Effects of medium acidification by alteration of carbon dioxide or bicarbonate concentrations on the resorptive activity of rat osteoclasts

Abstract

Little is known about the extracellular conditions or factors that stimulate mature osteoclasts to resorb mineralized tissues. Isolated mammalian osteoclasts are strongly stimulated by protons in HEPES-buffered culture media in the absence of CO₂ and HCO₃⁻, but it has been reported that cell-mediated Ca²⁺ release from bone organ cultures is increased only when media are acidified by reduction of HCO₃⁻ concentrations, and not by increasing Pco₂ (considered models of metabolic and respiratory acidosis, respectively). We investigated this question using disaggregated rat osteoclasts cultured on dentin slices for 24 h. The number of pits resorbed per osteoclast was stimulated in media acidified by manipulation of either HCO₃⁻ or CO₂ concentrations. In experiments in which incubator CO₂ was varied, resorption was almost abolished in the presence of 2.5% CO₂ at pH 7.61 but increased in a stepwise manner up to 1.3 pits per osteoclast when dentin slices were cultured with 10% CO₂ at pH 6.97. The depths and widths of pits, measured using a confocal laser reflection microscope, also tended to increase with increasing CO₂ and decreasing pH. However, in experiments where pH was lowered by reducing medium HCO₃⁻, pit size decreased, partially offsetting the increased number of pits resorbed per osteoclast. These findings suggest that rat osteoclasts may be more sensitive to stimulation by CO₂ acidosis than by HCO₃⁻ acidosis, at least in the short term, and may possibly reflect local regulatory processes in bone.