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DNA damage and repair assessed by comet assay in workers exposed to lead in a battery recycling.

Mahara Valverde1*, María Maldonado2, Efraín Tovar3 and Emilio Rojas1*
  • 1 Universidad Nacional Autónoma de México, Medicina Genómica y Toxicología Ambiental, Mexico
  • 2 Hospital de Alta Especialización del Bajío, Mexico
  • 3 Universidad Autónoma del Estado de Morelos, Mexico

Occupational exposure to xenobiotic mixtures is an actual concern to public health effects. The automobile battery recycling industry, contribute to lead and cadmium exposure as a mixture for worker in several countries (Palus et al., 2005). In the last decade, the use of comet assay in human biomonitoring has been a successful tool (Valverde and Rojas, 2009), that we apply for this three year follow-up biomonitoring study in a group of recycling battery workers in Guanajuato, Mexico (n=85) in terms of determine early biomarkers. Exposure and effect biomarkers of molecular epidemiology were determined, lead whole blood levels and ALA-D activity as exposure biomarkers meanwhile, DNA damage, DNA repair, and oxidative stress as effect biomarkers. Our results indicate that battery-recycling workers are exposed to high levels of lead in whole blood (56.95 ± 2.7 g/dL), almost five times higher to the permissive level (10 g/dL). Also, inhibition of ALA-D enzyme activity (164 ± 0.04 nmoles/h/ml) was significant, with respect to control group (704.23 ± 8.3 nmolas/h/ml). At respect to effect biomarkers, we determine high levels of oxidative stress analyzed by TBARS technique (1.31 MDA nmolas/ml) with respect to the control group (1.05 MDA nmolas/ml). The basal DNA damage found in the exposed group was about 47% higher than control group, meanwhile their DNA repair activity decreased in about 28% relative to control group. These findings may suggest that lead exposure into the battery recycling environment is a fact that exceeds the permissive lead exposure levels, reflected also in the inhibition of an important enzyme involved in hemo biosynthesis, ALA-D. The mechanism of toxicity involves generation of oxidative stress that affects lipids and DNA. DNA damage determined as single strand breaks, is not repaired efficiently, indicating low base excision repair capacity that may have a variety of health effects. In addition to these findings, DNA damage determined by comet assay was sensible to reflect lead exposure levels related to specific activities inside this factory. Human biomonitoring studies through comet assay could be robust when additional biomarkers are determined at time.

Acknowledgements

PROTEGE, IIB-Program

References

Palus J, Lewinska D, Dziubaltowska E, Stepnik M, Beck J, Rydzynski K, Nilsson R. (2005) DNA damage in leukocytes of workers occupationally exposed to arsenic in copper smelters. Environ Mol. Mutagen 46(2): 81-87.

Valverde M and Rojas E (2009) Environmental and occupational biomonitoring using the comet assay, Mutation Research 681:93-109.

Keywords: lead exposure, DNA damage and repair, human biomonitoring, Comet Assay, MDA

Conference: ICAW 2015 - 11th International Comet Assay Workshop, Antwerpen, Belgium, 1 Sep - 4 Sep, 2015.

Presentation Type: Poster Discussion

Topic: Environmental exposure and Biomonitoring

Citation: Valverde M, Maldonado M, Tovar E and Rojas E (2015). DNA damage and repair assessed by comet assay in workers exposed to lead in a battery recycling.. Front. Genet. Conference Abstract: ICAW 2015 - 11th International Comet Assay Workshop. doi: 10.3389/conf.fgene.2015.01.00045

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Received: 05 May 2015; Published Online: 23 Jun 2015.

* Correspondence:
Dr. Mahara Valverde, Universidad Nacional Autónoma de México, Medicina Genómica y Toxicología Ambiental, México, D.F., 04510, Mexico, mahara@biomedicas.unam.mx
Dr. Emilio Rojas, Universidad Nacional Autónoma de México, Medicina Genómica y Toxicología Ambiental, México, D.F., 04510, Mexico, emilior@biomedicas.unam.mx