用于胰腺癌检测临床前研究的1'-[18F]氟乙基-β-D-乳糖([18F]FEL)前体合成、制剂及稳定性的优化
Optimization of precursor synthesis, formulation and stability of 1'-[18F]fluoroethyl-β-D-lactose ([18F]FEL) for preclinical studies in detection of pancreatic cancer.
作者信息
Paolillo Vincenzo, De Palatis Louis, Alauddin Mian M
机构信息
Center for Advanced Biomedical Imaging, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA.
Department of Cancer Systems Imaging, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA.
出版信息
Nucl Med Biol. 2014 Apr;41(4):364-70. doi: 10.1016/j.nucmedbio.2014.01.002. Epub 2014 Jan 10.
INTRODUCTION
1'-[(18)F]Fluoroethyl-β-D-lactose ([(18)F]FEL) is a new PET imaging agent for early detection of pancreatic cancer and hepatocellular carcinoma. We previously reported the syntheses of [(18)F]FEL using a bromo- and a tosyl- precursor, followed by an improved method using a nosyl-precursor. However, some steps in the synthesis of the precursor appeared to be problematic producing low yields. Here, we report on an optimized method for synthesis of the precursor and production of [(18)F]FEL; we also describe [(18)F]FEL's formulation and stability.
METHODS
Acetylation of D-lactose 1 was performed following a literature procedure to obtain 1',2',3',6',2,3,4,6-D-lactose octa-acetate 2a/2b. Bromination of 2a/2b was performed using HBr/acetic acid to produce 1'-bromo-2',3',6',2,3,4,6-hepta-O-acetyl-α-D-lactose 3. Coupling of 3 with ethylene glycol was performed in the presence of Ag-tosylate and an excess of ethylene glycol to produce 4a. Compound 4a was reacted with p-nitrophenylsulfonyl chloride to produce the nosyl derivative 5. Radiofluorination of 5 was performed using K[(18)F]fluoride/kryptofix to obtain 6, which was purified by HPLC and hydrolyzed with Na-methoxide to produce 7.
RESULTS
Compound 2 (2a/2b) was obtained in 83% yield as a mixture of two anomeric products. Compound 3 was obtained from the 2a/2b mixture in 80% yield as one product. Coupling of 3 with ethylene glycol produced 4a in 90% yield. Compound 5 was obtained in 64% yield, and radiofluorination of 5 produced 6 in 62.5% ± 7.5% yields (n=8). Hydrolysis of 6 with Na-methoxide produced 7 in 42.0% ± 7.0% yield (n=8) from the end of bombardment.
CONCLUSIONS
A simple 4-step synthesis of the precursor, compound 5, has been achieved with improved yields. A new formulation of [(18)F]FEL has been developed that allows the product to remain stable at ambient temperature for use in animal studies. This improved synthesis of the precursor and stable formulation of [(18)F]FEL should be useful for routine production of the radiotracer and its preclinical and, possibly, clinical applications.
引言
1'-[(18)F]氟乙基-β-D-乳糖([(18)F]FEL)是一种用于早期检测胰腺癌和肝细胞癌的新型正电子发射断层显像(PET)显像剂。我们之前报道了使用溴代和对甲苯磺酰基前体合成[(18)F]FEL,随后改进为使用对硝基苯磺酰基前体的方法。然而,前体合成中的一些步骤似乎存在问题,产率较低。在此,我们报告前体合成及[(18)F]FEL制备的优化方法;我们还描述了[(18)F]FEL的制剂及稳定性。
方法
按照文献方法对D-乳糖1进行乙酰化反应,得到1',2',3',6',2,3,4,6-D-乳糖八乙酸酯2a/2b。使用HBr/乙酸对2a/2b进行溴化反应,生成1'-溴-2',3',6',2,3,4,6-七-O-乙酰-α-D-乳糖3。在对甲苯磺酸银和过量乙二醇存在下,使3与乙二醇偶联,生成4a。化合物4a与对硝基苯磺酰氯反应,生成对硝基苯磺酰基衍生物5。使用K[(18)F]氟化物/穴醚对5进行放射性氟化反应,得到6,通过高效液相色谱法(HPLC)纯化,并使用甲醇钠水解,生成7。
结果
化合物2(2a/2b)以两种异头物产物的混合物形式获得,产率为83%。从2a/2b混合物中获得化合物3,产率为80%,为单一产物。3与乙二醇偶联生成4a的产率为90%。化合物5的产率为64%,5的放射性氟化反应生成6的产率为62.5%±7.5%(n = 8)。从轰击结束时起,用甲醇钠水解6生成7的产率为42.0%±7.0%(n = 8)。
结论
已实现前体化合物5的简单四步合成且产率提高。已开发出[(18)F]FEL的新制剂,使产物在室温下保持稳定,可用于动物研究。前体的这种改进合成及[(18)F]FEL的稳定制剂应有助于该放射性示踪剂的常规生产及其临床前应用,甚至可能用于临床应用。
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