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本文引用的文献

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Drug-induced cholestasis.药物性胆汁淤积。
Hepatology. 2011 Apr;53(4):1377-87. doi: 10.1002/hep.24229.
2
The role of the sodium-taurocholate cotransporting polypeptide (NTCP) and of the bile salt export pump (BSEP) in physiology and pathophysiology of bile formation.牛磺胆酸钠共转运多肽(NTCP)和胆盐输出泵(BSEP)在胆汁形成的生理和病理生理中的作用。
Handb Exp Pharmacol. 2011(201):205-59. doi: 10.1007/978-3-642-14541-4_5.
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Bile salts and cholestasis.胆汁盐与胆汁淤积。
Dig Liver Dis. 2010 Jun;42(6):409-18. doi: 10.1016/j.dld.2010.03.015.
4
Role of the bile salt export pump, BSEP, in acquired forms of cholestasis.胆汁盐输出泵(BSEP)在获得性胆汁淤积症中的作用。
Drug Metab Rev. 2010 Aug;42(3):437-45. doi: 10.3109/03602530903492004.
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Bile acids: chemistry, pathochemistry, biology, pathobiology, and therapeutics.胆汁酸:化学、病理化学、生物学、病理生物学及治疗学
Cell Mol Life Sci. 2008 Aug;65(16):2461-83. doi: 10.1007/s00018-008-7568-6.
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Hepatic uptake and metabolism of galactose can be quantified in vivo by 2-[18F]fluoro-2-deoxygalactose positron emission tomography.半乳糖的肝脏摄取和代谢可通过2-[18F]氟-2-脱氧半乳糖正电子发射断层扫描在体内进行定量分析。
Am J Physiol Gastrointest Liver Physiol. 2008 Jul;295(1):G27-G36. doi: 10.1152/ajpgi.00004.2008. Epub 2008 May 15.
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Mechanisms of cholestasis.胆汁淤积的机制。
Clin Liver Dis. 2008 Feb;12(1):1-26, vii. doi: 10.1016/j.cld.2007.11.010.
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Review article: The function and regulation of proteins involved in bile salt biosynthesis and transport.综述文章:参与胆汁盐生物合成与转运的蛋白质的功能与调控
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Bile acid transporters: structure, function, regulation and pathophysiological implications.胆汁酸转运体:结构、功能、调节及病理生理学意义
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Hepatocanalicular transport defects: pathophysiologic mechanisms of rare diseases.肝小管转运缺陷:罕见疾病的病理生理机制
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[N-甲基-11C]甘氨胆酰基sarcosine,一种新型用于 PET/CT 肝排泄功能研究的胆汁酸示踪剂:在猪中的放射性合成和概念验证研究。

[N-methyl-11C]cholylsarcosine, a novel bile acid tracer for PET/CT of hepatic excretory function: radiosynthesis and proof-of-concept studies in pigs.

机构信息

PET Center, Aarhus University Hospital, Aarhus, Denmark.

出版信息

J Nucl Med. 2012 May;53(5):772-8. doi: 10.2967/jnumed.111.098731. Epub 2012 Mar 27.

DOI:10.2967/jnumed.111.098731
PMID:22454486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3390910/
Abstract

UNLABELLED

Excretion of conjugated bile acids into bile is an essential function of the liver, and impairment of canalicular bile acid secretion leads to cholestatic liver injury. However, hepatic excretory function cannot be quantified in vivo because of the lack of suitable methods. Cholylsarcosine is an analog of the endogenous bile acid conjugate cholylglycine and exhibits characteristics in vivo that led us to hypothesize that the (11)C-labeled form, that is, [N-methyl-(11)C]cholylsarcosine ((11)C-cholylsarcosine), would be a suitable PET tracer for quantification of hepatic excretory function.

METHODS

A method for radiosynthesis of (11)C-cholylsarcosine was developed involving (11)C-methylation of glycine followed by conjugation with cholic acid. Blood-to-liver uptake and liver-to-bile excretion were investigated in vivo by dynamic (11)C-cholylsarcosine PET/CT of 2 anesthetized pigs. In pig 1, a second dynamic (11)C-cholylsarcosine PET/CT examination was preceded by a high dose of the endogenous bile acid conjugate cholyltaurine to investigate possible inhibition of the transhepatocellular transport of (11)C-cholylsarcosine. In pig 2, a second (11)C-cholylsarcosine administration was given to determine the biodistribution of the tracer by means of 5 successive whole-body PET/CT recordings. Possible formation of (11)C-metabolites was investigated by analysis of blood and bile samples from a third pig.

RESULTS

The radiochemical yield was 13% ± 3% (n = 7, decay-corrected) and up to 1.1 GBq of (11)C-cholylsarcosine was produced with a radiochemical purity greater than 99%. PET/CT studies showed rapid blood-to-liver uptake and liver-to-bile excretion of (11)C-cholylsarcosine, with radioactivity concentrations being more than 90 times higher in the bile ducts than in liver tissue. Cholyltaurine inhibited the transhepatocellular transport of (11)C-cholylsarcosine, indicating that the tracer is transported by one or more of the same hepatic transporters as cholyltaurine. (11)C-cholylsarcosine underwent an enterohepatic circulation and reappeared in liver tissue and bile ducts after approximately 70 min. There were no detectable (11)C-metabolites in the plasma or bile samples, indicating that the novel conjugated bile acid (11)C-cholylsarcosine was not metabolized in the liver or in the intestines. The effective absorbed dose of (11)C-cholylsarcosine was 4.4 μSv/MBq.

CONCLUSION

We have synthesized a novel conjugated bile acid analog, (11)C-cholylsarcosine, and PET/CT studies on anesthetized pigs showed that the hepatic handling of tracer uptake from blood and excretion into the bile was comparable to that for the endogenous bile acid cholyltaurine. This tracer may be valuable for future studies of normal and pathologic hepatic excretory functions in humans.

摘要

目的

开发一种放射性合成方法,即甘氨酸的(11)C-甲基化,随后与胆酸结合,用于合成放射性标记物[N-甲基-(11)C]胆酰基-肌氨酸((11)C-胆酰基-肌氨酸)。通过对 2 只麻醉猪进行动态(11)C-胆酰基-肌氨酸 PET/CT 检查,研究其在体血向肝摄取和肝向胆汁排泄情况。在猪 1 中,在进行第二次动态(11)C-胆酰基-肌氨酸 PET/CT 检查之前,给予高剂量内源性胆酸结合物牛磺胆酸,以研究其是否可能抑制(11)C-胆酰基-肌氨酸的跨肝细胞转运。在猪 2 中,给予第二次(11)C-胆酰基-肌氨酸给药,通过 5 次连续全身 PET/CT 记录确定示踪剂的生物分布。通过对第 3 只猪的血液和胆汁样本进行分析,研究(11)C-代谢产物的形成情况。

结果

放射性化学产率为 13%±3%(n=7,衰变校正),最高可生产 1.1GBq 的(11)C-胆酰基-肌氨酸,放射性纯度>99%。PET/CT 研究显示,(11)C-胆酰基-肌氨酸在体内具有快速的血向肝摄取和肝向胆汁排泄特性,其胆管中的放射性浓度比肝组织中的放射性浓度高 90 倍以上。牛磺胆酸抑制(11)C-胆酰基-肌氨酸的跨肝细胞转运,表明该示踪剂通过一种或多种与牛磺胆酸相同的肝转运体进行转运。(11)C-胆酰基-肌氨酸经历了肠肝循环,大约 70 分钟后再次出现在肝组织和胆管中。在血浆或胆汁样本中未检测到(11)C-代谢产物,表明新型结合胆酸(11)C-胆酰基-肌氨酸在肝脏或肠道中未发生代谢。(11)C-胆酰基-肌氨酸的有效吸收剂量为 4.4μSv/MBq。

结论

我们合成了一种新型结合胆酸类似物[N-甲基-(11)C]胆酰基-肌氨酸,并对麻醉猪进行了 PET/CT 研究,结果表明,该示踪剂对血中摄取和胆汁排泄的肝处理与内源性胆酸牛磺胆酸相似。这种示踪剂可能对未来研究人类正常和病理肝排泄功能有价值。