In vitro studies on active calcium absorption from ovine rumen

From various in vivo and in vitro studies it has been shown that the rumen represents a significant site of Ca²⁺ absorption in sheep and goats. It was the aim of the present study to further characterize the underlying mechanisms. Unidirectional flux rates of Ca²⁺ across rumen wall epithelia of sheep were measured in vitro by applying the Ussing-chamber technique in the absence of electrochemical gradients. Under these conditions, significant Ca²⁺ net flux rates (J_net) clearly indicate the presence of active mechanisms for Ca²⁺ transport. Short chain fatty acids (SCFAs) caused highest stimulation of Ca²⁺ J_net (6.3 ± 1.9 nmol · cm⁻² · h⁻¹) when used as a mixture of acetate, proprionate and butyrate in physiological proportions (36, 15, 9 mmol · l⁻¹, respectively). The effect of 30 mmol · l⁻¹ butyrate (3.2 ± 0.6 nmol · cm⁻² · h⁻¹) was higher than respective amounts of propionate and acetate (0.6 ± 0.8 nmol · cm⁻² · h⁻¹ and 0.9 ± 0.8 nmol · cm⁻² · h⁻¹, respectively). Eliminating SCFAs resulted in Ca²⁺ J_net of 0.4 ± 1.1 nmol ^. cm^−2 .h⁻¹. Addition of Ca channel blocker verapamil (mucosal 1 mmol · l⁻¹) had no significant effect on SCFA-stimulated J_net of Ca²⁺, whereas application of Na⁺/H⁺ inhibitor amiloride (mucosal 1 mmol · l⁻¹) further enhanced the Ca²⁺ J_net by >65%. The Ca²⁺-pump inhibitor vanadate had no significant effect on J_net of Ca²⁺. Dietary Ca depletion enhanced calcitriol plasma concentrations but had no effect on active Ca²⁺ absorption across the rumen wall of sheep. In addition, no effect on active Ca²⁺ absorption could be observed during early lactation. In conclusion, there is clear evidence for the rumen as a main site for active Ca²⁺ absorption in sheep. Our results suggest the presence of a Ca²⁺/H⁺ exchange mechanism in the apical membrane of rumen epithelial cells which depends on SCFA absorption and which does not seem to be under the control of calcitriol. Basolateral Ca²⁺ extrusion occurs independently from Ca²⁺-pump activity and may be accomplished via Na⁺/Ca²⁺ exchange. Accepted: 29 June 1999