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Query: UMLS:C0221002 (
primary hyperparathyroidism
)
4,921
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Parathyroid hormone (PTH) secretion is regulated by a cell surface Ca2+ receptor that detects small changes in the level of plasma Ca2+. Because this G protein-coupled receptor conceivably provides a distinct molecular target for drugs useful in treating bone and mineral-related disorders, we sought to design small organic molecules that act on the Ca2+ receptor. We discovered that certain phenylalkylamine compounds, typified by
NPS
R-568 and its deschloro derivative
NPS
R-467, increased the concentration of cytoplasmic Ca2+ ([Ca2+]i) in bovine parathyroid cells and inhibited PTH secretion at nanomolar concentrations. These effects were stereoselective and the R enantiomers were 10- to 100-fold more potent than the S enantiomers.
NPS
R-568 potentiated the effects of extracellular Ca2+ on [Ca2+]i and PTH secretion but was without effect in the absence of extracellular Ca2+. Both compounds shifted the concentration-response curves for extracellular Ca2+ to the left. Presumably, these compounds act as positive allosteric modulators to increase the sensitivity of the Ca2+ receptor to activation by extracellular Ca2+. Both
NPS
R-467 and
NPS
R-568 increased [Ca2+]i in HEK 293 cells expressing the human parathyroid Ca2+ receptor but were without effect in wild-type HEK 293 cells. Neither compound affected the cytoplasmic Ca2+ responses elicited by several other G protein-coupled receptors in HEK 293 cells or in bovine parathyroid cells. Significantly, these compounds did not affect responses elicited by the homologous metabotropic glutamate receptors, mGluR1a, mGluR2, or mGluR8. These compounds therefore act selectively on the Ca2+ receptor. Compounds that mimic or potentiate the effects of extracellular Ca2+ at the Ca2+ receptor are termed calcimimetics. The discovery of calcimimetic compounds with potent and selective activity enables a pharmacological approach to regulating plasma levels of PTH. Calcimimetic compounds could conceivably provide a specific medical therapy for
primary hyperparathyroidism
.
...
PMID:Calcimimetics with potent and selective activity on the parathyroid calcium receptor. 952 Apr 89
Parathyroid cells can sense small changes in plasma Ca2+ levels by virtue of a cell surface Ca2+ receptor. Calcimimetics are newly synthesized compounds that act as agonists or positive allosteric modulators at the Ca2+ receptor and can suppress parathyroid hormone secretion. The first-generation calcimimetic,
NPS
R-568, has undergone clinical trials in
primary hyperparathyroidism
and in hyperparathyroidism secondary to chronic renal insufficiency. The data accumulated so far demonstrate that calcimimetics have potential as therapeutic agents for hyperparathyroidism and related bone diseases such as osteitis fibrosa.
...
PMID:The calcium receptor and calcimimetics. 1049 33
Although parathyroid neoplasms are common and cause
primary hyperparathyroidism
, parathyroid carcinoma is a rare entity. At times it can be difficult to diagnose. Patients with parathyroid carcinoma usually present with profound symptoms of hyperparathyroidism and highly elevated serum calcium and parathyroid hormone (PTH) levels. At the time of neck exploration, a large, gray-white, locally invasive tumor is commonly encountered. The course of patients with parathyroid carcinoma is variable; unfortunately, more than 50% have persistent or recurrent disease due to regional or distant disease. Surgical resection is the principal treatment for patients with parathyroid carcinoma. The optimal surgical treatment is en bloc tumor resection with ipsilateral thyroid lobectomy when the diagnosis is suspected and until it is proven otherwise. Patients who have persistent or recurrent parathyroid carcinoma should have localizing studies to identify loco-regional or distant tumor sites. Reoperation in patients with localized parathyroid carcinoma is recommended because it relieves symptoms of hypercalcemia, and it normalizes serum calcium and PTH levels in most patients. For patients who have unresectable parathyroid carcinoma, a protocol-based treatment with chemotherapy and external radiotherapy should be considered. Additionally, second-generation bisphosphonates and the
NPS
R-568 calcimimetic agent may be useful in normalizing the serum calcium and improving symptoms of hypercalcemia. However, they do not treat the tumor and are rarely effective in the long term.
...
PMID:Parathyroid carcinoma. 1205 15
Treatment of excessive secretion of parathyroid hormone (PTH) in
primary hyperparathyroidism
(I degree HPT) as well as in secondary hyperparathyroidism (II degree HPT) in chronic renal insufficiency is symptomatic, short-term acting and far from expectations. Recognition of properties of calcium receptor (CaR) expressed on parathyroid principal cell membranes created possibilities to explore new compounds that could alter directly PTH secretion and provide a novel therapy for direct correction of increased secretion of the hormone in these disorders. Ligands that activate this receptor and inhibit PTH secretion are called calcimimetics. Recently clinical trials with
NPS
R-568, a calcimimetic of the Ist generation, and AMG 073, a representative of calcimimetics of IInd generation, were completed. Calcimimetics, taken orally, effectively lower increased secretion of PTH and hypercalcemia in I degree HPT, by "pharmacologic parathyroidectomy". Such compounds are also safe and effective in dialysed patients with II degree HPT in chronic renal insufficiency: they decrease PTH plasma level and prevent parathyroid cell hyperplasia. The other compounds, called calcilytics and represented by
NPS
2143, inhibit CaR resulting therefore in increase of PTH secretion. Administration of calcilytics would provide a valuable alternative to inhibit progression of osteoporosis. Subcutaneous, pulsative low doses of recombinant PTH (ALX1-11) administration induces increase of bone formation. Such an effect to some extent was obtained by transient increase of endogenous PTH secretion induced by oral administration of calcilytic
NPS
2143 to osteopenic ovariectomized rats, especially if it was accompanied by supplementation of estrogens.
...
PMID:[Calcimimmetic and calcilytics: new perspectives of correction of abnormal parathormone (PTH) secretion]. 1497 81
Circulating levels of calcium ion (Ca2+) are maintained within a narrow physiological range mainly by the action of parathyroid hormone (PTH) secreted from parathyroid gland (PTG) cells. PTG cells can sense small fluctuations in plasma Ca2+ levels by virtue of a cell surface Ca2+ receptor (CaR) that belongs to the superfamily of G protein-coupled receptors (GPCR). Compounds that activate the CaR and inhibit PTH secretion are termed 'calcimimetics' because they mimic or potentiate the effects of extracellular Ca2+ on PTG cell function. Preclinical studies with
NPS
R-568, a first generation calcimimetic compound that acts as a positive allosteric modulator of the CaR, have demonstrated that oral administration decreases serum levels of PTH and calcium, with a leftward shift in the set-point for calcium-regulated PTH secretion in normal rats.
NPS
R-568 also suppresses the elevation of serum PTH levels and PTG hyperplasia and can improve bone mineral density (BMD) and strength in rats with chronic renal insufficiency (CRI). Clinical trials with cinacalcet hydrochloride (cinacalcet), a compound with an improved metabolic profile, have shown that long-term treatment continues to suppress the elevation of serum levels of calcium and PTH in patients with
primary hyperparathyroidism
(1HPT). Furthermore, clinical trials in patients with uncontrolled secondary hyperparathyroidism (2HPT) have demonstrated that cinacalcet not only lowers serum PTH levels, but also the serum phosphorus and calcium x phosphorus product; these are a hallmark of an increased risk of cardiovascular disease and mortality in dialysis patients with end-stage renal disease. Indeed, cinacalcet has already been approved for marketing in several countries. Calcimimetic compounds like cinacalcet have great potential as an innovative medical approach to manage 1HPT and 2HPT.
...
PMID:Pharmacological and clinical properties of calcimimetics: calcium receptor activators that afford an innovative approach to controlling hyperparathyroidism. 1610 39
Current therapy for secondary hyperparathyroidism in uremia has relatively poor success in achieving the target levels of parathyroid hormone (PTH), calcium and phosphate established by the NKF-K/DOQI guidelines. The discovery and characterization of a new membrane receptor able to sense minimal Ca changes (CaSR) started intensive research in the attempt to characterize better its functions and its finding compounds, which could modulate its activity. CaSR is expressed not only in the cells that secrete calcium-regulating hormones (parathyroid cells and thyroid C-cells) and in cells involved in calcium transport mechanisms (ie intestinal cells, bone-forming osteoblasts, and cells of different nephron segments), but also in other tissues with, as yet, a not completely defined role. CaSR stimulation by the agonists is followed by the activation of a great number of G-proteins mediated intracellular signalling pathways (PLC, PLA, PLD, PKC, PKA, etc). At the level of parathyroid cells, the main effect is the increase in IP3, followed by a mobilization of intracellular Ca stores, which inhibit PTH secretion in a few seconds or minutes. Long-term CaSR stimulation is also able to induce a reduction in both PTH synthesis and parathyroid cell proliferation. More than 100 mutations of the gene coding for CaSR have been described. Some of these mutations are matched by a gain or reduction/loss of function. Notwithstanding, CaSR is widely represented on different tissue cells, the main clinical manifestations of the above genetic changes mainly involve PTH and calcium metabolism. A great number of inorganic and organic cations can interact with the Ca-sensitive N-terminus domain of CaSR, mimicking Ca effects (type I calcimimetics), but these substances have substantial limitations for use in clinical practice. A second class of compounds was produced (
NPS
R-467, S-467, R-568, S-568, AMG 073), for use in the clinical setting, type II calcimimetics. These compounds, after having interacted with the membrane-spanning domains of the CaSR, induce conformational changes in the N-terminus domain, increasing its affinity for Ca. The preclinical experiences with calcimimetics demonstrated that they were effective in reducing circulating PTH, preventing the progression of secondary hyperparathyroidism, suppressing parathyroid cell proliferation, and reversing osteitis fibrosa at least in animal models. Clinical studies were performed mainly using AMG 073, due to its greater bioavailability and more consistent pharmacokinetic profile. Clinical studies performed in
primary hyperparathyroidism
proved AMG 073 to be effective in reducing both PTH and Ca serum levels, with a good safety profile. Further studies, mainly focused on the efficacy of AMG 073 in the control of secondary hyperparathyroidism in uremia, confirmed the efficacy of this compound in reducing PTH levels >30% in about 50% of patients. Furthermore, the fall in PTH was matched by a reduction in both calcium and phosphate serum levels of about 5-7%, with a significant reduction in calcium x phosphate product (about 15%). The latter aspect represents a unique pharmacological profile, as compared to all the other available therapeutic means to control secondary hyperparathyroidism in uremia. In addition to their effectiveness, calcimimetics present a relatively safe profile, the only adverse events referred to consist of transient and easily remediable hypocalcemic episodes and some gastrointestinal discomfort symptoms. However, although calcimimetics represent a real advancement in the field of treating secondary hyperparathyroidism in uremic patients, their use should be matched by the awareness that previously the success of a high number of new drugs proposed have been flawed by negative consequences in the long term. Therefore, strict clinical control is necessary in the next few years when the use of these new compounds will widen.
...
PMID:[Calcimimetics]. 1652 Oct 71
