Growth stimulatory precipitates of CA2+ and pyrophosphate

Abstract

Inorganic pyrophosphate (PP_i) forms an insoluble precipitate with calcium in growth medium when its concentration exceeds about 0.1 mM. This PP_i precipitate can reproduce the effects of 10% calf serum on all cell processes examined in Balb/c 3T3 cells, including hexose uptake and metabolism to lactate, ³H‐uridine, and ³H‐choline uptake, and the incorporation of ³H‐leucine and ³H‐thymidine into trichloroacetic acid (TCA)‐insoluble material. Concentrations of PP_i insufficient to form a precipitate are without effect on cell metabolism. The precipitates are most effective when prepared with concentrations of PP_i just sufficient to result in precipitate formation and become considerably less effective as the PP_i concentration increases, even though the quantity of precipitate formed continues to increase with PP_i concentration up to 1 mM PP_i. Precipitates formed at low PP_i concentrations consist largely of Ca²⁺ (81% of cations). PP_i (77% of anions), and P_i (23% of anions). Precipitates formed with higher concentrations of PP_i contain proportionately less Ca²⁺ and P_i and more monovalent cations and PP_i. We have distinguished cell surface‐bound PP_i from intracellular PP_i by differential extraction. The quantity of surface‐bound PP_i increases sharply when the PP_i concentration reaches the point of precipitate formation. If the precipitate is prevented from binding to the cell surface by inverting monolayer cultures in precipitate‐containing medium, the cells are not stimulated. These findings suggest that the binding of PP_i precipitate to the cell surface is involved in the stimulation of cell metabolism by PP_i. PP_i precipitates do not absorb serum mitogens or inhibitors from the culture medium, nor do they affect the binding of ¹²⁵I‐platelet‐derived growth factor to its specific cell‐surface receptor, suggesting that PP_i precipitates do not act directly through either of these mitogen‐receptor systems. In analogy to cell stimulation by epidermal growth factor and by antigens, we suggest that PP_i may be active only in the form of a precipitate because multivalent binding of receptors with formation of clusters is required for stimulation. The inhibitory effects of high concentrations of PP_i may be due to interference by free PP_i with formation of active receptor clusters.