Morphological transformation in vitro of normal human fibroblasts by chrysotile.

Pathologic response of tissue to asbestos in vivo gives rise to fibromatoma, granuloma and mesothelioma. We are attempting to develop a model system in vitro using human cells in order to investigate the possible mechanisms responsible for these pathologies. Within the first 12 hr of exposure to chrysotile, the fibroblasts showed distinctive morphological changes. Cells appeared elongated with occasional vacuolated nuclei and granular cytoplasm. Cells showed no other obvious morphological changes by light microscopy and were serially passaged at confluence. The cells with vacuolated nuclei were successfully serially passaged. Binucleated cells were first observed 48 hr after passaging. As time in culture increased (3 days to 2 weeks) many cells lost their distinctive bipolar properties and developed "stress striations" and multiple vacuoles in the cytoplasm. Multinucleated giant cells (2-11 nuclei/cell) with lobate nucleoli became more numerous. With increasing passages, the confluent cell density decreased and cell size increased. Cells usually had condensed nucleoli and had lost all control of directional growth. Preliminary indications suggest that these in vitro morphological transformations are due--at least in part--to a lack of control over cytokinesis.