Multiple End-point Genotoxicology Monitoring of Hungarian Historical and Industrial Control Subjects*

Jenõ Major, Mátyás G. Jakab and Anna Tompa

National Institute of Occupational Health, Budapest, Hungary
 
Corresponding author: Jenõ Major

National Institute of Occupational Health
Department of Human Genotoxicology
H-1450 Budapest, P.O.Box 22, Hungary
Tel: +36 1215-7890
Fax: +36 1215-6891

CEJOEM 1997, 3:87-101

*This work was financially supported by the Ministry of Health and Social Welfare, Hungary (ETT, T-08 043/93 and ETT, T-08 241/96).


Key words:
Chromosome aberrations, cell proliferation, historical controls, human lymphocytes, industrial controls, sister-chromatid exchange, UV-light-induced DNA repair
Abbreviations:
ANOVA: Analysis of variance;
BrdU: 5’-Bromo-deoxyuridine;
CA: Chromosome aberrations;
HC: Historical controls;
3H-TdR: Tritium-labelled thymidine;
IC: Industrial controls;
LI: Labelling index;
M1: Metaphases of the first cell cycle;
M2: Metaphases of the second cell cycle;
M3: Metaphases of the third cell cycle;
PBL: Peripheral blood lymphocytes;
PRI: Proliferation rate index;
RPMI-1640: Cell culture medium;
SCE: Sister chromatid exchange;
SE: Standard error;
UDS: Unscheduled DNA synthesis;
UV: Ultraviolet light;
WBC: White blood cells.

Abstract:
The aim of the investigation was to study the effect of chronic low dose exposure to environmental pollutants in peripheral blood lymphocytes (PBL) of subjects living in the Budapest agglomeration, Hungary. The effect of some biological (gender, age, hematocrit and white blood cell counts), life-style (smoking, drinking habits and residential areas), and seasonal confounding factors was also considered. One hundred and eighty-eight Hungarian donors – 101 historical (HC) and 87 industrial controls (IC), living in the Budapest agglomeration – were analysed by a routine multiple end-point genotoxicology monitor including investigations of structural and numerical chromosome aberrations (CA), sister-chromatid exchanges (SCE), cell proliferation indices (lectine stimulation, LI, and proliferation rate index, PRI), and UV-light-induced unscheduled DNA synthesis (UDS) of PBLs. Each donor was personally interviewed and clinically investigated. All previous medical records were available. The two populations were matched for age, smoking and drinking habits. We excluded all the donors with acute infectious and/or chronic noninfectious diseases, and/or with exposure to any known chemical hazard. One hundred routinely prepared first mitoses were blindly scored by two investigators for CA, and 50 second metaphases for SCE. LI was determined autoradiographically and UDS was measured by the incorporated 3H-TdR (cpm).
    For the HC group, the base line CA and SCE frequencies were 0.36% and 6.20 per mitosis, respectively. In IC donors, significant (P<0.05) elevations were found in the frequencies of gaps, aberrant cells, total aberrations (excluding gaps), chromatid and chromosome type aberrations, and in UDS, compared to HCs. Results indicate an increased genotoxicological burden in the IC donors living and/or working in industrial areas. Gender-related differences in CA and SCE frequencies, and smoking-induced changes in UDS were also found in both groups. Age-related increase of CAs were only found in ICs. Light drinking did not appear to influence the results in any groups. The present results are comparable with the previously published Hungarian control data, consequently, these data can represent a reliable base line for future routine genotoxicology monitoring studies in Hungary.

Received: 18 February 1997
Accepted: 11 June 1997

Posted: 29 November 1998

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