The Association of Renal Function and Plasma Metals Modified by EGFR and TNF-α Gene Polymorphisms in Metal Industrial Workers and General Population.

Exposure to metals may be associated with renal function impairment, but the effect modified by genetic polymorphisms was not considered in most studies. Epidermal growth factor receptor (EGFR) and tumor necrotic factor-α (TNF-α) play important roles in renal hemodynamics, and they have been reported to be associated with some renal diseases. The aim of our research is to explore whether genetic variations in EGFR and TNF-α have influence on renal function under exposure to various metals. This cross-sectional study consisted of 376 metal industrial workers, 396 participants of Taiwan Biobank, and 231 volunteers of health examinations. We identified 23 single nucleotide polymorphisms (SNPs) on the EGFR gene and 6 SNPs on the TNF-α gene, and we also measured their plasma concentration of cobalt, copper, zinc, selenium, arsenic, and lead. Multiple regression analysis was applied to investigate the association between various SNPs, metals, and renal function. Our results revealed some protective and susceptible genotypes under occupational or environmental exposure to metals. The individuals carrying EGFR rs2280653 GG might have declined renal function under excessive exposure to selenium, and those with EGFR rs3823585 CC, rs12671550 CC, and rs4947986 GG genotypes might be susceptible to lead nephrotoxicity. We suggest the high-risk population to prevent renal diseases.

The Relationship between Metabolic Syndrome and Plasma Metals Modified by EGFR and TNF-α Gene Polymorphisms.

With the escalating global prevalence of metabolic syndrome (MetS), it is crucial to detect the high-risk population early and to prevent chronic diseases. Exposure to various metals has been indicated to promote MetS, but the findings were controversial, and the effect of genetic modification was not considered. Epidermal growth factor receptor (EGFR) was proposed to be involved in the pathway of metabolic disorders, and tumor necrotic factor-α (TNF-α) was regarded as an early inflammatory biomarker for MetS. This research aimed to analyze the impact of EGFR and TNF-α gene polymorphisms on the prevalence of MetS under environmental or occupational exposure to metals. We gathered data from 376 metal industrial workers and 639 non-metal workers, including physical parameters, biochemical data, and plasma concentrations of six metals. According to the genomic database of Taiwan Biobank, 23 single nucleotide polymorphisms (SNPs) on EGFR gene and 6 SNPs on TNF-α gene were incorporated in our research. We applied multivariable logistic regression to analyze the probability of MetS with various SNPs and metals. Our study revealed some susceptible and protective EGFR and TNF-α genotypes under excessive exposure to cobalt, zinc, selenium, and lead. Thus, we remind the high-risk population of taking measures to prevent MetS.

The Association of Serum TNF-α Levels and Blood Multi-Elements Modified by TNF-α Gene Polymorphisms in Metal Industrial Workers.

Health of the metal industrial workers should be a noteworthy issue due to the hazard ofchronic exposure to metals or toxic elements. The interactions among multiple elements aresophisticated and may differ from person to person. Tumor necrosis factor-α (TNF-α) genepolymorphisms were supposed to be involved with the interactions because TNF-α plays animportant role in inflammation, a mechanism by which toxic elements cause threats to humanhealth. This research aimed to analyze the influence of TNF-αgene polymorphisms and multielementson serum TNF-α level. Blood multi-elements concentrations (lead, cadmium, arsenic,selenium, cobalt, copper, and zinc), serum TNF-α level, and TNF-α single nucleotidepolymorphisms (SNPs), including -238G > A (rs361525), -308G > A (rs1800629), -857C > T(rs1799724), -863C > A (rs1800630), and -1031T > C (rs1799964), were measured in 462 metalindustrial workers. We applied mixed-effect models to analyze the interactions among multielementsand TNF-α SNPs. Blood concentration of all elements were positively associated withserum TNF-α level, and the effects may be modified by TNF-α gene polymorphisms. Our studyrevealed that TNF-α -308A/A and -1031C/C may be susceptible genotypes, and thus we suggestthat those workers should take preventive measures against metal toxicity.