Abstract 3891: Chemoresistant cancer stem cells undergo gene changes that drive tumor recurrence

Despite the efficacy of chemotherapy, resistant cells are thought to contribute to tumor recurrence. In vitro models of recurrence must mimic the complexity and heterogeneity of in vivo tumors and provide the longevity needed to capture tumor dormancy following chemotherapy. We have previously descr...

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Bibliographic Details
Published in:Cancer research (Chicago, Ill.) Ill.), 2017-07, Vol.77 (13_Supplement), p.3891-3891
Main Authors: Martis, Prithy C., Dudley, Atira, Laramore, Melissa A., Gazda, Hunter L., Markey, Michael P., Smith, Barry H., Gazda, Lawrence S.
Format: Article
Language:English
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Summary:Despite the efficacy of chemotherapy, resistant cells are thought to contribute to tumor recurrence. In vitro models of recurrence must mimic the complexity and heterogeneity of in vivo tumors and provide the longevity needed to capture tumor dormancy following chemotherapy. We have previously described a 3D in vitro model that simulates in vivo tumors containing cancer stem cell niches. Encapsulation of murine renal adenocarcinoma (RENCA) cells in a double layer of agarose that form spherical macrobeads allows for the development of 3D tumor colonies comprised of tumor-initiating and tumor-amplifying cells within the inner agarose matrix. In the current study, we used the RENCA macrobead in combination with chemotherapy to evaluate genetic regulation that allows tumor dormancy and drives recurrence. RENCA macrobeads treated with docetaxel (5 μg/ml) undergo a significant loss of cell mass and a period of latency followed by tumor recurrence. RNA isolated from docetaxel-resistant cells (Wk.6 post-treatment), recurrent tumors (Wk.20 post-treatment) and paired vehicle controls were characterized using whole-transcriptome profiling (GeneChip® WT Pico Kit with Transciptome Analysis Console; Affymetrix). At Wk.6 post-treatment, genes associated with a stem cell phenotype (Car12, Arrb1, Nos2, Aldh1l2) and members of the ABC1 family associated with multidrug resistance were enriched in docetaxel-resistant cells. Genes regulating the canonical Wnt signaling pathway, specifically LRP family members, were significantly up regulated. Pathway analysis revealed dysregulated focal adhesion-PI3K-Akt-mTor-signaling, including genes modulating integrin adhesion (Itga5, Itga7), ECM receptor interaction (Lama5, Lamb2, Lamc1) and actin cytoskeletal remodeling (Vcl). Supporting the quiescent nature of the docetaxel-resistant population, genes implicated in DNA replication (Dbf4, Cdc6, Mcm5), transcriptional initiation (Taf13, Gtf2h1, Polr2i) and tumor progression (Mmp3, Mmp13) were significantly down regulated. At Wk.20 post-treatment, up regulation of matrix metalloproteinases (Mmp13) and partial retention of stem cell (Nos2, Car12) and drug resistant (Abcb1) genes supports the evolution of regenerated tumors to a metastatic phenotype. Genes involved in fatty acid β-oxidation (Acsl5, Lipf), oxidative phosphorylation (ND3, ND6) and the electron transport chain (COX2) were down regulated in concert with up regulation of Me2 suggesting reduced flux through the TCA cycle and use o
ISSN:0008-5472
1538-7445
DOI:10.1158/1538-7445.AM2017-3891