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University of New Mexico: Dataset Details, ID=doi.org/10.6073/pasta/285d897badb00c11104eb102d8b5

Superfund Research Program

UNM Metals Exposure and Toxicity Assessment on tribal Lands in the Southwest (METALS) Superfund Research Program

Center Director: Jose Manuel Cerrato
Grant Number: P42ES025589
Funding Period: 2017-2027
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Title: Co-exposure of arsenic and uranium differentially alters gene expression in CD3/CD28 activated CD4+ T-cells.

Accession Number: doi.org/10.6073/pasta/285d897badb00c11104eb102d8b5

Link to Dataset: https://doi.org/10.6073/pasta/d1f37c312b10bc225f600cbea28788dc

Repository: EDI Data Portal (Environmental Data Initiative)

Data Type(s): Gene Expression

Organism(s): Homo sapiens

Summary: Communities in the western region of the United States experience environmental exposure to metal mixtures from living in proximity to numerous unremediated abandoned uranium mines. Metals including arsenic and uranium co-occur in and around these sites at levels higher than the USEPA maximum contaminant levels (MCL). To address the potential effect of these metals on the activation of na ve CD4+ T-cells, we used RNA sequencing methods to determine the effect of exposure to arsenic, uranium or a mixture of arsenic and uranium. Arsenic induced a dose dependent effect on activation associated gene expression; targeting immune response genes at the lower dose. Increases in oxidative stress gene expression were observed at the with both arsenic doses. While uranium alone did not significantly alter activation associated gene expression, the mixture of uranium with arsenic demonstrated a combined effect relative to arsenic alone. The results demonstrate the need to investigate metal and metalloid mixtures at environmentally relevant concentrations to better understand the effect of these mixtures on T-cell activation, function and immune dysregulation.

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