The influence of mtDNA deletion on lung cancer cells under the conditions of hypoxia and irradiation

This study was to evaluate the influence of mtDNA deletion on the lung cancer cells under the conditions of hypoxia or irradiation. The treatment conditions of lung cancer cell lines with (A549) and without mtDNA (ρ0A549: obtained by inducing from A549) included 2 h of hypoxia and 4 Gy irradiation (...

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Bibliographic Details
Published in:Lung 2014-12, Vol.192 (6), p.997
Main Authors: Han, Cheng-Bo, Sun, Li, Ma, Jie-Tao, Li, Yao-Yong, Zhang, Shu-Ling, Bai, Dong-Mei, Zhou, Yang, Huang, Le-Tian
Format: Article
Language:English
Subjects:
Adaptor Proteins, Signal Transducing - genetics
Care and treatment
Case-Control Studies
Cell Death - genetics
Cell Line, Tumor - radiation effects
Cellular biology
Complications and side effects
Development and progression
DNA, Mitochondrial - genetics
Down-Regulation
Gene Deletion
Gene expression
Gene Expression Regulation, Neoplastic
Gene mutation
Genetic aspects
Humans
Hypoxia
Lung cancer
Lung Neoplasms - genetics
Lung Neoplasms - physiopathology
Microarray Analysis
Mitochondrial DNA
Physiological aspects
Radiation
Radiation Dosage
Radiation, Ionizing
Reference Values
Risk factors
Sensitivity and Specificity
Ubiquitin-Protein Ligases - genetics
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Summary:This study was to evaluate the influence of mtDNA deletion on the lung cancer cells under the conditions of hypoxia or irradiation. The treatment conditions of lung cancer cell lines with (A549) and without mtDNA (ρ0A549: obtained by inducing from A549) included 2 h of hypoxia and 4 Gy irradiation (group 1: without treatment; group 2: 2 h of hypoxia; group 3: 4 Gy irradiation; group 4: 2 h of hypoxia plus 4 Gy irradiation). The Human OneArray™ microarray was used to hybridize with the Cy5-labeled aRNA in microarray sample preparation. Differentially expressed genes (DEGs) between the lung cancer cells with and without mtDNA were identified using NOISeq package in R. Gene ontology and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses were performed using the online tool of DAVID. In the KEGG pathway analysis of down-regulated DEGs, nineteen pathways were simultaneously enriched in the four groups, which were mainly metabolism- and biosynthesis-related pathways. Nine lung cancer-related pathways were enriched in group 4, and more cancer-associated DEGs, such as MYC, MAX, and E2F1 were found in group 4 than in the other groups. The mtDNA deletion could inhibit the biosynthesis and metabolism of lung cancer cells and promote the effect of hypoxia and radiation on lung cancer cells. MYC might be the key gene of the cooperation of hypoxia and radiation and MYC, MAX, and E2F1 might play roles in hypoxia- and radiation-induced cell death in lung cancer cells without mtDNA.
ISSN:0341-2040
1432-1750
DOI:10.1007/s00408-014-9639-9