Micronucleus (MN) frequency in nasal respiratory epithelium cells from young adults living in urban areas with different levels of air pollution
- UNAM, Merida (Mexico); and others
Air pollution in the valley of Mexico is a risk to human health due to the high levels of ozone, acidic sulfates, nitrogen oxides, heavy metals and polycyclic aromatic hydrocarbons present. Epidemiologic studies have found an increase incidence of adverse respiratory symptoms among the residents of Mexico City. Histopathologic changes and DNA strand breaks have been observed in the nasal cells of residents of an area with high ozone levels. Since the nasal respiratory epithelium is directly exposed to air pollution we decided to investigate the frequency of MN in this tissue, in a group of 60 young adults (20-25 years old) that live in Mexico City and to compare it with the frequency of MN observed in a similar group of 60 individuals living in Merida, an urban area of the Yucatan peninsula, with lower air pollution. Volunteers completed questionnaires to give information about their health status, smoking habits and previous exposure to confounding factors such as radiation. Nasal cells were obtained by gently scraping the inner turbinate. The cells were smeared on previously coded glass slides, fixed and then stained with Feulgen`s method. 6000 cells were scored for each individual. Results from the analysis of twenty nasal cell samples from Mexico City residents and thirteen samples from Merida residents do not show significant differences in MN prevalence, although Mexico City showed in average a 50% increase in the frequency of MN. The presence of MN was not associated to smoking in either group. Condensed, karyorrhetic and karyolitic nuclei predominated (p<0.05) among the cell samples from Mexico City residents. These changes occur as an response to cellular injury in normal nonkeratinizing epithelium or can be observed in cell undergoing necrosis following injury by agents that cause perturbation of the cellular environment. These preliminary results showed clear cytotoxic effects in the nasal respiratory epithelium of Mexico City residents.
- Sponsoring Organization:
- USDOE
- OSTI ID:
- 530838
- Report Number(s):
- CONF-9704100-; ISSN 0893-6692; TRN: 97:003016-0011
- Journal Information:
- Environmental and Molecular Mutagenesis, Vol. 29, Issue Suppl.28; Conference: 28. annual meeting of the Environmental Mutagen Society, Minneapolis, MN (United States), 19-23 Apr 1997; Other Information: PBD: 1997
- Country of Publication:
- United States
- Language:
- English
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