4.6 Article

Telomerase and Pluripotency Factors Jointly Regulate Stemness in Pancreatic Cancer Stem Cells

Journal

CANCERS
Volume 13, Issue 13, Pages -

Publisher

MDPI
DOI: 10.3390/cancers13133145

Keywords

cancer stem cells; telomerase; telomere length; self-renewal; stemness; pancreatic cancer

Categories

Funding

  1. Max Eder Fellowship of the German Cancer Aid [111746]
  2. German Cancer Aid Priority Program `Translational Oncology' [70112505]
  3. Collaborative Research Centre grant of the German Research Foundation [316249678-SFB 1279]
  4. Hector Foundation Cancer Research grant [M65.1]
  5. Ministerio de Economia y Competitividad, Spain [RYC-2012-12104]
  6. Fundacion Asociacion Espanola Contra el Cancer (AECC) [GC16173694BARB]
  7. Baustein 3.2 by Ulm University

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This study demonstrates the critical role of telomerase regulation in maintaining stemness in pancreatic CSCs and examines the effects of telomerase inhibition as a potential treatment option for pancreatic cancer. This may significantly enhance our understanding of PDAC tumor biology and potentially lead to improved treatment for pancreatic cancer patients.
Simple Summary Pancreatic ductal adenocarcinoma (PDAC) is an extremely lethal cancer with very limited therapeutic options. Cancer stem cells (CSCs) are essential for propagation of PDAC, but also for its metastatic activity and chemoresistance. To date, it is still unclear how cancer stem cells (CSCs) regulate their 'stemness' and self-renewal properties, and to what extent they share common features with normal stem cells. Telomerase regulation is a key factor in stem cell maintenance. Here, we investigate how telomerase regulation affects CSC biology in PDAC, and delineate the mechanisms by which telomerase activity and CSC properties are linked. To assess the role of telomerase activity and telomere length in pancreatic CSCs we used different CSC enrichment methods (CD133, ALDH, sphere formation) in primary patient-derived pancreatic cancer cells. We show that CSCs have higher telomerase activity and longer telomeres than bulk tumor cells. Inhibition of telomerase activity, using genetic knockdown or pharmacological inhibitor (BIBR1532), resulted in CSC marker depletion, abrogation of sphere formation in vitro and reduced tumorigenicity in vivo. Furthermore, we identify a positive feedback loop between stemness factors (NANOG, OCT3/4, SOX2, KLF4) and telomerase, which is essential for the self-renewal of CSCs. Disruption of the balance between telomerase activity and stemness factors eliminates CSCs via induction of DNA damage and apoptosis in primary patient-derived pancreatic cancer samples, opening future perspectives to avoid CSC-driven tumor relapse. In the present study, we demonstrate that telomerase regulation is critical for the stemness maintenance in pancreatic CSCs and examine the effects of telomerase inhibition as a potential treatment option of pancreatic cancer. This may significantly promote our understanding of PDAC tumor biology and may result in improved treatment for pancreatic cancer patients.

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