EP0498849A1 - Means for detecting highly proliferative cells - Google Patents

Abstract

The subject of the invention is a method for the detection of highly proliferative cells such as tumor cells and a kit in which the activity or the quantity of NDP kinases is measured.

Description

 MEANS FOR DETECTION OF HIGHLY CELLS

PROLIFERATIVES The subject of the invention is a method for the detection of highly proliferative cells such as tumor cells, more particularly malignant tumors, and a kit allowing the implementation of such a method.

At present, the detection of tumors most often calls for histological examinations of the transformed cells which require highly qualified personnel to assess the results. In addition, few reliable markers of tumor cells are currently available.

The study of tumors by the inventors, in particular tumors of the breast, colon, cervix, lymph node metastases, melanoma, has shown a significant increase in the activity and the level of an enzyme involved in the synthesis of nucleotides (the nucleoside diphosphate kinase).

The measurement of the activity or of the level of this enzyme could be reproducibly correlated with the tumor state of the biological samples tested.

The invention therefore aims to provide a method of detecting highly proliferative cells, in particular, it aims to provide a method for demonstrating a potentially progressive tumor state by measuring the activity or the level of particular enzymes.

According to another aspect, the invention aims to provide a diagnostic kit for the implementation of this method.

The method according to the invention for the detection of highly proliferative cells is characterized in that it comprises the in vitro measurement of the activity or of the amount of NDP kinases of a biological sample. We know that nucleoside diphosphate kinases (NDP kinases; EC 2.7.4.6.) Play a major role in the synthesis of nucleoside triphosphates (PARKS & AGARWAL (1973), The Enzymes, ed. Boyer, PD (Académie Press, NY), Vol. 8, pp. 307-334). These enzymes catalyze the transfer of the _7- phosphate group from a donor triphosphonucleoside to an acceptor nucleoside diphosphate by a ping-pong mechanism comprising a stable phosphorylated intermediate as shown below:

N _? DP + EΛ- ^* P a N, TP + E

N, TP + N ₂ DP ≈ NiDP + N ₂ TP

(N. _| and N ₂ are ribo and deoxyribonucleosides and EAP, the phosphorylated intermediate)

Their specificity with respect to nucleotide substrates is quite broad since they can use either purine and pyrimidine derivatives as well as ribose and deoxyribose derivatives. They form polymers made up of one or two types of monomers most often associated in hexamers.

The inventors have observed that the variations in activity or in the level of NDP kinases (variations going in the direction of an increase in the activity or in the level of NDP kinases in relation to this activity or this rate in a normal individual) reflect a potentially progressive tumor state. The subject of the invention is a method of in vitro detection of malignant tumors, or even of progression from a benign tumor to a malignant tumor (presence of metastases), carried out from a biological sample capable of presenting such a tumor, in particular a tissue sample taken from a patient, characterized in that the possible increase in the production of NDP kinases in this biological sample is measured, compared with the NDP-kinases normally produced in a healthy reference biological sample, same nature as the biological sample studied above.

According to an advantageous embodiment of the detection method of the invention, the possible increase in the production of NDP kinases is detected by measuring the enzymatic activity NDP kinase in the biological sample studied.

The measurement of the activity of NDP kinases is advantageously carried out by bringing the biological sample studied into contact with natural nucleotides as substrates, and more particularly nucleoside diphosphates and triphosphates, or analogs of synthesis of these nucleotides, and by highlighting the possible products of the reaction between these nucleotides, catalyzed by NDP kinases, by coupled enzymatic systems allowing the synthesis of products detectable by color and / or spectrophotometry.

Thus, for example, a hexokinase-glucose-6-phosphate dehydrogenase system is used, linking the formation by NDP kinase of ATP from ITP (inosine triphosphate) and ADP, to the formation of NADPH + H ⁺ , products detectable spectrophotometrically directly at 340 nm or in the visible spectrum after the reaction with phenazine methosulfate and tetrazoliu nitroblue (CHENG et al, 1971, Biochemistry 10, 2139).

Other coupled enzymatic systems usable within the framework of the measurement of the NDP kinase activity, are more particularly described in Parks and Agar al above-mentioned, and Kezdi et al, Anal. Biochem. , 361-364 (1976).

In the article by Kezdi et al, mentioned above, the enzymatic activity is measured by a coupled enzymatic system comprising the pyruvate kinase which uses the ADP formed by the NDP kinase from ATP and DTDP. During the reaction catalyzed by pyruvate kinase, ADP and phosphoenolpyruvate give ATP and pyruvate. The latter reacts with phenylhydrazine which transforms into phenylhydrazone, a compound detectable at 450 nm. This assay can be performed on an ELISA plate.

NDP kinase activity can also be followed using natural nucleotides or radioactive synthetic analogs and techniques for separation of reaction products by chromatography (PARKS & AGARWAL, 1973, in The enzymes (BOYER PD Ed), 8 , 307, Academy Press, NY).

According to another advantageous embodiment of the detection method of the invention, the possible increase in the production of NDP kinases is detected by measuring the amount of NDP kinases in the biological sample studied.

For example, the quantity of NDP kinases is measured by labeling the phosphorylated intermediate resulting from the interaction of the nucleotide triphosphate substrate with the enzyme, the labeling of the phosphorylated intermediate being carried out using analogues such as derivatives. ₇ - thiophosphates of ATP or GTP which present the advantage of not being able to be hydrolyzed by phosphatases.

According to another embodiment of the invention, since the increase in activity observed corresponds to a higher level of enzyme, the amount of NDP kinases present is measured using polyclonal anti-NDP kinase antibodies or monoclonal, and the possible immunological complexes formed between the NDP kinases and the abovementioned antibodies are highlighted. This detection can be carried out on a histological section or after electrophoresis of the sample and transfer of WESTERN, or by any other appropriate means.

The anti-NDP kinase antibodies mentioned above are chosen from the antibodies capable of recognizing any NDP kinase, and more particularly from those directed against all or part of the A and / or B subunits of the NDP kinases of human erythrocytes (Presecan, E et al. (1989) FEBS lett. 250, 629-632), or those directed against all or part of the proteins described by Rosengard, AM et al. in NATURE 342, 177-180 (1989) and which it has been shown to correspond to NDP kinases (allet et al., J. Nat. Cancer Inst. (1990) 82, 1199-1202), or those raised against all or part of the NDP kinase shown in Figure 1, and which is described below.

The most common developing systems include chemical, physical and / or enzymatic and / or chemiluminescent markers detectable when the antigen-antibody type reaction has occurred. Mention will be made of colorimetric systems coupled with enzymes, fluorescent or even radiolabelled systems.

As such, the present invention relates to polyclonal or monoclonal anti-NDP kinase antibodies capable of recognizing all or part of the protein with NDP kinase activity (and to bind immunologically with this protein) as obtained by cloning the gene coding for NDP kinase from Dictyostelium discoideum and purification of the synthesized protein.

This protein constitutes one of the objects of the invention as a new product.

It is characterized by the sequence of 155 amino acids shown in Figure 1. Its theoretical molecular weight Mr is 16700 ± 10%.

The protein with NDP kinase activity of the invention is further characterized in that it is strongly basic with a calculated pi of 9.15, in that it contains a hydrophobic fragment (residues 64 to 84), and in that 'It is particularly stable. Its basic properties allow it to be easily purified. This protein therefore constitutes an industrial source of NDP kinase of great interest compared to NDP kinases currently obtained from extracts of tissues or organs and the purification of which requires the implementation of expensive techniques.

It goes without saying that any peptide sequence resulting from the modification, by substitution and / or by addition and / or deletion of one or more amino acids of a protein with NDP kinase activity, and more particularly of the peptide sequence represented on the Figure 1, or a peptide subsequence from the latter, between the scope of the present invention, since this modification does not alter the enzymatic properties of the NDP kinase type of said polypeptide.

The invention also relates to a nucleotide sequence consisting of at least part of a sequence coding for a protein with NDP kinase activity as expressed by D. discoideum.

This sequence is capable of hybridizing with genes coding for a protein with NDP kinase activity.

The percentage of homology with regard to the sequences which hybridize is from 70 to 90%.

The conditions for the hybridizations mentioned in connection with the new nucleotide sequences are relatively low stringency conditions. Thus, for example, 30% of formamide, 6xSSC (sodium citrate, NaCl), 0.12 M of sodium pyrophosphate, 0.5% of SDS and 250 μg of herring sperm DNA are used at 30 ^β C. washes are performed in the same medium at 37 ° C and according to the importance of the background noise, by gradually decreasing the concentration of SSC and increasing the wash temperature by 5 ^° C 5 ° C.

The invention also relates to a recombinant sequence comprising one of the sequences defined above, optionally associated with a promoter capable of controlling the transcription of the DNA sequence coding for transcription termination sequences and translation and secretion.

According to yet another aspect, the nucleotide sequence of the invention is capable of hybridizing with a probe formed from the sequence having the sequence of nucleotides shown in FIG. 1 or the sequence of nucleotides complementary to this sequence .

The sequences of the invention are DNA or RNA sequences.

Any nucleotide sequence hybridizable with that of the sequence of FIG. 1, as obtained by reverse enzymatic transcription of the corresponding RNA, or also by chemical synthesis, is part of the invention.

According to the invention, the cloning of the nucleotide sequence coding for a protein with NDP kinase activity comprises the isolation of clones of an expression library constructed in a vector, of the type of those expressing a protein interacting specifically with a compound such as [ ⁵ S] GTP ₇ S, triphosphate donor.

For the expression of the protein in a host, a vector is constructed by inserting a nucleotide fragment containing the coding sequence.

According to an advantageous embodiment, the plasmid pNDK is constructed, for example, to express the protein with NDP kinase activity in a bacterium such as E. coli. To this end, the HaelII - EçoRI restriction fragment of the isolated clone is inserted, this fragment having been advantageously treated beforehand to obtain blunt ends. The insertion is carried out in the HincII site of the plasmid pTZ18R. The resulting recombinant plasmid is introduced, according to usual techniques, into the bacterium for the purpose of expression of the enzyme under the control of the lac Z promoter.

An inducing agent such as IPTG is advantageously added to increase the level of expression. Several mg per liter of culture can thus be obtained.

The enzyme recovered is subjected to at least two purification steps on a chromatography column.

A homogeneous enzyme preparation is obtained by contacting a centrifugation supernatant of a suspension of bacteria previously broken by sonication, obtained at the end of the above process, with a dextran derivative such as DEAE-Sephacel ^®, (at pH 8.5, the protein NDP kinase activity is not retained in the DEAE resin and is eluted in the void volume), the eluate is then collected chro atographié on a resin column such as Affigel-Blue ^® , and eluted with 0.7M NaCl.

The applications of the products according to the invention also include the development, from fragments of the nucleotide sequence of FIG. 1, of RNA, mRNA or DNA probes, for the detection of similar sequences in other organisms or tissues.

This elaboration includes, in particular, the denaturation of the double-stranded sequences to obtain a single-stranded sequence usable as a probe.

The invention therefore relates to detection probes characterized in that they comprise at least part of a nucleotide sequence defined above, of RNA or DNA, more especially a fragment of a sequence coding for a protein with NDP kinase activity.

The fragment used as probe contains a sufficient number of nucleotides to obtain the specificity and to form a stable hybrid.

Appropriate probes are advantageously marked with a radioactive element (hot probes) or any other non-radioactive group (cold probes) allowing recognition of the probe in a hybrid state with the preparation containing the DNA to be studied.

According to yet another embodiment of the invention, cDNA probes specific for NDP kinases of the type described above are used, in particular probes capable of hybridizing with the corresponding sequences of the mRNAs coding for NDP kinases, an increase in the level of mRNA may be linked to an increase in the amount of NDP kinase proteins reflecting the tumor state of the sample.

Advantageously, the activity or the quantity of NDP kinases is measured on a biological sample originating from a patient.

For the detection of a tumor state, an activity comparison is more particularly carried out between a biological sample containing highly proliferative cells and a sample containing normal corresponding cells.

By biological sample is meant any sample taken from the patient, whether it is a solid tumor or a biological fluid such as blood, serum, cerebrospinal fluid, pleural fluid, urine. , sputum, samples obtained by tubing, bronchial aspiration, or puncture, or circulating cells.

To carry out the measurement, the biological sample is used in whole, crushed, sectioned, fractional form, in particular in the form of sub¬ cell fractions or, where appropriate, in the form of cell culture.

The reagents necessary for demonstrating the activity or the amount of NDP kinases can be in a liquid medium or incorporated into a support material, for example gels or support filters.

The invention also relates to kits for the in vitro detection of malignant tumors.

These kits are characterized in that they contain the necessary reagents as defined above for demonstrating the possible increase in the production of NDP kinases when these reagents are brought into contact with a biological sample in appropriate form. The detection kits of the invention have the advantage of being able to be used directly on clinical samples and allow results to be obtained in a very rapid time.

Depending on the different detection methods of the invention described above, the invention relates to detection kits characterized in that they contain:

- natural nucleoside diphosphates and triphosphates or analogs of synthesis of these nucleotides, optionally radioactive labeled, or in the form of _7- thiophosphate derivatives of ATP or of GTP,

- a suitable reaction medium for the enzymatic reaction between nucleotides and NDP kinases, coupled enzymatic systems allowing the synthesis of products detectable by colorimetry and / or spectrophotometry, to _7- thiophosphates derivatives of ATP or of GTP allowing labeling of the phosphorylated intermediate, or of the kits containing: polyclonal or monoclonal anti-NDP kinase antibodies, where appropriate labeled, in particular in a radioactive or enzymatic manner,

- a medium suitable for the immunological reaction between the above-mentioned antibodies and the NDP kinases,

- reagents suitable for the detection of the immunological complexes formed between the abovementioned antibodies and the NDP kinases, or also kits comprising:

- cDNA probes specific for NDP kinases, where appropriate labeled, in particular in a radioactive or enzymatic manner,

a medium suitable for the hybridization reaction between the above-mentioned antibodies and the mRNAs coding for the NDP-kinases, - reagents suitable for the detection of the above-mentioned probes hybridized to mRNAs coding for NDP kinases.

The invention also relates to pharmaceutical compositions comprising all or part of one (or more) protein with NDP kinase activity, in particular that obtained by cloning the gene coding for NDP kinase from Dictyos e1ium discoideum and purification of the synthesized protein, or alternatively that corresponding to subunits A and / or B of human erythrocytes (cf. Presecan et al., and Rosengard et al. mentioned above) in association with a physiologically acceptable vehicle.

The invention relates more particularly to pharmaceutical compositions comprising all or part of the amino acid sequence shown in FIG. 1 in association with a physiologically acceptable vehicle.

A subject of the invention is also pharmaceutical compositions comprising anti-NDP kinase polyclonal or monoclonal antibodies as designated above, in association with a physiologically acceptable vehicle.

The invention also relates to pharmaceutical compositions comprising nucleotide sequences as defined above, and more particularly antisense nucleotide sequences complementary to all or part of the nucleotide sequence coding for a protein with NDP kinase activity, in particular of the nucleotide sequence shown in Figure 1, in association with a physiologically acceptable vehicle.

The above-mentioned pharmaceutical compositions of the invention are more particularly intended for treatment of tumors and in particular the prevention of the progression from a benign tumor to a malignant tumor. These pharmaceutical compositions have the advantage of inhibiting NDP kinase activity.

The invention also relates to any nucleic acid sequence included in one of the nucleic acid sequences defined above, or capable of hybridizing with one of these sequences under the hybridization conditions defined above, and being usable as as a nucleic acid primer for the gene amplification of one of the nucleic acid sequences of the invention.

Advantageously, the nucleic acid primers of the invention consist of a succession of approximately 10 to 30 nucleotides.

Gene amplification techniques are a considerable adjunct to the development of particularly sensitive in vitro diagnostic methods. Among these gene amplification techniques, mention may be made of the PCR (Poly erase Chain Reaction) technique as described in European patent applications No. 86 / 302.298.4 of 03/27/1986 and No. ^β 87 / 300.203.4 01/09/1987, or the technique called "Q / 3replicase" described in Biotechnology, vol.6, page 1197 (October 1988) and that using a RNA polymerase (T7RNA polymerase) described in the international patent application No. WO89 / 01050. These techniques make it possible to improve the detection sensitivity of nucleic acids of viruses or bacteria, and require the use of specific synthetic primers.

The polyclonal antibodies of the invention are obtained by immunization of an animal with the polypeptides of the invention, followed by the recovery of the antibodies formed. The monoclonal antibodies of the invention are produced by any hybridoma capable of being formed, by conventional methods, from the εplenic cells of an animal, in particular mouse or rat, immunized against one of the purified polypeptides of l invention, on the one hand and cells of a cell line of a suitable myeloma on the other hand, and to be selected, by its capacity to produce monoclonal antibodies recognizing the polypeptide initially used for the animal immunization.

A particularly advantageous process for preparing the nucleic acid sequences of the invention comprises the following steps:

- DNA synthesis using the automated 3-cyanethyl phosphora idite method described in Bioorganic Chemistry 4; 274-325 (1986),

- Cloning of the nucleic acids thus obtained into an appropriate vector and recovery of the nucleic acid by hybridization with an appropriate probe chosen from those described above.

Another method for preparing the nucleotide sequences of the invention comprises the following steps:

- The assembly of chemically synthesized oligonucleotides, provided at their ends with different restriction sites, whose sequences are compatible with the amino acid sequence of the natural polypeptide according to the principle described in Proc. Natl. Acad. Sci. USA, 80; 7461-7465, (1983),

- The cloning of the nucleic acids thus obtained in an appropriate vector and the recovery of the nucleic acid sought by hybridization with an appropriate probe chosen from those described above. The subject of the invention is also any recombinant nucleic acid containing at least one nucleic sequence of the invention, inserted into a nucleic acid heterologous with respect to said nucleic sequence.

The invention relates more particularly to a recombinant nucleic acid as defined above, in which the nucleic sequence of the invention is preceded by a promoter (in particular an inducible promoter) under the control of which the transcription of said sequence is capable of be performed and, where appropriate, followed by a sequence encoding transcription termination signals.

The invention relates to any recombinant vector, used in particular for the cloning of a nucleic sequence of the invention, and / or the expression of the polypeptide encoded by this sequence, and characterized in that it contains a recombinant nucleic acid, as defined above, at one of its sites not essential for its replication.

By way of example of the abovementioned vector, mention will be made of plasids, cosmids, or phages.

The subject of the invention is also a process for the preparation of a polypeptide of the invention, by transformation of a cellular host using a recombinant vector of the above-mentioned type, followed by the cultivation of the cell host thus transformed, and recovery of the polypeptide from the culture medium.

Thus, the invention relates to any cellular host transformed by a recombinant vector as defined above, and comprising the regulatory elements allowing the expression of the nucleic sequence coding for a polypeptide according to the invention.

The peptides according to the invention can be prepared by conventional techniques, in the field of peptide synthesis. This synthesis can be carried out in homogeneous solution or in solid phase.

For example, we will use the synthesis technique in homogeneous solution described by HOUBENWEYL in the work entitled "Method der Organischen Che ie" (Method of Organic Chemistry) edited by E. Wunsch, vol. 15-1 and II., THIEME, Stuttgart 1974.

According to another preferred technique of the invention, use is made of the solid phase synthesis described by RD MERRIFIELD in the article entitled "Solid phase peptide synthesis" (J. A. Che. Soc., 4_5, 2149-2154) .

In the examples given below by way of illustration, a method of detecting NDP kinase activity measured on tissue extracts from different patients is reported. The results obtained are reported in FIG. 2 and Table 1 which relate to the variations in the activity of NDPK in U / mg of protein according to the tissue studied for two series of patients. EXAMPLES Preparation of extracts

The tissue fragments obtained frozen in liquid nitrogen are quickly thawed in 10 mM Tris-HCl buffer, pH 7.5 maintained at 4 ° C., containing 1 mM EDTA, 20% glycerol and inhibitors of proteases (PMSF (phenyl methyl sulfonyl fluoride) 1 mM, 1 μg / ml of antipain and 15 μg / ml of benzamidine) at a rate of approximately 5 ml of buffer per gram of tissue. The fabrics are finely cut and then ground with Polytron® (3 times 20 seconds at maximum power). The ground material is then centrifuged at 4 "C., 10 min. At 20,000 g in a refrigerated centrifuge. The supernatant is used immediately or stored in aliquots at -80 ° C. protein concentration thereof is measured by the method of BRADFORD (1976, Anal. Biochem., 72, 248). Determination of NDP kinase activity

The enzymatic activity is measured by an enzyme system coupled with pyruvate kinase-lactate dehydrogenase (AGARWAL et al, 1978, Meth. Enzy ol., 51, 376) which links the formation of ADP by the NDP kinase (s) ) to a consumption of NADH detected spectrophotometrically at 340 n. The reactions are as follows:

NDP kinase

dTDP + ATP> dTTP + ADP

PK

ADP + PEP> ATP + pyruvate

LDH

Pyruvate + NADH -> lactate + NAD ⁺

(Abbreviations: PEP: phosphoenolpyruvate; PK: pyruvate kinase; LDH: lactate dehydrogenase; dTDP: deoxythymidine diphosphate; dTTP: deoxythymidinetriphosphate)

The reaction takes place at 30 ° C in a total volume of 500 μl of 50 mM Tris-HCl, pH 7.4, containing 0.5 mM phosphoéololpyruvate, 0.5 mM ATP, MgCl ₂ 6 mM, 100 μg / ml of NADH, 50 mM KC1, 0.2 mM dTDP, 1.5 U of pyruvate kinase and lactate dehydrogenase and the quantity of tisεular extract supernatant (1 to 10 μl) necessary for l '' obtaining a speed directly proportional to the amount of extract. A unit of enzyme catalyzes the formation of one μmole of ADP per minute.

As a variant, these measurements were carried out at 30 ° C. in a 0.5 ml reaction medium consisting of 50 mM tris HCl, pH 7.4, 50 mM KCl, 6 mM MgCl ₂ , 1 mM phosphoenolpyruvate, 0.1 mg / ml NADH, 0.5 mM ATP, 0.1 mM dTDP, 2 units of pyruvate kinase and 2.5 units of lactate dehydrogenase. Results

The NDP kinase activity of extracts from several solid breast tumors was compared with that of different normal tissues by the pyruvate kinase-lactate dehydrogenase method.

The NDP kinase activity of extracts from normal lymph nodes (B7, H2), normal muscles (D11, A2), normal skin (A3), normal breasts (A5, B8, J6, K8), normal thyroid (E12), benign breast tumors (Gl, O5, N4, Q7, T10), malignant breast tumors (A1, B6, F13, H3, J7, K9, V12 , P6), malignant neoplasms of lymph nodes (A4, U11), malignant neoplasms of the colon (L2, R8), and malignant neoplasms of the cervix (M13).

Examination of these results shows that the activity is increased by 5 to 10 times compared to the activity of the normal reference tissue.

The increase in the NDP kinase enzyme activity corresponds to an increase in the quantity of the enzyme (and more particularly of the A sub-unit of the NDP kinase of human erythrocytes), as has been evaluated by WESTERN transfer , using antibodies specific for NDP kinase from human erythrocytes. These results are confirmed on tissue section by specific labeling of tumor cells. NDP kinase activity has been measured in extracts from many normal tissues or from malignant or benign tumors. A remarkable and specific increase in the production of NDP kinase has been observed in malignant tumors (see Figure 2). The NDP kinase activity of normal tissues varies between 0.1 and 0.3 units (U) per mg of protein. The NDP kinase activity is clearly higher in the extracts of malignant tumors, while the values measured in the extracts of benign tumors are similar to those measured in normal tissues. Most of the values found in malignant tumors range from 0.5 to 0.9 U / mg protein. The highest activity was measured in a breast tumor (non-infiltrating intraductal carcimone (P6)) and corresponds to 1.93 U / mg of protein. The lowest value, 0.25 U / mg protein, was found in colon adenocarcimone (R8).

The measurement of NDP kinase activity therefore constitutes a criterion for evaluating the potential progressive tumor state of a tissue sample.

The invention thus provides a simple test for screening for potentially progressive tumor states.

Table 1

Tissues Histology Code Marking NDP kinase Immunol. (U / mgprot.)

(a) (b) (a) (a)

cervix M3 vs. indiff. +++ 0.58 gang.L. Ull melan.metast. ++++ 0.80

(a) the abbreviations are as follows:

- gang.L. : lymph node

- vs. : carcinoma

- metast. : metastatic

- medulla. : medullary

- canal.inf. : infiltrating duct

- canal.n.inf. : non-infiltrating duct

- melan. : melanoma

- ND: not determined

- i munol: immunological

(b) the different cases are designated by codes (the same capital letter designates the same patient)

Claims

1. Method for in vitro detection of malignant tumors, carried out from a biological sample capable of presenting such a tumor, in particular a tissue sample taken from a patient, characterized in that the possible increase in the production of NDP kinases in this biological sample, compared to the NDP kinases normally produced in a healthy reference biological sample, of the same nature as the biological sample studied above. 2. Method according to claim 1, characterized in that the possible increase in the production of NDP kinases is detected by measuring the NDP kinase activity in the biological sample studied. 3. Method according to claim 2, characterized in that it is carried out by bringing together the biological sample studied with natural diphosphates and triphosphates nucleosides or analogs of synthesis of these nucleotides, and by highlighting the possible products of the reaction between these nucleotides, catalyzed by NDP kinases, by coupled enzymatic systems allowing the synthesis of products detectable by colorimetry and / or spectrophotometry. 4. Method according to claim 2, characterized in that it is carried out by bringing together the biological sample studied with radioactive labeled, natural nucleoside diphosphates and triphosphates, or analogs of synthesis of these nucleotides and in that l the possible products of the reaction, catalyzed by NDP kinases, are separated by chromatography. 5. Method according to claim 1, characterized in that the possible increase in the production of NDP kinases is detected by measuring the amount of NDP kinases in the biological sample studied. 6. Method according to claim 5, characterized in that it is carried out by bringing the biological sample studied with natural nucleoside diphosphates and triphosphates or analogs of synthesis of these nucleotides into contact, and by labeling the phosphorylated intermediate resulting from the interaction of the nucleoside triphosphate substrate with the enzyme, the labeling of the phosphorylated intermediate being carried out using analogues such as the _7- thiophosphate derivatives of ATP or of GTP. 7. Method according to claim 5, characterized in that it is carried out by bringing the biological sample studied with polyclonal or monoclonal anti-NDP kinase antibodies into contact, and in that any complexes are highlighted. immunologicals formed between the NDP kinases and the above-mentioned antibodies. 8. Method according to claim 7, characterized in that the polyclonal or monoclonal anti-NDP kinase antibodies are capable of recognizing all or part of the claim, the amino acid sequence shown in FIG. 1. 9. Method according to claim 7, characterized in that the anti-NDP kinase polyclonal or monoclonal antibodies are capable of recognizing all or part of the A and / or B subunits of the NDP kinases of human erythrocytes. 10. Method according to claim 5, characterized in that it is carried out by bringing together the biological sample studied with cDNA probes specific for NDP kinases, capable of hybridizing with the corresponding sequences of mRNAs coding for NDP kinases. 11. Method according to claim 10, characterized in that these cDNA probes consist of a sequence of nucleotides complementary to all or part of the sequence of nucleotides represented in FIG. 1, or consist of a sequence of nucleotides capable of hybridizing with all or part of the nucleotide sequence in Figure 1. 12. Method according to one of claims 1 to 11, characterized in that the sample is a solid tumor or a biological fluid, or circulating cells 13. Method according to claim 12, characterized in that the biological sample is used in whole, crushed, sectioned, fractionated form, in particular in the form of subcellular fractions or, where appropriate, in the form of cell culture. 14. Kit for the in vitro detection of cells with a high proliferation rate according to one of claims 2 to 4 or 6, characterized in that it contains: - natural nucleoside diphosphates and triphosphates or analogs of synthesis of these nucleotides, optionally radioactive labeled, or in the form of _7- thiophosphate derivatives of ATP or of GTP, - a suitable reaction medium for the enzymatic reaction between nucleotides and NDP kinases, coupled enzymatic systems allowing the synthesis of products detectable by colorimetry and / or spectrophotometry, to _7- thiophosphates derivatives of ATP or of GTP allowing labeling of the phosphorylated intermediate. 15. Kit for the in vitro detection of cells with a high proliferation rate according to one of claims 5, or 7 to 9, characterized in that it contains: polyclonal or monoclonal anti-NDP kinase antibodies, where appropriate labeled , in particular radioactive or enzymatic, - a medium suitable for the immunological reaction between the above-mentioned antibodies and the NDP kinases, - reagents suitable for the detection of the immunological complexes formed between the above-mentioned antibodies and NDP-kinases. 16. Kit for the in vitro detection of cells with a high proliferation rate according to one of claims 10 or 11, characterized in that it contains: - cDNA probes specific for NDP kinases, where appropriate labeled, in particular in a radioactive or enzymatic manner, a medium suitable for the hybridization reaction between the above-mentioned antibodies and the mRNAs coding for the NDP-kinases, - reagents suitable for the detection of the above-mentioned probes hybridized to mRNAs coding for NDP kinases. 17. Protein with NDP kinase activity as obtained by cloning the gene coding for NDP kinase from Dictyostelium discoideum and purification of the synthesized protein. 18. Protein according to claim 17, characterized in that it consists of all or part of the chain of 155 amino acids shown in Figure 1. 19. Polyclonal or monoclonal antibodies capable of recognizing all or part of the protein according to one of claims 18 or 19, and to bind immunologically with the latter. 20. Nucleotide sequence consisting of at least part of a sequence coding for a protein with NDP kinase activity as synthesized by D.discoideum. 21. Nucleotide sequence according to claim 20 characterized in that it consists of all or part of the sequence of nucleotides shown in FIG. 1. 22. Nucleotide sequence capable of hybridizing with genes coding for a protein with NDP kinase activity, in particular with the mRNA coding for the latter. 23. Nucleotide sequence according to claim 22 characterized in that it is capable of hybridizing with all or part of the sequence of nucleotides shown in FIG. 1. 24. Nucleotide sequence, characterized in that it is capable of hybridizing with a probe formed from the sequence having the sequence of nucleotides shown in FIG. 1 or the sequence of nucleotides complementary to this sequence. 25. Pharmaceutical composition characterized in that it comprises all or part of a protein with NDP kinase activity, in association with a physiologically acceptable vehicle. 26. Pharmaceutical composition characterized in that it comprises a polypeptide or a protein according to one of claims 17 or 18, in association with a physiologically acceptable vehicle. 27. Pharmaceutical composition characterized in that it comprises polyclonal or monoclonal antibodies capable of recognizing all or part of a protein with NDP kinase activity, in association with a physiologically acceptable vehicle. 28. Pharmaceutical composition characterized in that it comprises polyclonal or monoclonal antibodies according to claim 20, in association with a physiologically acceptable vehicle. 29. Pharmaceutical composition characterized in that it comprises an antisense nucleotide sequence complementary to all or part of the nucleotide sequence coding for a protein with NDP kinase activity 30. Pharmaceutical composition characterized in that it comprises a nucleotide sequence according to one of claims 20 to 24, in association with a physiologically acceptable vehicle.