Establishment of a human in vitro mesothelial cell model system for investigating mechanisms of asbestos-induced mesothelioma.

Normal human mesothelial (NHM) cells were transfected with a plasmid containing SV40 early region DNA. Individual colonies of transformed cells from several donors were subcultured for periods of 5 to 6 months and 60 to 70 population doublings (PDs) before senescence, in contrast to a culture lifespan of approximately 1 month and 15 PDs for NHM cells. One such culture, designated MeT-5A, escaped senescence and has been passaged continuously for more than 2 years.

Differential responses to growth factors by normal human mesothelial cultures from individual donors.

A significant interindividual variation in the growth rates is found in normal cultured human mesothelial (NHM) cells derived from different donors. This variation is observed when the mesothelial cells are incubated in medium containing serum and when the potencies of several separate growth factors are measured by using defined media. Depending on the donor, gamma-interferon and interleukin-2 can be toxic, have no effect, or stimulate the growth rate of NHM cells.

Dissimilar peptide growth factors can induce normal human mesothelial cell multiplication.

Quiescent normal human mesothelial (NHM) cells will undergo one round of DNA synthesis when they are incubated in a defined medium consisting of LHC basal medium supplemented with hydrocortisone, insulin, transferrin, and one of the following peptide mitogens: epidermal growth factor; transforming growth factor beta (1 or 2); platelet derived growth factor (a,b heterodimer or b,b homodimer); fibroblast growth factor (acid or basic forms); interleukin 1 (alpha or beta forms); interleukin 2; interferon gamma; interferon beta; or cholera toxin. However, sustained cell multiplication does not occur unless the medium contains hydrocortisone, insulin, transferrin, any one of the above-listed peptide growth factors and high density lipoproteins. Growth can be increased twofold if the medium contains certain combinations of these mitogens and high density lipoproteins.

Type beta transforming growth factor is the primary differentiation-inducing serum factor for normal human bronchial epithelial cells.

Type beta transforming growth factor (TGF-beta) was shown to be the serum factor responsible for inducing normal human bronchial epithelial (NHBE) cells to undergo squamous differentiation. NHBE cells were shown to have high-affinity receptors for TGF-beta. TGF-beta induced the following markers of terminal squamous differentiation in NHBE cells: (i) increase in Ca ionophore-induced formation of crosslinked envelopes; (ii) increase in extracellular activity of plasminogen activator; (iii) irreversible inhibition of DNA synthesis; (iv) decrease in clonal growth rate; and (v) increase in cell surface area.

Relationship of ornithine decarboxylase activity and cAMP metabolism to proliferation of normal human bronchial epithelial cells.

The mechanisms of action of extracellular mitogens for normal human bronchial epithelial cells (NHBE) were investigated by observing their effects on selected biochemical pathways when the cells were incubated in serum-free media. We find that (a) epidermal growth factor (EGF) stimulates ornithine decarboxylase (ODC) activity and the rate of cell division without stimulating cAMP; (b) alone, pituitary extract (PEX) does not stimulate ODC activity, cAMP levels, or cell division; (c) when PEX is added to medium containing EGF there is a further increase in both ODC activity and the rate of cell division, again with no increase in cAMP levels; (d) in contrast, alone, L-epinephrine (EPI) stimulates an increase in both ODC and cAMP but does not stimulate cell division; (e) when EPI is added to medium containing both EGF and PEX a further increase in the rate of cell division is noted; (f) the specific inhibitor of ODC, alpha-(difluoromethyl)-ornithine (DMFO), also inhibits NHBE cell proliferation; and (g) the beta-adrenergic receptor antagonist propranolol inhibits the mitogenic action and ODC induction by EPI observed under condition e. We conclude that an increase in ODC activity is necessary but not sufficient for an increase in proliferation of NHBE cells.