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Metabolomics Profiles of Smokers from Two Ethnic Groups with Differing Lung Cancer Risk

Romel Dator, Peter W. Villalta, Nicole M. Thomson, J. Vernon Jensen, Dorothy K. Hatsukami, Irina Stepanov, Benedikt Warth, Silvia Balbo

2020Chemical Research in Toxicology21 citationsDOIOpen Access PDF

Abstract

= 30) smokers were used for metabolomics analysis acquired in both positive and negative electrospray ionization modes. LC-MS data were uploaded onto the cloud-based XCMS online (http://xcmsonline.scripps.edu) platform for retention time correction, alignment, feature detection, annotation, statistical analysis, data visualization, and automated systems biology pathway analysis. The latter identified global differences in the metabolic pathways in the two groups including the metabolism of carbohydrates, amino acids, nucleotides, fatty acids, and nicotine. Significant differences in the nicotine degradation pathway (cotinine glucuronidation) in the two groups were observed and confirmed using a targeted LC-MS/MS approach. These results are consistent with previous studies demonstrating AA smokers with lower glucuronidation capacity compared to whites. Furthermore, the d-glucuronate degradation pathway was found to be significantly different between the two populations, with lower amounts of the putative metabolites detected in AA compared to whites. We hypothesize that the differential regulation of the d-glucuronate degradation pathway is a consequence of the variations in the glucuronidation capacity observed in the two groups. Other pathways including the metabolism of amino acids, nucleic acids, and fatty acids were also identified, however, the biological relevance and implications of these differences across ethnic groups need further investigation. Overall, the applied metabolomics approach revealed global differences in the metabolic networks and endogenous metabolites in AA and whites, which could be used and validated as a new potential panel of biomarkers that could be used to predict lung cancer susceptibility among smokers in population-based studies.

Topics & Concepts

MetabolomicsCotinineNicotineLung cancerCarcinogenMetabolic pathwayGlucuronidationTobacco smokeChemistryMetabolismBioinformaticsBiologyBiochemistryMedicineInternal medicineMicrosomeEnzymePolymer chemistryMetabolomics and Mass Spectrometry StudiesAdvanced Chemical Sensor TechnologiesGenomics, phytochemicals, and oxidative stress