure 8, and is included as Seq. ID No. 8 in the attached sequence listing.
EPO may conveniently be negatively tagged relative to naturally occurring EPO by replacing any one or more W residues (located at positions 51, 64 and 88) with F.
Example 8 - Human Interleukin 2 (IL-2)
Human Interleukin 2 is an endogenous factor produced and secreted primarily by activated
T helper cells that acts as a paracrine factor driving the expansion of antigen specific cells and as a paracrine factor influencing the activity of a number of other cells including B cells.
NK cells and LAK cells. Because of this central role of the IL-211L-2R system in mediation rif the immune response, IL-2 has important diagnostic and therapeutic implications. For example, IL-2 has shown promise as an anti-cancer drug by virtue of its ability to stimulate the proliferation and activities of tumour-attacking LAK and TIL cells. The amino acid sequence of human IL-2 is shown in figure 9 and is included as Seq. ID No. 9 in the attached sequence listing.
Human IL-2 may conveniently be negatively tagged or positively tagged (i.e. provided with reduced or increased fluorescence, respectively) relative to naturally occurring IL-2 as follows:
To reduce fluorescence: replace W 121 with either Y or F;
To increase fluorescence: either; replace any one or more F residues (located at positions 42, 44, 78, and 103) with W; or replace any one or more Y residues (located at positions 31, 15 and 107) with W.
Claims (1)
- CLA INIS 1. A method of detecting the presence in a sample of a polypeptide exogenously administertd to a mammalian subject from whom the sample is obtained, and distinguishing between such an exogenously administered polypeptide and a naturally-occurring endogenous polypeptide present in the sample; the method comprising obtaining a sample from the subject; and subjecting the sample to analysis of fluorescence at a suitable wavelength; wherein the exogenously administered polypeptide is tagged with a greater or lesser amount of fluorescence activity, relative to the untagged endogenous polypeptide, at the wavelength(s) analysed.2. A method according to claim 1, wherein the sample is subjected to processing, prior to fluorescence analysis, to enrich or purify the exogenous and endogenous molecules in the sample.3. A method according to claim 1 or 2, wherein the sample is subjected to processing, prior to analysis, by one or more of the following: centrifugation; HPLC; FPLC; affinity chromatography; im munoaffinity chromatography; denaturation or heat treatment.4. A method according to any one of claims 1, 2 or 3, wherein the sample is a sample of body fluid or tissue obtained from a human or other mammalian subject.5. A method according to any one of the preceding claims, wherein the sample comprises one or more of the following: blood; saliva; sweat; urine; semen; tears.6. A method according to any one of the preceding claims wherein the tagged molecule has greater fluorescence activity, at the wavelength analysed, than the untagged molecule.7. A method according to any one of the preceding claims, wherein the tabooed molecule comprises one or more fluorophores not present in the untagged molecule.8. A method according to claim 7* wherein a compound comprising a tagging fluorophore is incorporated in the tagged molecule by means of a peptide bond.9. A method according to claim 7 or 8, wherein the fluorophore comprises tyrosinc. tryptophan or a synthetic amino acid derivative.10. A method according to any one of the preceding claims, wherein the tagged molecule comprises a tagged therapeutic polypeptide and/or tagged hormone.11. A method according to any one of the preceding claims, wherein the tagged molecule one of the followino' a tao comprises one of the following: a tagged human, bovine or porcine growth hormone; tagged calcitonin; tagged erythropoietin; tagged growth hormone releasing factor; tagged insulin; or tagged interleukin-2.12. A method according to any one of the preceding claims, wherein the tagged molecule comprises growth hormone tagged with a tryptophan residue at one or more of positions 10, 31, 97, 160 or 176.13. A composition for administration to a mammalian subject, the composition comprising a polypeptide and a physiologically acceptable carrier substance, characterised in that the polypeptide is tagged with a greater or lesser amount of fluorescent activity relative to an untagged polypeptide endogenously present in the subject, the tagged molecule thereby being distinguishable from the untagged molecule by analysis of the fluorescence characteristics of the respective molecules, excluding those compositions in which the tagged molecule is Growth Hormone and wherein the fluorescent tagging consists solely of one or more of the following substitutions in the tagged Growth Hormone: G40 y Y; F52 -, Y; W86 F, Y, L, I or V; F103 ~ Y; and 1137 N Y.14. A composition according to claim 13, wherein the tagged molecule comprises a number of tryptophan residues different from the number of tryptophan residues present in the untagged molecule and the tagging is effected thereby.15. A composition according to claim 13 or 11, wherein the tagged molecule comprises two or more tryptophan residues greater than the number of tryptophan residue. present in the untagged molecule.16. A composition according to any one of claims 13. 14 or 15, wherein the tagged molecule comprises a therapeutic polypeptide and/or hormone. i7. A composition according to any one of claims 13-16, wherein the tagged molecule comprises one of the following: tagged human, bovine or porcine growth hormone; tagged calcitonin; tagged erythropoietin; tagged growth hormone releasing factor; tagged insulin: or tagged interleukin-2.18. A composition according to any one of claims 13-17, wherein the tagged molecule comprises growth hormone tagged with a tryptophan residue at one or more of positions 10, 31. 97, 160 or 176. l t) . A tagged growth hormone comprising a tryptophan residue substituted for a phenylalanine residue present in a naturally-occurring growth hormone molecule.20. A tagged growth hormone comprising a tryptophan residue at one or more of positions 1(), 31, 97, 160 or 176.21. A tagged growth hormone comprising a tryptophan residue at position 31 and/or 97.22. A nucleic acid sequence encoding a tagged growth hormone in accordance with any one of claims 19, or 21.23. A nucleic acid expression construct comprising a nucleic acid sequence in accordance with claim 22.24. A nucleic acid sequence comprising nucleotides 114-695 of the nucleic acid sequence shown in Figure 2.25. A method substantially as hereinbefore defined.26. A composition substantially as hereinbefore defined.
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GB9825104A Expired - Fee Related GB2334580B (en) | 1997-11-14 | 1998-11-16 | Improvements in or relating to detection of exogenously administered polypeptides |
GB0214201A Expired - Fee Related GB2375765B (en) | 1997-11-14 | 1998-11-16 | Tagged growth hormone molecules |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
GB0214201A Expired - Fee Related GB2375765B (en) | 1997-11-14 | 1998-11-16 | Tagged growth hormone molecules |
Country Status (1)
Country | Link |
---|---|
GB (2) | GB2334580B (en) |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO1994010200A1 (en) * | 1992-10-28 | 1994-05-11 | The Upjohn Company | Somatotropin modifications |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0397834B1 (en) * | 1988-10-28 | 2000-02-02 | Genentech, Inc. | Method for identifying active domains and amino acid residues in polypeptides and hormone variants |
ATE164395T1 (en) * | 1990-12-03 | 1998-04-15 | Genentech Inc | METHOD FOR ENRICHMENT OF PROTEIN VARIANTS WITH MODIFIED BINDING PROPERTIES |
CA2143739A1 (en) * | 1992-09-07 | 1994-03-17 | Andrew T. Holder | Growth hormone potentiating molecules |
-
1998
- 1998-11-16 GB GB9825104A patent/GB2334580B/en not_active Expired - Fee Related
- 1998-11-16 GB GB0214201A patent/GB2375765B/en not_active Expired - Fee Related
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO1994010200A1 (en) * | 1992-10-28 | 1994-05-11 | The Upjohn Company | Somatotropin modifications |
Also Published As
Publication number | Publication date |
---|---|
GB9825104D0 (en) | 1999-01-13 |
GB2334580B (en) | 2002-12-18 |
GB2375765A (en) | 2002-11-27 |
GB0214201D0 (en) | 2002-07-31 |
GB2375765B (en) | 2003-02-26 |
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Legal Events
Date | Code | Title | Description |
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PCNP | Patent ceased through non-payment of renewal fee |
Effective date: 20041116 |