TET2 controls chemoresistant slow-cycling cancer cell survival and tumor recurrence
Isabel Puig, … , Josep Tabernero, Héctor G. Palmer
Isabel Puig, … , Josep Tabernero, Héctor G. Palmer
Published June 26, 2018
Citation Information: J Clin Invest. 2018;128(9):3887-3905. https://doi.org/10.1172/JCI96393.
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Research Article Oncology

TET2 controls chemoresistant slow-cycling cancer cell survival and tumor recurrence

Abstract

Dormant or slow-cycling tumor cells can form a residual chemoresistant reservoir responsible for relapse in patients, years after curative surgery and adjuvant therapy. We have adapted the pulse-chase expression of H2BeGFP for labeling and isolating slow-cycling cancer cells (SCCCs). SCCCs showed cancer initiation potential and enhanced chemoresistance. Cells at this slow-cycling status presented a distinctive nongenetic and cell-autonomous gene expression profile shared across different tumor types. We identified TET2 epigenetic enzyme as a key factor controlling SCCC numbers, survival, and tumor recurrence. 5-Hydroxymethylcytosine (5hmC), generated by TET2 enzymatic activity, labeled the SCCC genome in carcinomas and was a predictive biomarker of relapse and survival in cancer patients. We have shown the enhanced chemoresistance of SCCCs and revealed 5hmC as a biomarker for their clinical identification and TET2 as a potential drug target for SCCC elimination that could extend patients’ survival.

Authors

Isabel Puig, Stephan P. Tenbaum, Irene Chicote, Oriol Arqués, Jordi Martínez-Quintanilla, Estefania Cuesta-Borrás, Lorena Ramírez, Pilar Gonzalo, Atenea Soto, Susana Aguilar, Cristina Eguizabal, Ginevra Caratù, Aleix Prat, Guillem Argilés, Stefania Landolfi, Oriol Casanovas, Violeta Serra, Alberto Villanueva, Alicia G. Arroyo, Luigi Terracciano, Paolo Nuciforo, Joan Seoane, Juan A. Recio, Ana Vivancos, Rodrigo Dienstmann, Josep Tabernero, Héctor G. Palmer

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Figure 2

Slow cycling is a transient and reversible state.

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Slow cycling is a transient and reversible state. (A) H2BeGFP signal in ...
(A) H2BeGFP signal in subcutaneous xenograft tumors developed from colon cancer cells infected with H2BeGFP upon DOX (+ DOX) or after a DOX pulse-chase treatment (+/– DOX). (BD) Representative immunofluorescence picture of H2BeGFP (green) and proliferation (Ki67, red) in DOX pulse-chase subcutaneous tumor xenografts (Xe) from CRC-SW1222 (B), MEL-MMLN9 (C), and GBM-e216 (D) cancer models infected with H2BeGFP. (E) Quantification of Ki67-positive RCCCs (blue dots) and SCCCs (green dots) in the indicated subcutaneous xenografts (n = 8). Data are represented as mean ± SEM. ***P ≤ 0.001, 2-tailed Student’s t test. (F) FACS-isolated SCCCs and RCCCs from MTs were embedded back into Matrigel and treated with a second DOX pulse chase. SCCCs were evaluated by immunofluorescence against GFP. Representative pictures of MT formation from isolated SCCCs and RCCCs are shown. Phalloidin was used as counterstain. (BD and F) Arrowheads, SCCCs. Hoechst was used as counterstain. Scale bars: 100 μm.