Inhibition of osteoclast formation and function by bicarbonate: Role of soluble adenylyl cyclase

Abstract

High inhibits and low stimulates bone resorption, which mediates part of the effect of chronic acidosis or acid feeding on bone. Soluble adenylyl cyclase (sAC) is a bicarbonate sensor that can potentially mediate the effect of bicarbonate on osteoclasts. Osteoclasts were incubated in 0, 12, and 24 mM at pH 7.4 for 7–8 days and assayed for tartrate‐resistant acid phosphatase (TRAP) and vacuolar‐ATPase expression, and H⁺ accumulation. Total number and area of TRAP (+) multinucleated osteoclasts was decreased by in a dose‐dependent manner. V‐ATPase expression and H⁺ accumulation normalized to cell cross‐sectional area or protein were not significantly changed. The ‐induced inhibition of osteoclast growth and differentiation was blocked by either 2‐hydroxyestradiol, an inhibitor of sAC or sAC knockdown by sAC specific siRNA. The model of inhibiting osteoclast via sAC was further supported by the fact that the dose‐response on osteoclasts is flat when cells were saturated with 8‐bromo‐cAMP, a permeant cAMP analog downstream from sAC thus simulating sAC activation. To confirm our in vitro findings in intact bone, we developed a 1‐week mouse calvaria culture system where osteoclasts were shown to be viable. Bone volume density (BV/TV) determined by micro‐computed tomography (µCT), was higher in 24 mM compared to 12 mM treated calvaria. This effect on BV/TV was blocked by 2‐hydroxyestradiol. In summary, sAC mediates the inhibition of osteoclast function by , by acting as a sensor. J. Cell. Physiol. 220: 332–340, 2009.