Genotoxic Effect of Air Pollution in Different Areas of Budapest, Hungary

J. Major, M. G. Jakab, and A. Tompa

Department of Human Genotoxicology
National Institute of Occupational Health, Budapest, Hungary

CEJOEM 1997, Vol.3. No.4.:339

Air pollution caused serious health problems during the last decades in Budapest, capital of Hungary. Air concentrations of soluble air particles, SO2, NO2, polycyclic aromatic hydrocarbons, lead, and cadmium are significantly higher in the inner town and in the industrial belt than in the green belts, and are further increased during the heating season. The late toxic (i.e. genotoxic) effect of the air pollution is a major factor of the cancer risk of the urban population that is occupationally not exposed to genotoxic agents. Such investigations also serve as controls for the genotoxicology monitoring of occupational exposures. The aim of the present study was to investigate the genotoxic effect of the air pollution as a function of the living estates and seasonal changes on 177 subjects (mean age 38 years, range: 18–70 years) living in the green belts (45 donors), inner town (43 donors) and industrial belt (87 donors) of the Budapest agglomeration. Peripheral blood lymphocytes were prepared after venipuncture with written permission of the donors for routine genotoxicology monitoring including the measurement of the frequencies of structural and numerical chromosome aberrations (CA), sister chromatid exchanges (SCE), HPRT point mutation variation frequencies (VF), UV light induced unscheduled DNA synthesis (UDS), lectine stimulation (LI) and proliferation indices (PRI). Routine clinical laboratory and medical checkups including a detailed anamnesis were also performed. Results of each study group were within the control range compared with the published data. The lowest average yields were obtained in those living in the green belts (CA = 0.25%; SCE = 6.41 per mitoses; UDS = 5.56 rel. units; VF = 6.95×10–6, LI = 17.45%; PRI = 2.29). Mean CAs and VFs of the inner town residents were increased when compared with those of the green belts. However, donors working or living in the industrial belt showed increased results of each studied genotoxicology parameter compared with the other two groups. Heating seasons resulted in further increases in genotoxicology parameters of each study group when compared with those of the summer. Results, although within the control range, indicate the harmful effect of the chronic low dose exposure to air pollution that occurs in the inner town and the industrial belt of Budapest even on subjects occupationally unexposed to genotoxic agents. Consequently, beside the occupationally exposed subjects, a primary (cancer) prevention of the urban population should also concentrate the efforts upon the populations living or working in the inner town and industrial belts.

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