Context: Primary hyperparathyroidism, which occurs most commonly in patients with adenomatous disease of a single parathyroid gland, arises as a result of impaired extracellular Ca(2+) (Ca(2+)(o))-dependent feedback on PTH secretion, a process mediated by the calcium-sensing receptor (CaR).
Objective: Because the Ca(2+)(o) sensitivity of the CaR is positively modulated by L-amino acids, we decided to investigate whether the impaired feedback of PTH secretion in adenomatous parathyroid cells might arise from decreased sensitivity to L-amino acids.
Design: Samples of normal and adenomatous human parathyroid cells were prepared by collagenase treatment and then exposed in vitro to various concentrations of Ca(2+)(o) or the CaR-active amino acid, L-phenylalanine (L-Phe).
Setting and patients: Excess normal parathyroid tissue was obtained from parathyroid autotransplants at the time of thyroid surgery. Samples of adenomatous tissue were obtained from histologically confirmed parathyroid adenomas.
Main outcome measures: The primary measure was sensitivity of Ca(2+)(o)-dependent PTH secretion to the amino acid L-Phe. The secondary measure was sensitivity of Ca(2+)(o)-dependent intracellular Ca(2+) mobilization to L-Phe.
Results: Parathyroid adenomas exhibited reduced sensitivity to the CaR-active amino acid L-Phe, which affected both Ca(2+)(o)-dependent PTH secretion and Ca(2+)(o)-dependent intracellular Ca(2+) mobilization as a measure of CaR-dependent signaling in parathyroid cells.
Conclusions: Impaired L-amino acid sensing by calcium-sensing receptors in adenomatous parathyroid cells contributes to the loss of feedback control of PTH secretion in primary hyperparathyroidism. The CaR's amino acid binding site may be exploited as a target in the medical treatment of primary and perhaps other forms of hyperparathyroidism.