Quantitative Study of the Interaction of Salivary Acidic Proline-Rich Proteins with Hydroxyapatite

Abstract

Using specific antisera to the proline-rich proteins A and C, a quantitative assay has been developed for human acidic proline-rich proteins. By adding varying amounts of hydroxyapatite to a given volume of saliva, the adsorption of acidic proline-rich proteins and total protein to hydroxyapatite has been determined for stimulated and unstimulated parotid and submandibular saliva. The maximum amount of acidic proline-rich proteins adsorbed (ADS_max) varied from 85 to 97% of the total acidic proline-rich proteins present in unadsorbed saliva. ADS_max for total protein varied from 41 to 79%. The amount of hydroxyapatite needed for half maximal adsorption (HA₅₀) was consistently smaller for acidic proline-rich proteins than for total protein and for the secretions from any gland, HA₅₀ was consistently smaller for unstimulated than stimulated saliva. HA₅₀ values from one individual were consistently smaller than the corresponding HA₅₀ values from a second individual. The mean concentration of acidic proline-rich proteins in unadsorbed saliva was 50 ± 26 mg/l00 ml and the mean contribution of acidic proline-rich proteins to hydroxyapatite-adsorbed proteins was 42% ± SD 23 of total adsorbed proteins. On the basis of equilibrium dialysis experiments with purified protein A and C in buffers with pH and ionic strength similar to salivary secretions, it was estimated that the concentration of calcium bound to acidic proline-rich proteins varied from 8 μM in unstimulated submandibular saliva to 41 μM in stimulated submandibular saliva. The concentration of calcium bound to acidic proline-rich proteins therefore apparently depends on the type of salivary secretion.