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Abstract
Welding generates and releases fumes that are hazardous to human health. Welding fumes (WFs) are a complex mix of metallic oxides, fluorides and silicates that can cause or exacerbate health problems in exposed individuals. In particular, WF inhalation over an extended period carries an increased risk of cancer, but how WFs may influence cancer behaviour or growth is unclear. To address this issue we employed a quantitative analytical framework to identify the gene expression effects of WFs that may affect the subsequent behaviour of the cancers. We examined datasets of transcript analyses made using microarray studies of WF-exposed tissues and of cancers, including datasets from colorectal cancer (CC), prostate cancer (PC), lung cancer (LC) and gastric cancer (GC). We constructed gene-disease association networks, identified signaling and ontological pathways, clustered protein-protein interaction network using multilayer network topology, and analyzed survival function of the significant genes using Cox proportional hazards (Cox PH) model and product-limit (PL) estimator. We observed that WF exposure causes altered expression of many genes (36, 13, 25 and 17 respectively) whose expression are also altered in CC, PC, LC and GC. Gene-disease association networks, signaling and ontological pathways, protein-protein interaction network, and survival functions of the significant genes suggest ways that WFs may influence the progression of CC, PC, LC and GC. This quantitative analytical framework has identified potentially novel mechanisms by which tissue WF exposure may lead to gene expression changes in tissue gene expression that affect cancer behaviour and, thus, cancer progression, growth or establishment.
Highlights
Laboratory, School of Materials Science and Engineering, Gwangju Institute of Science and Technology, 261 Cheomdan-gwagiro, Buk-gu, Gwangju, 500-712, Republic of Korea. 5Computer Laboratory, Department of Computer Science and Technology, University of Cambridge, 15 JJ Thomson Avenue, Cambridge, CB3 0FD, UK. 6Discipline of Welders inhaling Welding fumes (WFs) in large quantities over a long period run a significantly elevated risk of developing certain types of cancer[1,2]
Environmental factors include inhaled toxic fumes that affect the lungs and enter the circulation to reach many tissues, and which can affect cellular gene expression of cancer cells and thereby their behaviour, survival, growth and invasiveness. Influences such as WF inhalation affects the progression of many types of cancers, including those focused on in this study, CC, Prostate Cancer (PC), Lung cancer (LC) and Gastric Cancer (GC), which are among the cancers most commonly linked with WF exposure[5,6,7]
To identify and investigate the gene expression effects of WFs that may influence the behaviour of various types of cancer, we analyzed the gene expression microarray data collected from the National Center for Biotechnology Information (NCBI)
Summary
These metastatic diseases involve uncontrolled or neoplastic growth of cancer cells that arise after the accumulation of genomic mutations, but other factors with powerful effects on cancer behaviour and growth include genetic factors and environmental factors the suffer is exposed to[4]. Environmental factors include inhaled toxic fumes that affect the lungs and enter the circulation to reach many tissues, and which can affect cellular gene expression of cancer cells and thereby their behaviour, survival, growth and invasiveness Influences such as WF inhalation affects the progression of many types of cancers, including those focused on in this study, CC, PC, LC and GC, which are among the cancers most commonly linked with WF exposure[5,6,7]. The influence on cancer patient survival of these identified genes provides evidence for their involvement in WF effect on cancer progression
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