抗增殖药物治疗后胸苷激酶1的磷酸化状态介导3'-脱氧-3'-[18F]-氟代胸苷的细胞内滞留。

Phosphorylation status of thymidine kinase 1 following antiproliferative drug treatment mediates 3'-deoxy-3'-[18F]-fluorothymidine cellular retention.

作者信息

Sala Roberta, Nguyen Quang-Dé, Patel Chirag B K, Mann David, Steinke Joachim H G, Vilar Ramon, Aboagye Eric O

机构信息

Comprehensive Cancer Imaging Centre, Department of Surgery and Cancer, Imperial College London, London, United Kingdom.

Institute of Chemical Biology, Department of Chemistry, Imperial College London, London, United Kingdom.

出版信息

PLoS One. 2014 Jul 8;9(7):e101366. doi: 10.1371/journal.pone.0101366. eCollection 2014.

DOI:10.1371/journal.pone.0101366

PMID:25003822

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4086825/

Abstract

BACKGROUND

3'-Deoxy-3'-[18F]-fluorothymidine ([18F]FLT) is being investigated as a Positron Emission Tomography (PET) proliferation biomarker. The mechanism of cellular [18F]FLT retention has been assigned primarily to alteration of the strict transcriptionally regulated S-phase expression of thymidine kinase 1 (TK1). This, however, does not explain how anticancer agents acting primarily through G2/M arrest affect [18F]FLT uptake. We investigated alternative mechanisms of [18F]FLT cellular retention involving post-translational modification of TK1 during mitosis.

METHODS

[18F]FLT cellular retention was assessed in cell lines having different TK1 expression. Drug-induced phosphorylation of TK1 protein was evaluated by MnCl2-phos-tag gel electrophoresis and correlated with [18F]FLT cellular retention. We further elaborated the amino acid residues involved in TK1 phosphorylation by transient transfection of FLAG-pCMV2 plasmids encoding wild type or mutant variants of TK1 into TK1 negative cells.

RESULTS

Baseline [18F]FLT cellular retention and TK1 protein expression were associated. S-phase and G2/M phase arrest caused greater than two-fold reduction in [18F]FLT cellular retention in colon cancer HCT116 cells (p<0.001). G2/M cell cycle arrest increased TK1 phosphorylation as measured by induction of at least one phosphorylated form of the protein on MnCl2-phos-tag gels. Changes in [18F]FLT cellular retention reflected TK1 phosphorylation and not expression of total protein, in keeping with the impact of phosphorylation on enzyme catalytic activity. Both Ser13 and Ser231 were shown to be involved in the TK1 phosphorylation-modulated [18F]FLT cellular retention; although the data suggested involvement of other amino-acid residues.

CONCLUSION

We have defined a regulatory role of TK1 phosphorylation in mediating [18F]FLT cellular retention and hence reporting of antiproliferative activity, with implications especially for drugs that induce a G2/M cell cycle arrest.

摘要

背景

3'-脱氧-3'-[18F]-氟胸苷（[18F]FLT）正作为一种正电子发射断层扫描（PET）增殖生物标志物进行研究。细胞内[18F]FLT滞留的机制主要归因于严格转录调控的胸苷激酶1（TK1）S期表达的改变。然而，这并不能解释主要通过G2/M期阻滞发挥作用的抗癌药物如何影响[18F]FLT摄取。我们研究了[18F]FLT细胞滞留的其他机制，涉及有丝分裂期间TK1的翻译后修饰。

方法

在具有不同TK1表达的细胞系中评估[18F]FLT细胞滞留情况。通过MnCl2-磷标签凝胶电泳评估药物诱导的TK1蛋白磷酸化，并与[18F]FLT细胞滞留相关联。我们通过将编码野生型或突变型TK1变体的FLAG-pCMV2质粒瞬时转染到TK1阴性细胞中，进一步阐述了参与TK1磷酸化的氨基酸残基。

结果

基线[18F]FLT细胞滞留与TK1蛋白表达相关。S期和G2/M期阻滞导致结肠癌HCT116细胞中[18F]FLT细胞滞留减少两倍以上（p<0.001）。通过在MnCl2-磷标签凝胶上诱导至少一种磷酸化形式的蛋白来测量，G2/M期细胞周期阻滞增加了TK1磷酸化。[18F]FLT细胞滞留的变化反映了TK1磷酸化而非总蛋白表达，这与磷酸化对酶催化活性的影响一致。已证明Ser13和Ser231均参与TK1磷酸化调节的[18F]FLT细胞滞留；尽管数据表明其他氨基酸残基也有参与。

结论

我们确定了TK1磷酸化在介导[18F]FLT细胞滞留从而报告抗增殖活性方面的调节作用，这尤其对诱导G2/M期细胞周期阻滞的药物具有重要意义。

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抗增殖药物治疗后胸苷激酶1的磷酸化状态介导3'-脱氧-3'-[18F]-氟代胸苷的细胞内滞留。

Phosphorylation status of thymidine kinase 1 following antiproliferative drug treatment mediates 3'-deoxy-3'-[18F]-fluorothymidine cellular retention.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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