direct action of parathyroid hormones include everything except
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Answer:
Peptides containing residues 1-34 of the human parathyroid hormone (PTH)-like hypercalcemic factor (hHCF), termed hHCF-(1-34)-NH2, produce effects similar to those of PTH in several biological systems in vitro and in vivo. However, there is conflicting evidence regarding the potency of hHCF on bone and, by implication, its role in calcium mobilization and the skeletal contribution to tumor-associated hypercalcemia. To resolve this conflict, the effects of infusing either hHCF-(1-34)-NH2 or a peptide containing residues 1-34 of bovine PTH [bPTH-(1-34)] into unrestrained thyroparathyroidectomized rats on a low calcium diet were compared. Direct effects on bone histology and serum calcium levels, which are totally dependent on calcium mobilization from bone in these animals, were examined. bPTH-(1-34) and hHCF-(1-34)-NH2 were equipotent in producing dose-dependent calcium mobilization from bone. At an infusion rate of 0.1 nmol/hr, both peptides produced hypercalcemia and extensive nephrocalcinosis. Histomorphometric analysis of tibiae from these animals after 48 hr of peptide infusion showed a dose-related increase in osteoclast number from 3-5 cells per mm2 at 0.01 nmol/hr to approximately equal to 32 cells per mm2 at 0.1 nmol/hr of hHCF or bovine PTH. These findings indicate that hHCF has a direct PTH-like effect on bone and, in this model system, the hHCF-(1-34)-NH2 is equipotent to bPTH-(1-34
Answer:
Parathyroid hormone regulates calcium levels in the blood, largely by increasing the levels when they are too low. It does this through its actions on the kidneys, bones and intestine: Bones – parathyroid hormone stimulates the release of calcium from large calcium stores in the bones into the bloodstream.