Calcitriol increases blood calcium levels ([]) by: • Promoting absorption of dietary calcium from the
gastrointestinal tract. • Increasing
renal tubular reabsorption of calcium, thus reducing the loss of calcium in the urine. • Stimulating release of calcium from bone. For this it acts on the specific type of bone cells referred to as
osteoblasts, causing them to release
RANKL, which in turn activates
osteoclasts. Calcitriol acts in concert with
parathyroid hormone (PTH) in all three of these roles. For instance, PTH also indirectly stimulates osteoclasts. However, the main effect of PTH is to increase the rate at which the kidneys excrete
inorganic phosphate (Pi), the
counterion of . The resulting decrease in serum phosphate causes hydroxyapatite (Ca5(PO4)3OH) to dissolve out of bone, thus increasing serum calcium. PTH also stimulates the production of calcitriol (see below). Many of the effects of calcitriol are mediated by its interaction with the
calcitriol receptor, also called the vitamin D receptor or VDR. For instance, the unbound inactive form of the calcitriol receptor in intestinal epithelial cells resides in the
cytoplasm. When calcitriol binds to the receptor, the
ligand-receptor complex translocates to the
cell nucleus, where it acts as a
transcription factor promoting the expression of a gene encoding a
calcium binding protein. The levels of the calcium binding protein increase enabling the cells to actively transport more calcium () from the intestine across the
intestinal mucosa into the blood. The maintenance of electroneutrality requires that the transport of ions catalyzed by the intestinal epithelial cells be accompanied by counterions, primarily inorganic phosphate. Thus calcitriol also stimulates the intestinal absorption of phosphate. a hormone which reduces blood calcium primarily by inhibiting calcium release from bone. == Biosynthesis and its regulation ==