Cigarette smoke mediates epigenetic repression of miR-487b during pulmonary carcinogenesis
Sichuan Xi, … , Leandro Mercedes, David S. Schrump
Sichuan Xi, … , Leandro Mercedes, David S. Schrump
Published February 15, 2013
Citation Information: J Clin Invest. 2013;123(3):1241-1261. https://doi.org/10.1172/JCI61271.
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Cigarette smoke mediates epigenetic repression of miR-487b during pulmonary carcinogenesis

Abstract

MicroRNAs are critical mediators of stem cell pluripotency, differentiation, and malignancy. Limited information exists regarding microRNA alterations that facilitate initiation and progression of human lung cancers. In this study, array techniques were used to evaluate microRNA expression in normal human respiratory epithelia and lung cancer cells cultured in the presence or absence of cigarette smoke condensate (CSC). Under relevant exposure conditions, CSC significantly repressed miR-487b. Subsequent experiments demonstrated that miR-487b directly targeted SUZ12, BMI1, WNT5A, MYC, and KRAS. Repression of miR-487b correlated with overexpression of these targets in primary lung cancers and coincided with DNA methylation, de novo nucleosome occupancy, and decreased H2AZ and TCF1 levels within the miR-487b genomic locus. Deoxy-azacytidine derepressed miR-487b and attenuated CSC-mediated silencing of miR-487b. Constitutive expression of miR-487b abrogated Wnt signaling, inhibited in vitro proliferation and invasion of lung cancer cells mediated by CSC or overexpression of miR-487b targets, and decreased growth and metastatic potential of lung cancer cells in vivo. Collectively, these findings indicate that miR-487b is a tumor suppressor microRNA silenced by epigenetic mechanisms during tobacco-induced pulmonary carcinogenesis and suggest that DNA demethylating agents may be useful for activating miR-487b for lung cancer therapy.

Authors

Sichuan Xi, Hong Xu, Jigui Shan, Yongguang Tao, Julie A. Hong, Suzanne Inchauste, Mary Zhang, Tricia F. Kunst, Leandro Mercedes, David S. Schrump

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Figure 9

Epigenetic alterations coinciding with CSC-mediated repression of miR-487b.

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Epigenetic alterations coinciding with CSC-mediated repression of miR-48...
(A) Schematic depiction demonstrating higher CpG density 5 kb up- and downstream of the miR-487b genomic locus ( http://www.urogene.org/methprimer/). (B) qRT-PCR analysis demonstrating that DAC significantly increases expression of primary miR-487b and attenuates CSC-mediated repression of miR-487b in SAECs, HBECs, Calu-6, H841, and H358 cells. **P < 0.01. (C) Bisulfite sequencing of 4 genomic regions around the miR-487b genomic locus, demonstrating that CSC enhances DNA methylation in SAECs. CSC did not alter CpG methylation around miR-487b genomic locus in Calu-6 cells exhibiting higher pretreatment DNA methylation within these genomic sites. (D) MeDIP analysis of DNA methylation profiles within the miR-487b genomic locus in SAECs and Calu-6 cells treated with DAC or CSC. DAC significantly decreased methylation near miR-487b in SAECs and Calu-6 cells and partially abrogated CSC-mediated CpG methylation in these cells. (E) MeDIP analysis of DNA methylation profiles within the miR-487b genomic locus in human lung cancers relative to paired adjacent normal lung tissues. CpG methylation levels near miR-487b were higher in tumors relative to corresponding adjacent normal lung tissues. Furthermore, methylation levels in these regions appeared higher in lung cancers from active/former smokers compared with those from never smokers.