Transcriptional control of a collagen deposition and adhesion process that promotes lung adenocarcinoma growth and metastasis
Xiaochao Tan, Priyam Banerjee, Xin Liu, Jiang Yu, Sieun Lee, Young-Ho Ahn, Chad J. Creighton, Jonathan M. Kurie
Xiaochao Tan, Priyam Banerjee, Xin Liu, Jiang Yu, Sieun Lee, Young-Ho Ahn, Chad J. Creighton, Jonathan M. Kurie
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Research Article Oncology

Transcriptional control of a collagen deposition and adhesion process that promotes lung adenocarcinoma growth and metastasis

Abstract

A fibrotic stroma accumulates in advanced cancers, and invasive cancer cells migrate along collagen fibers that facilitate dissemination from the primary tumor. However, the ways in which tumor cells govern these processes remain unclear. Here, we report that the epithelial-mesenchymal transition–activating transcription factor ZEB1 increased type I collagen (Col1) secretion and enhanced tumor cell adherence to Col1. Mechanistically, ZEB1 increased the levels of α1β1 integrin (encoded by Itga1 and Itgb1) by inhibiting PP2A activity, which reduced nuclear accumulation of HDAC4 and, thereby, derepressed Itga1 gene transcription. In parallel, ZEB1 relieved the miRNA-148a-mediated silencing of Itga1. High levels of Itga1 enhanced tumor cell adherence to Col1 and were essential for Col1-induced tumor growth and metastasis. Furthermore, ZEB1 enhanced Col1 secretion by increasing the expression of a kinesin protein that facilitated transport and secretion of Col1-containing vesicles. Our findings elucidate a transcriptional mechanism by which lung adenocarcinoma cells coordinate a collagen deposition and adhesion process that facilitates tumor progression.

Authors

Xiaochao Tan, Priyam Banerjee, Xin Liu, Jiang Yu, Sieun Lee, Young-Ho Ahn, Chad J. Creighton, Jonathan M. Kurie

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Figure 4

ZEB1 derepresses Itga1 transcription by regulating HDAC4 nuclear translocation.

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ZEB1 derepresses Itga1 transcription by regulating HDAC4 nuclear translo...
(A) Quantitative reverse transcription PCR analysis of Itga1 in 393P cells treated with 5-azacytidine-2′-deoxycytidine (5-Aza) or trichostatin A (TSA) alone or in combination. ***P < 0.001. (B and C) Quantitative reverse transcription PCR analysis of Itga1 in KP cells treated with or without TSA. E, epithelial cells; M, mesenchymal cells. **P < 0.01; ***P < 0.001. (D and E) Quantitative reverse transcription PCR analysis of Itga1 in 393P cells treated with indicated histone deacetylase (HDAC) inhibitors (D) or transfected with indicated siRNAs (E). **P < 0.002; ***P < 0.001. (F) Western blot analysis of HDAC4 (HD4), HDAC2 (HD2), CREB, and α-tubulin in indicated cell fractions. W, whole-cell lysate; C, cytoplasmic fraction; N, nuclear fraction. (G) Western blot analysis of phospho-HDAC4 (Ser246) (pHD4) and total HD4. (H) Confocal micrographs of Flag-tagged wild-type HD4 or mutant HD4 (S246/467/632A) (HD4SA) in 344SQ cells. Scale bar: 20 μm. (I) Western blot analysis of Itga1 and ectopic HD4 (FLAG) in 344SQ transfectants. (J) Luciferase reporter assay in 393P cells transfected with Itga1 promoter reporter (PItga1) and HD4SA expression vector or control vector (Vec). (K and L) PP2A activity in 393P_Vec and 393P_ZEB1 cells (K) and KP cell panel (L). (M) Quantitative reverse transcription PCR analysis of Itga1 in 393P cells treated with PP2A inhibitor LB-100 for 1 day. (N) Relative expression levels of PP2A subunits in 393P_Vec and 393P_ZEB1 cells quantified by RNA sequencing. *P < 0.05; **P < 0.01; ***P < 0.001. (O) Schema showing that ZEB1 depresses Itga1 expression by modulating HDAC4 nuclear accumulation through suppression of PP2A activity. Data are shown as the mean ± SEM from a single experiment incorporating biological replicate samples (n = 3, unless otherwise indicated) and are representative of at least 2 independent experiments. Two-tailed Student’s t test for 2-group comparisons; 1-way ANOVA test for multiple comparisons.