O-(2-[¹⁸F]氟乙基)-L-酪氨酸体外及体内转运机制与摄取动力学研究

Investigation of transport mechanism and uptake kinetics of O-(2-[18F]fluoroethyl)-L-tyrosine in vitro and in vivo.

作者信息

Heiss P, Mayer S, Herz M, Wester H J, Schwaiger M, Senekowitsch-Schmidtke R

机构信息

Nuklearmedizinische Klinik and Poliklinik, Technische Universität München, Germany.

出版信息

J Nucl Med. 1999 Aug;40(8):1367-73.

PMID:10450690

Abstract

UNLABELLED

The aim of the study was to investigate the transport mechanism and uptake kinetics of the new 18F-labeled amino acid O-(2-[18F]fluoroethyl)-L-tyrosine (L-[18F]FET) and D-[18F]FET in human SW 707 colon carcinoma cells and the in vivo biodistribution of this tracer in SW 707 tumor-bearing mice.

METHODS

SW 707 cells were incubated with L- and D-[18F]FET under physiologic amino acid concentrations with and without the competitive transport inhibitors 2-amino-2 norbornane-carboxylic acid and a-(methylamino)isobutyric acid plus serine. For the investigation of the transport capacity, unlabeled L-FET was added to the samples. In addition, xenotransplanted mice were injected intravenously with L-[18F]FET; killed 10, 30, 60 and 120 min after injection; and the radioactivity concentration in different organs was measured in a gamma counter.

RESULTS

The in vitro kinetic experiments showed a fast initial uptake of L-[18F]FET into the cells up to 6 min, followed by a nearly constant tracer concentration. The accumulation factor, calculated as the ratio between intracellular and extracellular tracer concentration, ranged from 3.0 to 5.0. In comparison, D-[18F]FET did not accumulate in the cells. Washing the cells in medium at 37 degrees C, after a 30-min incubation with L-[F-18]FET, led to a rapid decrease of radioactivity, which demonstrates the bidirectional transport. In addition, experiments with increasing concentrations of unlabeled L-FET indicated a linear correlation between L-FET uptake rate and the extracellular concentration. Results of transport inhibition experiments with the specific competitive inhibitors demonstrated that the uptake of L-FET into SW 707 cells was caused mainly (>80%) by the transport system L. In the in vivo studies, the half-life (t1/2 beta) of L-[18F]FET in the plasma was determined to be 94 min and the uptake into the brain increased to 120 min with a brain-to-blood ratio of 0.86. The xenotransplanted tumor showed higher uptake of L-[18F]FET (>6 %ID/g) at 30 and 60 min than all other organs, except the pancreas. The tumor-to-blood ratio reached about 2 between 30 and 120 min.

CONCLUSION

L-[18F]FET, which is transported by the specific amino acid transport system L, seems to be a potential amino acid tracer for tumor imaging and therapy monitoring with PET.

摘要

未标记

本研究的目的是研究新型18F标记氨基酸O-(2-[18F]氟乙基)-L-酪氨酸（L-[18F]FET）和D-[18F]FET在人SW 707结肠癌细胞中的转运机制和摄取动力学，以及该示踪剂在荷SW 707肿瘤小鼠体内的生物分布。

方法

将SW 707细胞在生理氨基酸浓度下，分别在有和没有竞争性转运抑制剂2-氨基-2-降冰片烷羧酸以及α-(甲基氨基)异丁酸加丝氨酸的情况下，与L-和D-[18F]FET一起孵育。为了研究转运能力，向样品中加入未标记的L-FET。此外，将异种移植小鼠静脉注射L-[18F]FET；在注射后10、30、60和120分钟处死；并在γ计数器中测量不同器官中的放射性浓度。

结果

体外动力学实验表明，L-[18F]FET在6分钟内快速初始摄取进入细胞，随后示踪剂浓度几乎恒定。以细胞内和细胞外示踪剂浓度之比计算的积累因子范围为3.0至5.0。相比之下，D-[18F]FET没有在细胞中积累。在用L-[F-18]FET孵育30分钟后，在37℃的培养基中洗涤细胞导致放射性迅速下降，这证明了双向转运。此外，用浓度递增的未标记L-FET进行的实验表明，L-FET摄取率与细胞外浓度之间存在线性相关性。用特异性竞争性抑制剂进行的转运抑制实验结果表明，L-FET进入SW 707细胞的摄取主要（>80%）由转运系统L引起。在体内研究中，L-[18F]FET在血浆中的半衰期（t1/2β）测定为94分钟，在脑中的摄取增加到120分钟，脑血比为0.86。异种移植肿瘤在30和60分钟时对L-[18F]FET的摄取（>6%ID/g）高于除胰腺外的所有其他器官。肿瘤血比在30至120分钟之间达到约2。