Abstract
Transepithelial transport mechanisms play a key role in regulating the absorption and secretion of calcium (Ca 2 + ) and inorganic phosphate (P i) in the gastrointestinal tract. Although intestinal disorders with imbalances in macromineral homeostasis are frequently observed in horses, available data on intestinal Ca 2 + and P i transport are limited. The aim of the present study was to characterize the intestinal Ca 2 + and P i transport functionally by using the in vitro radioisotope tracer technique with Ussing chambers and to identify components involved in Ca 2 + transport at both mRNA and protein level. Among the different intestinal segments, the duodenum showed significant and highest active Ca 2 + absorption. The findings from RT-PCR and Western blot analysis suggest that the epithelial Ca 2 + channel TRPV6, the cytosolic calcium binding protein calbindin-D 9K and the plasma membrane calcium ATPase PMCA may be involved in active transcellular Ca 2 + transport. Regarding the P i transport, the results indicate significant active P i secretion in the jejunum, but the contributing mechanisms remain unclear. A significant inhibiting effect of ouabain as an antagonist of the basolateral Na +/K +-ATPase on the serosal-to-mucosal P i transport suggests a pivotal role of Na + in jejunal P i transport in the horse.
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