Intratumor heterogeneity and cell secretome promote chemotherapy resistance and progression of colorectal cancer

Julia Källberg, Alexandra Harrison, Valerie March, Santa Bērziņa, Ivan Nemazanyy, Oliver Kepp, Guido Kroemer, Sophie Mouillet-Richard, Pierre Laurent-Puig, Valérie Taly, Wenjin Xiao

    Résultats de recherche: Contribution à un journalArticleRevue par des pairs

    6 Citations (Scopus)

    Résumé

    The major underlying cause for the high mortality rate in colorectal cancer (CRC) relies on its drug resistance, to which intratumor heterogeneity (ITH) contributes substantially. CRC tumors have been reported to comprise heterogeneous populations of cancer cells that can be grouped into 4 consensus molecular subtypes (CMS). However, the impact of inter-cellular interaction between these cellular states on the emergence of drug resistance and CRC progression remains elusive. Here, we explored the interaction between cell lines belonging to the CMS1 (HCT116 and LoVo) and the CMS4 (SW620 and MDST8) in a 3D coculture model, mimicking the ITH of CRC. The spatial distribution of each cell population showed that CMS1 cells had a preference to grow in the center of cocultured spheroids, while CMS4 cells localized at the periphery, in line with observations in tumors from CRC patients. Cocultures of CMS1 and CMS4 cells did not alter cell growth, but significantly sustained the survival of both CMS1 and CMS4 cells in response to the front-line chemotherapeutic agent 5-fluorouracil (5-FU). Mechanistically, the secretome of CMS1 cells exhibited a remarkable protective effect for CMS4 cells against 5-FU treatment, while promoting cellular invasion. Secreted metabolites may be responsible for these effects, as demonstrated by the existence of 5-FU induced metabolomic shifts, as well as by the experimental transfer of the metabolome between CMS1 and CMS4 cells. Overall, our results suggest that the interplay between CMS1 and CMS4 cells stimulates CRC progression and reduces the efficacy of chemotherapy.

    langue originaleAnglais
    Numéro d'article306
    journalCell Death and Disease
    Volume14
    Numéro de publication5
    Les DOIs
    étatPublié - 1 mai 2023

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