Chromosome damage in underground coal miners: detection by conventional cytogenetic techniques and by submitting lymphocytes of unexposed individuals to plasma from at-risk groups

Agostini, J.M.S.; Otto, P.A.; Wajntal, A.

doi:10.1590/S0100-84551996000400021

Abstract

Chromosome abnormalities and the mitotic index in lymphocyte cultures and micronuclei in buccal mucosa cells were investigated in a sample of underground mineral coal miners from Southern Brazil. A decreased mitotic index, an excess of micronuclei and a higher frequency of chromosome abnormalities (fragments, polyploidy and overall chromosome alterations) were observed in the miners when compared to age-paired normal controls from the same area. An alternative assay for clastogenesis in occupational exposition was tested by submitting lymphocytes from non-exposed individuals to a pool of plasmas from the exposed population. This assay proved to be very convenient, as the lymphocytes obtained from the same individuals can be used as target as well as control cells. Also, it yielded a larger number of metaphases and of successful cultures than with common lymphocyte cultures from miners. A significantly higher frequency of chromatid gaps, fragments and overall alterations were observed when lymphocytes from control subjects were exposed to miner plasma pools. Control plasma pools did not significantly induce any type of chromosome alterations in the cultures of normal subjects, thus indicating that the results are not due to the effect of the addition of plasma pools per se.

chromosome damage; underground coal miners; cytogenetic; lymphocytes; plasma; at-risk groups

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Chromosome damage in underground coal miners: detection by conventional cytogenetic techniques and by submitting lymphocytes of unexposed individuals to plasma from at-risk groups

J.M.S. Agostini^I,II; P.A. Otto^I; A. Wajntal^I

^IDepartamento de Biologia, Instituto de Biociências, Universidade de São Paulo, Caixa Postal 11461, 05422-970 São Paulo, SP, Brasil. Fax: 55-11-818-7419 or 55-11-818-7553. Send correspondence to A.W.

^IIDepartamento de Biologia, Universidade Federal de Santa Catarina, Florianópolis, SC, Brasil

ABSTRACT

Chromosome abnormalities and the mitotic index in lymphocyte cultures and micronuclei in buccal mucosa cells were investigated in a sample of underground mineral coal miners from Southern Brazil. A decreased mitotic index, an excess of micronuclei and a higher frequency of chromosome abnormalities (fragments, polyploidy and overall chromosome alterations) were observed in the miners when compared to age-paired normal controls from the same area. An alternative assay for clastogenesis in occupational exposition was tested by submitting lymphocytes from non-exposed individuals to a pool of plasmas from the exposed population. This assay proved to be very convenient, as the lymphocytes obtained from the same individuals can be used as target as well as control cells. Also, it yielded a larger number of metaphases and of successful cultures than with common lymphocyte cultures from miners. A significantly higher frequency of chromatid gaps, fragments and overall alterations were observed when lymphocytes from control subjects were exposed to miner plasma pools. Control plasma pools did not significantly induce any type of chromosome alterations in the cultures of normal subjects, thus indicating that the results are not due to the effect of the addition of plasma pools per se.

Keywords: chromosome damage; underground coal miners; cytogenetic; lymphocytes; plasma; at-risk groups.

Al-Sabti, L., Lloyd, D.B., Edwards, A.A. and Stegnar, C. (1992). A survey of lymphocytes chromosomal damage in Slovenian workers exposed to occupational clastogens. Mutat. Res. 280: 215-223.
Arnsdorff-Roubicek, D. and Targa, H.J. (1990). Mutagenic activity of metabolites contained in the plasma of Sprague-Dawley rats treated with cyclophosphamide. Mutat. Res. 243: 309-312.
Ashby, J. and Richardson, C.R. (1985). Tabulation and assessment of 113 human surveillance cytogenetic studies conducted between 1965 and 1984. Mutat. Res. 154: 111-133.
Baselt, R.C. and Cravey, R.H. (1989). Disposition of Toxic Drugs and Chemicals in Man. Year Book Medical Publishers, Inc., Littleton, pp. 358.
Bueno, A.M.S., Agostini, J.M.S., Gaidzinski, K., Moreira, J. and Brogloni, I. (1992). Frequencies of chromosomal aberrations in rodents collected in the coal-field and tobacco culture region of Criciuma, South Brazil. J. Toxicol. Environ. Health 36: 91-102.
Darroudi, F. and Natarajan, A.T. (1985). Cytostatic drug activity in plasma, a bioassay for detecting mutagenicity of directly and indirectly acting chemicals: an evaluation of 20 chemicals. Mutat. Res. 143: 263-269.
⁷
Diem, K. and Lentner, C. (1968). Wissenschaftliche Tabellen. 7th edn. JR Geigy, Basel, pp.798.
FATMA (Fundação de Amparo à Tecnologia e ao Meio Ambiente de Santa Catarina) (1990). Impacto ambiental causado pela mineração na bacia carbonífera catarinense. In: Seminário Nacional sobre Universidade e Meio Ambiente 4. Textos Básicos, Ed. UFSC, Florianópolis, pp. 336-361.
Iyengar, V. and Woittiez, J. (1988). Trace elements in human clinical specimens: evaluation of literature data to identify reference values. Clin. Chem. 34: 474-481.
Moorhead, P.S., Nowell, P.C., Mellman, W.J., Battips, D.M. and Hungerford, D.A. (1960). Chromosome preparations of leukocytes cultured from human peripheral blood. Exp. Cell Res. 20: 613-616.
Natarajan, A.T., Bruijn, E.A., Leeflang, P., Slee, P.H.J., Mohn, G.R. and Driessen, O. (1983). Induction of chromosomal alterations as an assay for cytostatic drug in plasma. Mutat. Res. 121: 39-45.
Sarto, F., Finotto, S., Giacomelli, L., Mazzoti, D., Tomanin, R. and Leuis, A.G. (1987). The micronucleus assay in exfoliated cells of the human buccal mucosa. Mutagenesis 2: 11-17.
Sorsa, M. and Yager, J.W. (1987). Cytogenetic Surveillance of Occupational Exposures in Cytogenetics (Obe, G. and Basler, A., eds.). Springer Verlag, Berlin, pp. 345-360.
Sram, R.J., Hola, N., Kotesovec, F. and Varva, R. (1985). Chromosomal abnormalities in soft coal open-cast mining workers. Mutat. Res. 144: 271-275.
Stewart Houk, V. (1992). The genotoxicity of industrial wastes and effluents. A review. Mutat. Res. 277: 91-138.
Stich, H.F. and Rosin, M.P. (1983). Quantitating the synergistic effect of smoking and alcohol consumption with the micronucleus test on human buccal mucosa cells. Int. J. Cancer 31: 305-308.
Versieck, J. and Cornelis, R. (1989). Trace Elements in Human Plasma or Serum. CRC Press, Boca Raton, pp. 237.
Wu, F.Y.H. and Wu, C.W. (1987). Zinc in DNA replication and transcription. Ann. Rev. Nutr. 7: 251-272.
Zar, J.H. (1984). Biostatistical Analysis. 2nd edn. Prentice-Hall Inc., Englewood Cliffs, pp. 718.

Publication Dates

Publication in this collection
26 Oct 2006
Date of issue
1996

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Al-Sabti, L., Lloyd, D.B., Edwards, A.A. and Stegnar, C. (1992). A survey of lymphocytes chromosomal damage in Slovenian workers exposed to occupational clastogens. Mutat. Res. 280: 215-223.

[2] Arnsdorff-Roubicek, D. and Targa, H.J. (1990). Mutagenic activity of metabolites contained in the plasma of Sprague-Dawley rats treated with cyclophosphamide. Mutat. Res. 243: 309-312.

[3] Ashby, J. and Richardson, C.R. (1985). Tabulation and assessment of 113 human surveillance cytogenetic studies conducted between 1965 and 1984. Mutat. Res. 154: 111-133.

[4] Baselt, R.C. and Cravey, R.H. (1989). Disposition of Toxic Drugs and Chemicals in Man. Year Book Medical Publishers, Inc., Littleton, pp. 358.

[5] Bueno, A.M.S., Agostini, J.M.S., Gaidzinski, K., Moreira, J. and Brogloni, I. (1992). Frequencies of chromosomal aberrations in rodents collected in the coal-field and tobacco culture region of Criciuma, South Brazil. J. Toxicol. Environ. Health 36: 91-102.

[6] Darroudi, F. and Natarajan, A.T. (1985). Cytostatic drug activity in plasma, a bioassay for detecting mutagenicity of directly and indirectly acting chemicals: an evaluation of 20 chemicals. Mutat. Res. 143: 263-269.

[7] ⁷
Diem, K. and Lentner, C. (1968). Wissenschaftliche Tabellen. 7th edn. JR Geigy, Basel, pp.798.

[8] FATMA (Fundação de Amparo à Tecnologia e ao Meio Ambiente de Santa Catarina) (1990). Impacto ambiental causado pela mineração na bacia carbonífera catarinense. In: Seminário Nacional sobre Universidade e Meio Ambiente 4. Textos Básicos, Ed. UFSC, Florianópolis, pp. 336-361.

[9] Iyengar, V. and Woittiez, J. (1988). Trace elements in human clinical specimens: evaluation of literature data to identify reference values. Clin. Chem. 34: 474-481.

[10] Moorhead, P.S., Nowell, P.C., Mellman, W.J., Battips, D.M. and Hungerford, D.A. (1960). Chromosome preparations of leukocytes cultured from human peripheral blood. Exp. Cell Res. 20: 613-616.

[11] Natarajan, A.T., Bruijn, E.A., Leeflang, P., Slee, P.H.J., Mohn, G.R. and Driessen, O. (1983). Induction of chromosomal alterations as an assay for cytostatic drug in plasma. Mutat. Res. 121: 39-45.

[12] Sarto, F., Finotto, S., Giacomelli, L., Mazzoti, D., Tomanin, R. and Leuis, A.G. (1987). The micronucleus assay in exfoliated cells of the human buccal mucosa. Mutagenesis 2: 11-17.

[13] Sorsa, M. and Yager, J.W. (1987). Cytogenetic Surveillance of Occupational Exposures in Cytogenetics (Obe, G. and Basler, A., eds.). Springer Verlag, Berlin, pp. 345-360.

[14] Sram, R.J., Hola, N., Kotesovec, F. and Varva, R. (1985). Chromosomal abnormalities in soft coal open-cast mining workers. Mutat. Res. 144: 271-275.

[15] Stewart Houk, V. (1992). The genotoxicity of industrial wastes and effluents. A review. Mutat. Res. 277: 91-138.

[16] Stich, H.F. and Rosin, M.P. (1983). Quantitating the synergistic effect of smoking and alcohol consumption with the micronucleus test on human buccal mucosa cells. Int. J. Cancer 31: 305-308.

[17] Versieck, J. and Cornelis, R. (1989). Trace Elements in Human Plasma or Serum. CRC Press, Boca Raton, pp. 237.

[18] Wu, F.Y.H. and Wu, C.W. (1987). Zinc in DNA replication and transcription. Ann. Rev. Nutr. 7: 251-272.

[19] Zar, J.H. (1984). Biostatistical Analysis. 2nd edn. Prentice-Hall Inc., Englewood Cliffs, pp. 718.