Fibrogenesis by mineral fibres: an in vitro study of the roles of the macrophage and the fibre length
Evidence on the mechanism by which inhaled mineral fibres lead to pulmonary fibrosis has not been forthcoming. As with silica, a biphasic cell culture system was required to distinguish phagocytosis from collagen formation. Synthesis of total protein and collagen by rat fibroblasts was estimated by incorporation of labelled proline after treatment with the medium from rat peritoneal macrophages that had been cultured in the presence of different types of mineral fibre. The influence of fibre length was also examined. All the main varieties of asbestos reacted with macrophages to produce or release a fibrogenic factor. However, chrysotile and the longer amosite fibres evoked the response only after prolonging the period of incubation with macrophages, presumably by permitting more complete phagocytosis of curled or longer fibres. Short amosite fibres proved to be more active than longer ones and under certain conditions were as potent as quartz. Fibrous glass also possessed stimulatory properties and again a sample having a short length gave a stronger response than a long one. Collagen formation by asbestos thus appears to be mediated by a macrophage factor, so operating in a manner similar to that previously demonstrated for quartz. The conventional view that short fibres are comparatively insignificant in asbestos fibrogenesis cannot, on the present evidence, be sustained. Furthermore, it should not be assumed than man-made mineral fibres of respirable diameter are innocuous or that short ones can be ignored.
Publication Number: P/84/04
First Author: Aalto M
Other Authors: Heppleston AG
Publisher: Blackwell Publishing,9600 Garsington Road, Oxford, OX4 2DQ, UK,Oxford
Download PublicationCOPYRIGHT ISSUES
Anyone wishing to make any commercial use of the downloadable articles on this page should contact the publishers of the journals. Please see the copyright notices on the journals' home pages:
- Annals of Occupational Hygiene
- Occupational and Environmental Medicine
- American Journal of Respiratory Cell and Molecular Biology
- QJM: An International Journal of Medicine
- Occupational Medicine
Permissions requests for Oxford Journals Online should be made to: [email protected]
Permissions requests for Occupational Health Review articles should be made to the editor at [email protected]