UICC, other well-defined asbestos samples and different man-made mineral fibers (MMM) such as glass fiber and synthetic amphibole asbestos were studied in vitro by using rat and guinea pig lung macrophages. These samples had relatively narrow length and diameter spectra. Most of the fiber samples were added to the cultures on a gravimetric basis, although some were added on a numerical basis. Electrocorundum and DQ12 (Dorentruper Quartz) were used as controls at comparable gravimetrical concentrations. The assays used were the release of lactate dehydrogenase (to demonstrate plasma membrane permeability) and the release of beta-glucuronidase (to indicate lysosomal permeability). Carbohydrate metabolism was monitored by the measurement of lactic acid production and, as one of the tests for macrophage function, the production of lysozyme was determined. The phagocytic ability of the cells was measured, after the addition of opsonized zymosan, by bioluminescence following luminol enhancement. Only some results could be evaluated, however, due to technical difficulties. A length- and dose-dependent cytotoxicity of the fibers was found in this system which was similar to that previously described with permanent cell lines. No great differences were found between fibers having different physicochemical compositions if their geometric dimensions were similar. Long, very thin fibers of glass, chrysotile, crocidolite and synthetic fluoroamphiboles were all toxic in the test system.
[1]
A. C. Allison,et al.
AN EXAMINATION OF THE CYTOTOXIC EFFECTS OF SILICA ON MACROPHAGES
,
1966,
The Journal of experimental medicine.
[2]
E G Beck,et al.
Comparison of effects on macrophage cultures of glass fibre, glass powder, and chrysotile asbestos
,
1972,
British journal of industrial medicine.
[3]
W. Stöber,et al.
Size-selective preparation of inorganic fibers for biological experiments.
,
1979,
American Industrial Hygiene Association journal.
[4]
E G Beck,et al.
Comparison of length-dependent cytotoxicity of inhalable asbestos and man-made mineral fibres.
,
1980,
IARC scientific publications.
[5]
E. Beck.
Die Reaktion in vitro gezüchteter Zellen auf partikelförmige Luftverunreinigungen und hochpolymere Stoffe
,
1970
.
[6]
J. Silkworth,et al.
Environmental chemical-induced macrophage dysfunction.
,
1981,
Environmental health perspectives.
[7]
H. Bartsch,et al.
International Agency for Research on Cancer.
,
1969,
WHO chronicle.
[8]
Q. Myrvik,et al.
A study of macrophages and epitheloid-like cells from granulomatous (BCG-induced) lungs of rabbits.
,
1962,
Journal of immunology.
[9]
A. Allison,et al.
Secretion of Macrophage Enzymes in Relation to the Pathogenesis of Chronic Inflammation
,
1976
.
[10]
A. Allison,et al.
Asbestos induces selective release of lysosomal enzymes from mononuclear phagocytes
,
1974,
Nature.