Nitric oxide and superoxide anion production in monocytes from children exposed to arsenic and lead in region Lagunera, Mexico |
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Authors: | Pineda-Zavaleta Ana Patricia García-Vargas Gonzalo Borja-Aburto Victor H Acosta-Saavedra Leonor C Vera Aguilar Eunice Gómez-Muñoz Arístides Cebrián Mariano E Calderón-Aranda Emma S |
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Affiliation: | Sección Externa de Toxicología, Centro de Investigación y de Estudios Avanzados, I.P.N. Av. Instituto Politécnico Nacional 2508, Col. San Pedro Zacatenco, México, D.F. 07360, Mexico. |
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Abstract: | We evaluated in Mexican children environmentally exposed to arsenic and lead monocyte nitric oxide (NO) and superoxide anion production in response to direct activation with interferon-gamma (IFN-gamma) + lipopolysaccharide (LPS). The integrity of Th1-regulated cellular immune response when monocytes were indirectly activated was also evaluated. Most children lived near a primary lead smelter. Lead and arsenic contamination in soil and dust by far exceeded background levels. As levels in water were between 10 and 30 ppb. Most children (93%) had urinary arsenic (AsU) concentrations above 50 microg/l (range 16.75-465.75) and 65% had lead blood levels (PbB) above 10 microg/dl (range 3.47-49.19). Multivariate analyses showed that NO production in monocytes activated indirectly was negatively associated with both PbB and AsU. Superoxide production in directly activated monocytes was negatively associated with AsU but positively associated with PbB. The models including the interaction term for AsU and PbB suggested the possibility of a negative interaction for NO production and a positive interaction for superoxide. There were indications of differential gender-based associations, NO production in indirectly activated monocytes obtained from girls was negatively associated with AsU but not with PbB. Superoxide production was positively associated with PbB in both directly and indirectly activated monocytes from boys but the latter was negatively associated with AsU. These effects are consistent with immune system abnormalities observed in human populations exposed to Pb or As. Further studies in larger populations are required to characterize As and Pb interactions and the mechanism(s) underlying the observed effects. |
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Keywords: | Lead Arsenic Immunotoxicity Superoxide Nitric oxide Children |
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