Thymidylate synthase accelerates Men1-mediated pancreatic tumor progression and reduces survival
Vinod Vijayakurup, Kyungah Maeng, Hye Seung Lee, Benjamin Meyer, Sandra Burkett, Akbar Nawab, Michael W. Dougherty, Christian Jobin, Iqbal Mahmud, Timothy J. Garrett, Michael Feely, Kyoung Bun Lee, Frederic J. Kaye, Maria V. Guijarro, Maria Zajac-Kaye
Vinod Vijayakurup, Kyungah Maeng, Hye Seung Lee, Benjamin Meyer, Sandra Burkett, Akbar Nawab, Michael W. Dougherty, Christian Jobin, Iqbal Mahmud, Timothy J. Garrett, Michael Feely, Kyoung Bun Lee, Frederic J. Kaye, Maria V. Guijarro, Maria Zajac-Kaye
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Research Article Oncology

Thymidylate synthase accelerates Men1-mediated pancreatic tumor progression and reduces survival

Abstract

Clinical studies of cancer patients have shown that overexpression or amplification of thymidylate synthase (TS) correlates with a worse clinical outcome. We previously showed that elevated TS exhibits properties of an oncogene and promotes pancreatic neuroendocrine tumors (PanNETs) with a long latency. To study the causal impact of elevated TS levels in PanNETs, we generated a mouse model with elevated human TS (hTS) and conditional inactivation of the Men1 gene in pancreatic islet cells (hTS/Men1–/–). We demonstrated that increased hTS expression was associated with earlier tumor onset and accelerated PanNET development in comparison with control Men1–/– and Men1+/ΔN3-8 mice. We also observed a decrease in overall survival of hTS/Men1+/– and hTS/Men1–/– mice as compared with control mice. We showed that elevated hTS in Men1-deleted tumor cells enhanced cell proliferation, deregulated cell cycle kinetics, and was associated with a higher frequency of somatic mutations, DNA damage, and genomic instability. In addition, we analyzed the survival of 88 patients with PanNETs and observed that high TS protein expression independently predicted worse clinical outcomes. In summary, elevated hTS directly participates in promoting PanNET tumorigenesis with reduced survival in Men1-mutant background. This work will refocus attention on new strategies to inhibit TS activity for PanNET treatment.

Authors

Vinod Vijayakurup, Kyungah Maeng, Hye Seung Lee, Benjamin Meyer, Sandra Burkett, Akbar Nawab, Michael W. Dougherty, Christian Jobin, Iqbal Mahmud, Timothy J. Garrett, Michael Feely, Kyoung Bun Lee, Frederic J. Kaye, Maria V. Guijarro, Maria Zajac-Kaye

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Figure 1

Overexpression of hTS shortens the survival of Men1–/– and Men1+/– mice.

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Overexpression of hTS shortens the survival of Men1–/– and Men1+/– mice....
(A) Schematic representation of breeding strategy to generate hTS/Men1–/– and hTS/Men1+/– mouse models. Location of forward (F) and reverse (R) primers for the detection of hTS transgene, RIP2-Cre gene, and identification of lox insert in Men1 gene are shown with arrows. (B) Representative picture of PCR analysis of DNA from mouse tail showing heterozygous status of Men1 gene in Men1+/– versus hTS/Men1+/– mice (425 and 367 bp bands), hTS (406 bp band), and Cre (445 bp band). (C) Immunoblot analysis of hTS (37 kDa) in pancreatic tissues isolated from hTS/Men1–/–, hTS/Men1+/–, and Men1–/– mice. Tubulin was used as loading control. (D) Kaplan-Meier analysis of overall survival in homozygous Men1–/– versus hTS/Men1–/– mice (P < 0.001). (E) Kaplan-Meier survival plot for Men1–/– versus hTS/Men1–/– mice that exclusively developed PanNETs (P < 0.001). (F) Kaplan-Meier survival plot for male Men1–/– versus hTS/Men1–/– mice (P < 0.0001) and female Men1–/– versus hTS/Men1–/– mice (P = 0.037). (G) Kaplan-Meier analysis of overall survival in heterozygous Men1+/– versus hTS/Men1+/– mice (P = 0.017). (H) Kaplan-Meier survival plot for male Men1+/– versus hTS/Men1+/– mice (P = 0.003) and female Men1+/– versus hTS/Men1+/– mice (P = 0.064). (I) Median survival of mice based on sex and genotype from D and FH.