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关于将 [18F]DOPA 用作移植胰岛质量的成像生物标志物的研究。

On the use of [18F]DOPA as an imaging biomarker for transplanted islet mass.

机构信息

Department of Medicinal Chemistry, Preclinical PET Platform, Uppsala University, Uppsala, Sweden.

出版信息

Ann Nucl Med. 2014 Jan;28(1):47-52. doi: 10.1007/s12149-013-0779-4. Epub 2013 Oct 29.

DOI:10.1007/s12149-013-0779-4
PMID:24166476
Abstract

AIM

Islet transplantation is being developed as a potential cure for patients with type 1 diabetes. There is a need for non-invasive imaging techniques for the quantification of transplanted islets, as current transplantation sites are associated with a substantial loss of islet viability. The dopaminergic metabolic pathway is present in the islets; therefore, we propose Fluorine-18 labeled L-3,4-dihydroxyphenylalanine ([18F]DOPA) as a biomarker for transplanted islet mass.

METHODS

The expression of enzymes involved in the dopaminergic metabolic pathway was investigated in both native and transplanted human islets. The specific uptake of [18F]DOPA in islets and immortalized beta cells was studied in vitro by selective blocking of dopa decarboxylase (DDC). Initial in vivo PET imaging of viable subcutaneous human islets was performed using [18F]DOPA.

RESULTS

DDC and vesicular monoamine transporter 2 are co-localized with insulin in the native human pancreas, and the expression is retained after transplantation. Islet uptake of the [18F]DOPA could be modulated by inhibiting DDC, indicating that the uptake followed the normal dopaminergic metabolic pathway. In vivo imaging revealed [18F]DOPA uptake at the site of the functional islet graft.

CONCLUSION

Based on the in vitro and in vivo results presented in this study, we propose to further validate [18F]DOPA-PET as a sensitive imaging modality for imaging extrahepatically transplanted islets.

摘要

目的

胰岛移植作为治疗 1 型糖尿病患者的一种潜在方法正在得到发展。目前需要一种非侵入性的成像技术来定量移植的胰岛,因为目前的移植部位与胰岛活力的大量丧失有关。胰岛中存在多巴胺代谢途径;因此,我们提出氟-18 标记的 L-3,4-二羟基苯丙氨酸([18F]DOPA)作为移植胰岛质量的生物标志物。

方法

研究了多巴胺代谢途径中涉及的酶在天然和移植的人胰岛中的表达。通过选择性阻断多巴脱羧酶(DDC),在体外研究了[18F]DOPA 在胰岛和永生化β细胞中的特异性摄取。使用[18F]DOPA 对皮下存活的人胰岛进行了初步的体内 PET 成像。

结果

DDC 和囊泡单胺转运体 2 与胰岛素在天然人胰腺中共存,并且在移植后保留表达。[18F]DOPA 的胰岛摄取可以通过抑制 DDC 来调节,这表明摄取遵循正常的多巴胺代谢途径。体内成像显示在功能胰岛移植物部位有[18F]DOPA 摄取。

结论

基于本研究中呈现的体外和体内结果,我们建议进一步验证[18F]DOPA-PET 作为一种敏感的成像方式,用于成像肝外移植的胰岛。

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