CN101486708B - 4-nitro glyoxaline compound, preparation and use thereof - Google Patents

4-nitro glyoxaline compound, preparation and use thereof Download PDF

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CN101486708B
CN101486708B CN200910078915A CN200910078915A CN101486708B CN 101486708 B CN101486708 B CN 101486708B CN 200910078915 A CN200910078915 A CN 200910078915A CN 200910078915 A CN200910078915 A CN 200910078915A CN 101486708 B CN101486708 B CN 101486708B
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niec
title complex
tco
tcn
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CN101486708A (en
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王学斌
王凤龙
张现忠
张俊波
陆洁
唐志刚
刘键
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BEIJING SHIHONG PHARMACEUTICAL RESEARCH CENTER
Beijing Normal University
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BEIJING SHIHONG PHARMACEUTICAL RESEARCH CENTER
Beijing Normal University
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Abstract

The invention provides hydrophilic complexes marked by radioactive nuclide for hypoxic tumors; and the precursor of the complexes is a 1, 4, 8, 11-tetraazacyclotetradecane-contained 4-nitromidazole compound with the structural formula as shown on the right. The invention also provides the preparation methods of the complexes and the precursor thereof, as well as the application of the complexes as potential tumor hypoxia imaging agents; and the tumor hypoxia imaging agent of the complexes have good hydrophilic property and relatively high uptake value in tumors, particularly the complexes such as <99m>TcO-NIEC and <99m> TcN-NIEC have high absolute uptake value in tumors, low L/NT value, relatively high tumor/muscle ratio and tumor/blood ratio, effectively solve the problem that the current tumor hypoxia imaging agent has the defects of low absolute uptake value and high L/NT value, thus being likely to become new tumor hypoxia imaging agents with better performance.

Description

One type of technetium-99 m labeled tumor hypoxia developer
Technical field
The present invention relates to the nitro glyoxaline title complex and the precursor thereof of the radioisotope labeling of one type of close hypoxic tumor; Also relate to their preparation method and the application in the developer of human or animal organ or tissue; The particularly application in tumor developer belongs to radiopharmaceuticals and the field of nuclear medicine.
Background technology
Tissue anoxia is a principal character of multiple important diseases clinically, ubiquity anoxic cell in animal and human's noumenal tumour, and anoxic cell is all insensitive to radiation and chemotherapy, thereby often become that tumour is difficult to cure, the major reason of easy relapse.Oxygen level to the Tumor Patient Before and After Treatment tumour detects, and can estimate curative effect, help to formulate regimen.
Adopt noninvasive method to confirm that tumor hypoxia receives extensive attention always, NMT is to utilize the hypoxic tissue developer to carry out single photon emission computed tomography (SPECT) or positron emission tomography (PET), and this technology is simple and easy to do.Hypoxia imaging can be estimated the weary oxygen degree of tumour whole on the live body level, non-invasively, for the rational oncotherapy scheme of selection of clinical provides objective basis, is very suitable for clinical application.Therefore, organize developer to detect the focus that the weary oxygen of tumor tissues becomes this area research with tumor hypoxia.
Nineteen fifty-five, Nakamura finds that the 5-nitroimidazole can rapid anti-anaerobism infect.Nitro glyoxaline this specific character in anaerobic environment has been used for the research of tumor hypoxia tissue radiation sensitizer.As far back as the beginning of the eighties, Chapman etc. (Garrecht BM, Chapman JD.Br.J.Radiol.1983,56,745) just propose these compounds are used for the imagination that tissue oxygen level is measured in hypoxic tissue video picture in the body (PET or SPECT).Carbon-14 ( 14C), hydrogen-3 ( 3H), fluoro-18 ( 18F), bromo-82 ( 82Br) and radioiodinated 2-nitroimidazole be used for cardiac muscle and studied (Nunn A.et al.Eur.J.Nucl.Med.1995,22:265 with the video picture of tumour; Schneider RF et al.Quarterly.J.Nucl.Med.1995,39:41; Groshar D, et al.J.Nucl.Med.1993,34:885; Al-ArafajA, et al.Eur.J.Nucl.Med.1994,21:1338; Yeh SH, et al.J.Nucl.Med.1994,35:205; Webb P, et al.J.Labelled Compd.Radiopharm.1990,28:257; Tewson TJ, et al.Nucl.Med.Biol.1997,24:755; Piert M, et al.Eur.J.Nucl.Med.1999,26:95).Yet difficult acquisition of these radionuclides and expensive PET picture reproducer are seriously restricting the broad research and the application of these medicines.
Because 99mThe good nulcear properties of Tc and be easy to from 99Mo/ 99mDrip washing obtains in the Tc producer, and these advantages are attracting the investigator right 99mTc mark hypoxic tissue imaging medicament is carrying out arduous exploration, and becomes the focus of research in recent years.Synthesized in recent years a series of technetium-99m ( 99mTc) the 2-nitroimidazole complex of mark.
Linder in 1994 etc. are synthetic 99m(be BMS181321, structure such as following structural formula be (Linder KE, et al.J.Med.Chem.1994 a) for Tc-[PnAO-1-(2-nitroimidazole)]; 37:9); Nineteen ninety-five Wedeking etc. has synthesized BMS194796 (also claiming BRU59-21, structure such as following structural formula b) (Wedeking P, et al.J.Nucl.Med.1995 again; 36:17), this is one type of maximum anoxia developing agent of present clinical study.(Ballinger, J.R. such as Ballinger; Kee, J.W.M.; Rauth, A.M.J.Nucl.Med.1996 is 37:1023) with (Melo, T. such as Melo; Duncan, J.; Ballinger, J.R.; Rauth, A.M.J. Nucl.Med.2000,41:169) the biological property result of study to BMS181321 and two kinds of developers of BRU59-21 shows that they can be used for the clinical study of noumenal tumour anoxia state and be used for clinical study at present.Other scholars (for example: Ballinger JR.Semin.Nucl.Med.2001,31:321 both at home and abroad; Sophie M, et al.Tetrahedron.2001 57:9979) has also carried out a large amount of work, and has obtained certain achievement in research in the research of nitro glyoxaline anoxia developing agent.Yet research shows that all there is the low and higher defective of liver background of definitely picked-up value of tumour in these nitro glyoxaline anoxia developing agents, and this has influenced the tumor hypoxia imaging results.
Figure G2009100789153D00021
A complex B MS181321 b complex B RU59-21
4 (5)-nitro glyoxaline compounds although its Electron Affinities is lower slightly, also demonstrates the ability that has in anoxic cell picked-up and be detained, and show the characteristic that part is atypical, be different from the 2-nitro glyoxaline compound in some are studied recently.In recent years, (Li, T. such as Chu; Chu, T.; Liu, X.; Wang, X.Nucl.Med.Biol.2005,32,225; Chu, T.; Hu, S.; Wei, B.; Wang, Yi.; Liu, X.; Wang, X.Bioorg.Med.Chem.Lett.2004,14,747) report the title complex that has synthesized a series of 4-of containing nitroimidazole groups, research shows that such title complex has certain picked-up and has certain weary oxygen selective in tumour.
Synthetic and the coordination chemistry of nitrogen heterocyclic ring is the interested fields of people always; This is because the different cavity footpath of big ring has the coordination selectivity to the different metal ion; The nitrogen heterocyclic ring title complex is insensitive to the acid catalysis degraded; Under low pH, have dynamic stabilization, these character help it is used for radiodiagnosis and medicine as chelation group research.1; 4; 8; 11-tetraazacyclododecane tetradecane (cyclam) can be used as difunctional connection agent mark biomolecules (being generally little peptide, protein or monoclonal antibody etc.) and other bioactive molecules as important a kind of in the nitrogen heterocyclic ring, and the radionuclide that is used for nitrogen heterocyclic ring compound mark at present is mainly 99mTc, 64Cu, 67Cu, 188Re, 90Y, 111In with 67Ga etc.The usefulness of wherein having reported at present 99mTc mark nitrogen heterocyclic ring compound mainly forms 99mTcO 2The title complex of form, and 99mTcO, 99mTcN with 99mTc (CO) 3The nitrogen heterocyclic ring title complex of form rarely has report.
Based on above consideration, the contriver has synthesized a kind of with 1,4,8, and the 11-four azepine tetradecanes (cyclam) are the 4-nitroimidazole compound of difunctional connection agent, and with technetium-99m this compound are carried out mark, have obtained one type of title complex that radioactivity is technetium-99 m labeled.Such title complex can be used as the tumor hypoxia developer; Can obviously improve the low and high shortcoming of liver background of definitely picked-up value of present tumor hypoxia developer tumour; Thereby obviously improve the video picture quality in the tumor hypoxia tissue, can be widely used in medical video picture field.
Summary of the invention
Primary and foremost purpose of the present invention is to provide one type to have the more nitro glyoxaline title complex of high-affinity with the hypoxic tumor tissue, and this purpose realizes through following scheme:
A kind of new nitro glyoxaline compound is provided earlier, promptly contains 1,4,8, the 4-nitro glyoxaline part (NIEC) of the 11-four azepine tetradecanes (cyclam), its structure is as shown in the formula A:
Figure G2009100789153D00031
The compound method of said compound N IEC may further comprise the steps:
1) with Trifluoroacetic Acid Ethyl Ester with 1,4,8, the 11-four azepine tetradecanes (cyclam) carry out three nitrogen protections;
2) with methylsulfonyl chloride the product that ethylene bromohyrin and 4-nitroimidazole generation alkylated reaction obtain is carried out sulfonylation;
3) with step 2) the three nitrogen protection product generation alkylated reaction of sulfonylation product and step 1);
4) with the alkylate of step 3) methyl alcohol as solvent and sodium hydroxide condition under deprotection, obtain target compound NIEC.
The concrete scheme of above-mentioned compound method is identical with method among the embodiment 1, repeats no more here.
The present invention further provides the title complex that is obtained by radioisotope labeling above-claimed cpd NIEC part.
Said radionuclide can be radioactive 99mTc or 186/188Re.
The said title complex that is obtained by the radioisotope labeling part is preferred 99mTcO-NIEC, 99mTcN-NIEC or 99mTc (CO) 3-NIEC.
The present invention also provides the preparation method of said preferred title complex may further comprise the steps:
1) preparation 99mThe Tc-sodium glucoheptonate ( 99mTcO-GH), [ 99mTcN] +Midbody or [ 99mTc (CO) 3(H 2O) 3] +Midbody;
2) step 1) is prepared 99mTc-GH, [ 99mTcN] 2+Midbody or [ 99mTc (CO) 3(H 2O) 3] +Midbody joins among the part NIEC, with the 0.1M sodium hydroxide solution it is adjusted into PH 13, and boiling water bath heating 30 minutes obtains 99mTcO-NIEC, 99mTcN-NIEC or 99mTc (CO) 3-NIEC.
Concrete scheme through the said 3 kinds of preferred title complexs of method for preparing respectively with embodiment 2~4 in method identical, repeat no more here.
Through to the pure and mild mensuration such as electrical of putting of title complex of the present invention, the result shows: 99mThe TcO-title complex with 99mThe TcN-title complex is electroneutral, and putting is pure all greater than 95%; 99mTc (CO) 3-title complex is positive polarity, and putting is pure greater than 95%.
The present invention also provides said title complex purposes as developer in human or animal's organ and tissue, particularly as the purposes of tumor hypoxia developer.
Title complex of the present invention is to be the 4-nitroimidazole compound of the radioisotope labeling of difunctional connection agent with cyclam, because of its specific molecular structure has tumors of higher picked-up, and is used for clinical popular tumor hypoxia developer at present 99mTc-BMS181321 with 99mTc-BRU59-21 compares, and the bio distribution of title complex of the present invention has significant advantage and progress.Particularly 99mTcO-NIEC with 99mThe TcN-NIEC title complex, definitely picked-up value of they tumours height and liver background are low, and knurl/meat and knurl/blood ratio are also higher. 99mTcO-NIEC with 99mTcN-NIEC back 2 hours in injection, definitely picked-up value of tumour is respectively 3.54 ± 0.04%ID/g and 3.42 ± 0.97%ID/g, apparently higher than 99mTc-BMS181321 with 99mTc-BRU59-21 (injects back 2 hours tumor uptake values and is respectively 0.55 ± 0.08%ID/g and 0.37 ± 0.14%ID/g).Injected back 2 hours, 99mThe picked-up of the liver of TcO-NIEC with 99mTc-BMS181321 with 99mThe liver picked-up of Tc-BRU59-21 is suitable, and 99mThe liver picked-up of TcN-NIEC is starkly lower than their liver picked-up.
In a word, title complex of the present invention, particularly 99mTcO-NIEC with 99mThe TcN-NIEC title complex obviously is being superior to being used at present clinical tumor hypoxia developer aspect increase tumor uptake value and the picked-up of reduction liver 99mTc-BMS181321 with 99mThe biological property of Tc-BRU59-21 is expected to develop into and has China independent intellectual property right 99mThe tumor hypoxia developer of Tc mark is used for the diagnosis of tumour; In addition, the NIEC part is through other nucleic, as 186/188Also can be used for the treatment of tumour illness behind the marks such as Re.The design of such new formulation with succeed in developing, be expected in the diagnosis and treatment of tumour illness, play a significant role.
Embodiment
Below through concrete embodiment the present invention is illustrated more clearly in, but technical scheme of the present invention is not limited to the following example.
Embodiment 1
Synthetic route according to shown in following is synthesized compound N IEC provided by the invention:
Figure G2009100789153D00051
Wherein employed reagent is:
(a) EtOTFA, Et 3N and MeOH;
(b) 2-bromoethanol, K 2CO 3And CH 3CN;
(c) CH 3SO 2Cl, CH 2Cl 2And Et 3N;
(d) compound 1, K 2CO 3And CH 3CN;
NaOH and MeOH
Concrete steps are following:
Tri-TFA cyclam's (compound 1) is synthetic:
In exsiccant 50mL there-necked flask, with cyclam (1.0g, 5.0mmol) and triethylamine (0.69mL 5.0mmol) is dissolved in the anhydrous methanol of 20mL; Feed nitrogen protection and reaction solution remained on 0~5 ℃ with ice-water bath, be added dropwise to then Trifluoroacetic Acid Ethyl Ester (6.0mL, 50.0mmol); Drip and continue ten minutes, stirring reaction 7 hours, the outstanding steaming except that desolvating; Residue as eluent, obtains the white foam shape solid of compound 1 with ETHYLE ACETATE through a little silicagel column. 1H?NMR(500MHz,CDCl 3)δ:3.79-3.51(m,12H),2.95(m,2H),2.72(m,2H),2.18(m,2H),1.86(m,2H)。
2-(4-nitro-1H-imidazol-1-yl) ethyl methanesulfonate's (compound 3) is synthetic:
In the 50mL there-necked flask with the 4-nitroimidazole (0.96g, 5mmol) with 2-bromo-1-ethanol (1.04g 7.5mmol) is dissolved in the 20mL anhydrous acetonitrile, add then Anhydrous potassium carbonate (1.04g, 7.5mmol), mixture stirring and refluxing seven hours.The elimination solid revolves to steam to remove and desolvates, and obtains faint yellow compound 2, and need not to purify to be used for next step reaction.
With compound 2 (1.25g; 5mmol) and triethylamine (1mL 7.5mmol) is dissolved in the 50mL methylene dichloride, is cooled to 0~5 ℃; Dropwise add methylsulfonyl chloride (0.87g with constant pressure funnel then; 7.5mmol) dichloromethane solution, stirred overnight at room temperature, reaction solution is used the washing of saturated ammonium chloride solution (30mL) and saturated aqueous common salt (30mL) respectively.Organic phase is used the sewage dried over sodium sulfate, and solvent is removed in outstanding steaming, and residue is purified with chromatographic column, and drip washing moving phase is chosen V (methyl alcohol)/V (methylene dichloride)=1/15, obtains the white solid of compound 3. 1H?NMR(500MHz,DMSO)δ:8.44(s,1H),7.88(s,1H),4.54-4.57(m,2H),4.42-4.44(m,2H),3.15(s,3H)。
[2-(4-nitro-1H-imidazol-1-yl) ethyl] Tri-TFA-cyclam's (compound 4) is synthetic:
In the 50mL there-necked flask, with compound 1 (0.97g, 2mmol) and Anhydrous potassium carbonate (0.42g 3mmol) joins in the 20mL dry DMF, add then compound 3 (0.65g, 2mmol), mixture stirring and refluxing 9 hours.The elimination solid revolves to steam to remove and desolvates, and residue is purified with chromatographic column, and drip washing moving phase is chosen V (methyl alcohol)/V (methylene dichloride)=1/15, obtains the white solid of compound 4. 1H?NMR(500MHz,CDCl 3)δ:7.91(s,1H),7.57(s,1H),5.47-5.52(m,2H),5.16-5.19(m,2H),3.41-3.43(m,12H),2.73-2.76(m,4H),2.34-2.38(m,4H)。
[2-(4-nitro-1H-imidazol-1-yl) ethyl] cyclam's (NIEC) is synthetic:
With compound 4 (0.36g 0.5mmol) is dissolved in the methyl alcohol of 10mL, with ice-water bath reaction solution is cooled to 0~5 ℃ after with NaOH (0.40g; 10mmol) join in batches in the reaction solution, the mixture stirring at room is 30 minutes then, the elimination solid; Revolve steaming and obtain white solid, add entry (20mL) and chloroform (10mL) then and stir, separate organic phase with separating funnel except that desolvating; (chloroform (15mL) extraction is used in 3 * 10mL) washings, the aqueous solution to water once more, merges organic phase; Use anhydrous sodium sulfate drying, the white solid that solvent obtains compound N IEC is removed in outstanding steaming. 1H?NMR(500MHz,CDCl 3)δ:7.86(s,1H),7.37(s,1H),5.24-5.32(m,2H),5.04-5.07(m,2H),3.32-3.37(m,12H),2.44-2.49(m,4H),2.17-2.21(m,4H)。
Embodiment 2
Preparation 99mThe TcO-NIEC title complex
1) 99mThe preparation of TcO-GH
Take by weighing GH part 25mg, it is dissolved fully, add the SnCI of 0.5mL with 0.5mL saline water 22H 2O (1mg/mL, 0.1M HCI) reconciles pH=7~7.5, the fresh drip washing of adding 0.5mL 99mTcO 4 -Solution (approximately 10mCi), 40 ℃ of heating in water bath for reaction 10 minutes are chilled to room temperature, are ready for use on the precursor of ligand exchange method.
2) 99mThe preparation of TcO-NIEC
The compound N IEC part of 20mg is dissolved in the 20mL methyl alcohol, takes out 0.15mL and put into the penicillium mould bottle, the pH=13 that uses 1.0mL is that the NaOH damping fluid adjusting pH value of 0.1M is 13, adds 0.15mL's 99mTc-GH solution, mixture boiling water bath heating 45min, membrane filtration, mark rate is more than 95%.
Embodiment 3
Preparation 99mThe TcN-NIEC title complex
(1) midbody [ 99mTcN] 2+Preparation
Can adopt following two kinds of methods preparation 99mThe TcN midbody, promptly
Get 1~2mL 99mTcO 4 -Fresh leacheate joins in the DTCZ medicine box, shake up, boiling water bath heating 15min, can obtain midbody [ 99mTcN] 2+
Or
Get 1~2mL 99mTcO 4 -Fresh leacheate joins in the SDH medicine box, shakes up, and room temperature leaves standstill 15min, can obtain midbody [ 99mTcN] 2+
(2) 99mThe preparation of TcN-NIEC
The ligand solution NIEC that gets the above-mentioned preparation of 0.1mL puts into the penicillium mould bottle, and using the NaOH damping fluid of the 0.1M of 1.0mL to regulate NIEC ligand solution pH value is 13, add then 0.1mL [ 99mTcN] 2+Midbody, boiling water bath heating 40min.Mark rate is more than 95%.
Embodiment 4
Preparation 99mTc (CO) 3-NIEC title complex
1) [ 99mTc (CO) 3(H 2O) 3] +The preparation of midbody
Take by weighing 5mg soda ash light, 10mg Peng Qinghuana, 15mg Seignette salt and put into 10mL penicillium mould bottle, behind the air in the logical carbon monoxide 5min emptying bottle, add the Na of 1mL 99mTcO 4(about 290~370MBq).Continue logical carbon monoxide and under 75 ℃ of conditions, heat 20min, reaction is cooled to room temperature with solution after finishing.
2) 99mTc (CO) 3The preparation of-NIEC
The ligand solution NIEC that gets the above-mentioned preparation of 0.1mL puts into the penicillium mould bottle, and using the NaOH damping fluid of the 0.1M of 1.0mL to regulate NIEC ligand solution pH value is 13, add then 0.1mL [ 99mTc (CO) 3(H 2O) 3] +Midbody, boiling water bath heating 40min.Mark rate is more than 95%.
Title complex to embodiment 2~4 carries out thin-layer chromatography (TLC) evaluation
System 1: saline water/polymeric amide;
System 2: acetonitrile/polymeric amide.
The R of each component fValue is listed in the table 1.
The R of each component of table 1. on TLC fValue
Figure G2009100789153D00081
Can well distinguish each midbody and target title complex through thin-layer chromatography (TLC), be good TLC detection architecture.
Title complex is bio distribution in S180 mice with tumor body
1) cultivation of S180 mice with tumor:
Get S180 tumour cell about 1 * 10 6Individual be subcutaneously injected into kunming mice (female, 18~20g) left front leg, after 9~10 days, diameter of tumor is 10~15mm, and is for use.
2) prepare mark rate respectively greater than 95% by embodiment 2~4 methods 9mTcO-NIEC, 99mTcN-NIEC and 99mTc (CO) 3-NIEC complex solution, from the tail vein injection 0.1mL marker ligand compound (about 20 μ Ci) of S180 mice with tumor, injection back 1h, 2h, 4h sacrificed by decapitation mouse.Get related organization and organs such as blood and brain, the heart, liver, lung, meat, bone, blood, spleen, kidney, tumour, weigh after cleaning, and measure radiocounting, select for use 1%ID/g, calculate radiopharmaceuticals distribution situation in each tissue in the mouse body as standard.Four groups of panel datas, i.e. n=4 are got in every group of experiment.Experimental result is listed in table 2~4.
Table 2. 99mTcO-NIEC is bio distribution (n=4) in S180 mice with tumor body
Figure G2009100789153D00082
Figure G2009100789153D00091
Table 3. 99mTcN-NIEC is bio distribution (n=4) in S180 mice with tumor body
Figure G2009100789153D00092
Table 4. 99mTc (CO) 3-NIEC is bio distribution (n=4) in S180 mice with tumor body
Figure G2009100789153D00101
2-4 is visible by table, and above-mentioned three kinds of title complexs of the present invention all have certain tumor uptake, particularly 99mTcO-NIEC with 99mThe TcN-NIEC title complex, definitely picked-up value of they tumours is high and the liver background is low, and knurl/meat and knurl/blood ratio are also higher, demonstrate good biological property.
Above-mentioned three kinds of title complexs of the present invention be used for clinical popular tumor hypoxia developer at present 99mTc-BMS181321 with 99mThe bio distribution of Tc-BRU59-21 is relatively listed in table 5.
The comparison of 2h after injection of table 5. three kinds of title complexs of the present invention and other known anoxia developing agent
Figure G2009100789153D00102
Visible by table 5, above-mentioned three kinds of title complexs of the present invention all have the tumors of higher picked-up, especially 99mTcO-NIEC with 99mThe TcN-NIEC title complex, they in injection back 2 hours, definitely picked-up value of tumour is respectively 3.54 ± 0.04%ID/g and 3.42 ± 0.97%ID/g, apparently higher than 99mTc-BMS181321 with 99m(injected back 2 hours, the tumor uptake value is respectively 0.55 ± 0.08%ID/g and 0.37 ± 0.14%ID/g) to Tc-BRU59-21.In addition, 99mTcO-NIEC with 99mTcN-NIEC also has lower liver picked-up when having higher tumor uptake, injected back 2 hours, 99mThe picked-up of the liver of TcO-NIEC with 99mTc-BMS181321 with 99mThe liver picked-up of Tc-BRU59-21 is suitable, and 99mThe liver picked-up of TcN-NIEC is starkly lower than their liver picked-up.
Above-mentioned each item result shows, title complex of the present invention, particularly 99mTcO-NIEC with 99mThe TcN-NIEC title complex demonstrates and obviously is superior to being used at present clinical popular tumor hypoxia developer 99mTc-BMS181321 with 99mThe biological property of Tc-BRU59-21 is expected to develop into and has the new of China's independent intellectual property right 99mThe tumor hypoxia developer of Tc mark.

Claims (6)

1. one type of title complex by radioisotope labeling, it is characterized in that: it is 1,4,8, the 4-nitroimidazole part NIEC of the 11-four azepine tetradecanes respectively with 99mTcO nuclear, 99mTcN nuclear or 99mTc (CO) 3The title complex that karyomorphism becomes, promptly 99mTcO-NIEC, 99mTcN-NIEC or 99mTc (CO) 3-NIEC title complex, described part NIEC structure is as shown in the formula A
Figure FDA0000145512530000011
2. the preparation method of the described title complex TcO-NIEC of claim 1 may further comprise the steps:
1) takes by weighing sodium glucoheptonate part 25mg, it is dissolved fully, add the SnCl of the 1mg/mL of 0.5mL with 0.5mL saline water 22H 2O regulates pH=7~7.5, the fresh drip washing of adding 0.5mL 99mTcO 4 -Solution, 40 ℃ of heating in water bath for reaction 10 minutes are chilled to room temperature, obtain being ready for use on ligand exchange method precursor 99mThe Tc-sodium glucoheptonate;
2) the compound N IEC part with 20mg is dissolved in the 20mL methyl alcohol, takes out 0.15mL and puts into the penicillium mould bottle, and the pH=13 that uses 1.0mL is that the NaOH damping fluid adjusting pH value of 0.1M is 13, the preparation of adding 0.15mL step 1) 99mTc-glucoheptonic acid sodium solution, mixture boiling water bath heating 45min, membrane filtration obtains electroneutral and water miscible 99mThe TcO-NIEC title complex.
3. the described title complex of claim 1 99mThe preparation method of TcN-NIEC may further comprise the steps:
1) gets 1~2mL 99mTcO 4 -Fresh leacheate joins in the DTCZ medicine box, shake up, boiling water bath heating 15min, can obtain midbody [ 99mTcN] 2+Or get 1~2mL 99mTcO 4 -Fresh leacheate joins in the SDH medicine box, shakes up, and room temperature leaves standstill 15min, can obtain midbody [ 99mTcN] 2+
2) get 0.15mL NIEC ligand solution and put into the penicillium mould bottle, using the NaOH damping fluid of the 0.1M of 1.0mL to regulate NIEC ligand solution pH value is 13, add then that the 0.1mL step 1) prepares [ 99mTcN] 2+Midbody, boiling water bath heating 40min obtains electroneutral and water miscible 99mThe TcN-NIEC title complex.
4. the described title complex of claim 1 99mTc (CO) 3The preparation method of-NIEC may further comprise the steps:
1) takes by weighing 5mg soda ash light, 10mg Peng Qinghuana, 15mg Seignette salt and put into 10mL penicillium mould bottle, behind the air in the logical carbon monoxide 5min emptying bottle, add the Na of 1mL 99mTcO 4, continuing logical carbon monoxide and under 75 ℃ of conditions, heat 20min, reaction is cooled to room temperature with solution after finishing, obtain [ 99mTc (CO) 3(H 2O) 3] +Midbody;
2) with step 1) obtain [ 99mTc (CO) 3(H 2O) 3] +Midbody joins among the 1.5mg part NIEC, with 0.1M sodium hydroxide its pH value is adjusted into 13, and boiling water bath heating 40min obtains positively charged and water miscible 99mTc (CO) 3-NIEC title complex.
5. the application of the described title complex of claim 1 in organ or tissue's developer of preparation human or animal.
6. the described application of claim 5 is characterized in that: said application is the application in preparation tumor hypoxia developer.
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