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. 2022 Sep;3(9):1052-1070.
doi: 10.1038/s43018-022-00402-0. Epub 2022 Jun 30.

Mex3a marks drug-tolerant persister colorectal cancer cells that mediate relapse after chemotherapy

Adrián Álvarez-Varela  1   2 Laura Novellasdemunt  1 Francisco M Barriga  1   3 Xavier Hernando-Momblona  1   2 Adrià Cañellas-Socias  1   2 Sara Cano-Crespo  1 Marta Sevillano  1   2 Carme Cortina  1   2 Diana Stork  1 Clara Morral  1 Gemma Turon  1 Felipe Slebe  1 Laura Jiménez-Gracia  4 Ginevra Caratù  4 Peter Jung  5   6 Giorgio Stassi  7 Holger Heyn  4   8 Daniele V F Tauriello  1   9 Lidia Mateo  1 Sabine Tejpar  10 Elena Sancho  1   2 Camille Stephan-Otto Attolini  1 Eduard Batlle  11   12   13
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Free article

Mex3a marks drug-tolerant persister colorectal cancer cells that mediate relapse after chemotherapy

Adrián Álvarez-Varela et al. Nat Cancer. 2022 Sep.
Free article

Abstract

Colorectal cancer (CRC) patient-derived organoids predict responses to chemotherapy. Here we used them to investigate relapse after treatment. Patient-derived organoids expand from highly proliferative LGR5+ tumor cells; however, we discovered that lack of optimal growth conditions specifies a latent LGR5+ cell state. This cell population expressed the gene MEX3A, is chemoresistant and regenerated the organoid culture after treatment. In CRC mouse models, Mex3a+ cells contributed marginally to metastatic outgrowth; however, after chemotherapy, Mex3a+ cells produced large cell clones that regenerated the disease. Lineage-tracing analysis showed that persister Mex3a+ cells downregulate the WNT/stem cell gene program immediately after chemotherapy and adopt a transient state reminiscent to that of YAP+ fetal intestinal progenitors. In contrast, Mex3a-deficient cells differentiated toward a goblet cell-like phenotype and were unable to resist chemotherapy. Our findings reveal that adaptation of cancer stem cells to suboptimal niche environments protects them from chemotherapy and identify a candidate cell of origin of relapse after treatment in CRC.

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