The calcium-sensing receptor: a key factor in the pathogenesis of secondary hyperparathyroidism

Rodriguez, Mariano; Nemeth, Edward F.; Martin, David P.

doi:10.1152/ajprenal.00302.2004

Cited by 160 publications

(112 citation statements)

References 143 publications

(153 reference statements)

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“…Cinacalcet (13) and NPS-2143 (14) were chemically synthesized by methods described in the literature, and their activity was determined using HEK-293 cells that were transiently transformed with the human CaSR (hCaSR). All other reagents were a special purity grade purchased from Sigma-Aldrich Japan.…”

Section: Methodsmentioning

confidence: 99%

“…The total RNA was isolated from the epithelial papillae and from the epithelium without taste buds (RNA micro kit, Stratagene). The purified RNA was denatured at 60°C for 5 min, and first-strand cDNA was synthesized at 50°C for 60 min using oligo(dT) [12][13][14][15][16][17][18] primer and reverse transcriptase (SuperScript III, Invitrogen) in a final volume of 20 l. After synthesizing the cDNA, 1 l of cDNA was used as a template in 20 l of PCR mixture with Taq polymerase (Invitrogen). The PCR conditions were as follows: 94°C for 2 min and 29 -35 cycles at 94°C for 30 s, 58°C for 20 s, and 72°C for 45 s. The PCR products were analyzed by gel electrophoresis (2% agarose gel) with GelRed staining (Biotium).…”

Section: Reverse Transcription (Rt)-pcr Analyses Of Mrna Extract Of Mmentioning

confidence: 99%

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Involvement of the Calcium-sensing Receptor in Human Taste Perception

Ohsu

Amino

Nagasaki

et al. 2010

Journal of Biological Chemistry

280

287

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By human sensory analyses, we found that various extracellular calcium-sensing receptor (CaSR) agonists enhance sweet, salty, and umami tastes, although they have no taste themselves. These characteristics are known as "kokumi taste" and often appear in traditional Japanese cuisine. Although GSH is a typical kokumi taste substance (taste enhancer), its mode of action is poorly understood. Here, we demonstrate how the kokumi taste is enhanced by the CaSR, a close relative of the class C G-protein-coupled receptors T1R1, T1R2, and T1R3 (sweet and umami receptors). We identified a large number of CaSR agonist ␥-glutamyl peptides, including GSH (␥-Glu-Cys-Gly) and ␥-Glu-Val-Gly, and showed that these peptides elicit the kokumi taste. Further analyses revealed that some known CaSR agonists such as Ca 2؉ , protamine, polylysine, L-histidine, and cinacalcet (a calcium-mimetic drug) also elicit the kokumi taste and that the CaSR-specific antagonist, NPS-2143, significantly suppresses the kokumi taste. This is the first report indicating a distinct function of the CaSR in human taste perception.

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Section: Methodsmentioning

confidence: 99%

Section: Reverse Transcription (Rt)-pcr Analyses Of Mrna Extract Of Mmentioning

confidence: 99%

Involvement of the Calcium-sensing Receptor in Human Taste Perception

Ohsu

Amino

Nagasaki

et al. 2010

Journal of Biological Chemistry

280

287

View full text Add to dashboard Cite

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“…The dose of phosphorus was equivalent to approximately one-third of the daily phosphorus intake of rats. The dose of CIN was determined based on the previous studies (16,17), which showed that oral CIN administration at 30 mg/kg substantially decreased serum levels of intact PTH until 12 or 24 h after administration in normal rats. The dose of hPTH (1-34) was determined based on the study of Li et al (18), which reported that normal rats receiving subcutaneous injection of hPTH (1-34) at 80 mg/ kg showed approximately 50 pg/mL of serum hPTH (1-34) levels at 1 h after injection.…”

Section: Methodsmentioning

confidence: 99%

Oral Phosphorus Supplementation Secondarily Increases Circulating Fibroblast Growth Factor 23 Levels at Least Partially via Stimulation of Parathyroid Hormone Secretion

Takasugi

Akutsu

Nagata

2014

J Nutr Sci Vitaminol

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Phosphorus is an essential nutrient for many biological functions, including cellular signal transduction, mineral metabolism, and energy exchange. On the other hand, a relatively high serum phosphorus level is reportedly a risk factor for cardiovascular disease (1, 2) because inorganic phosphates have been shown to stimulate differentiation of vascular smooth muscle cells into calcifying vascular cells (3). Therefore, serum phosphorus regulation may help to prevent cardiovascular diseases.Fibroblast growth factor 23 (FGF23) is a bone-derived hormone that plays a regulatory role in phosphorus homeostasis. FGF23 has been shown to reduce serum phosphorus levels by inhibition of proximal tubular phosphorus reabsorption through decreased expression of types 2a and 2c sodium-phosphate cotransporters and by decreasing intestinal phosphorus absorption through inhibiting calcitriol synthesis in the kidney (4). Moreover, FGF23-null mice were shown to exhibit severe vascular calcification with concomitant hyperphosphatemia (5). These facts suggest that FGF23 may have a protective effect on vascular calcification by hyperphosphatemia suppression. In contrast, several hemodialysis studies reported that elevated FGF23 levels were associated with aortic calcification (6) and mortality (7, 8) independent of serum phosphorus levels. Elevated serum FGF23 levels, even within the normal range, are reportedly associated with increased left ventricular mass index and increased risk for the presence of left ventricular hypertrophy in elderly subjects (9). Furthermore, a recent study suggested that elevated FGF23 levels contributed directly to high rates of left ventricular hypertrophy and mortality in individuals with chronic kidney diseases (10). Thus, FGF23 regulation may also play a clinically significant role in the prevention of cardiovascular diseases.Oral phosphorus supplementation is known to stimulate FGF23 secretion, although the underlying mechanism has not been clarified. In our preliminary study, we found that plasma FGF23 levels in rats increased after oral phosphorus administration at a physiological dose; however, this increase slowly began around the time that plasma phosphorus levels had decreased (unpublished data). Based on these findings, we reasoned that oral phosphorus supplementation may secondarily increase FGF23 secretion. Parathyroid hormone (PTH) is also secreted in response to phosphorus administration (11) and subsequently increases urinary phosphorus excre- Note Oral Phosphorus Supplementation Secondarily Increases Circulating Fibroblast Growth Factor 23 Levels at Least Partially via Stimulation of Parathyroid Hormone SecretionSatoshi Takasugi, Miho Akutsu and Masashi Nagata Food Science Research Laboratories, Division of Research and Development, Meiji Co., Ltd., 540 Naruda, Odawara, Kanagawa 250-0862, Japan (Received August 20, 2013) Summary Oral phosphorus supplementation stimulates fibroblast growth factor 23 (FGF23) secretion; however, the underlying mechanism remains unclear. The aim of this ...

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“…In clinical disorders such as CKD, vitamin D deficiency, and primary hyperparathyroidism, an increase in parathyroid gland mass from hyperplasia in the former two disorders or an adenoma in most cases of primary hyperparathyroidism is associated with increases in the maximal PTH response to hypocalcemia (18,19,30,33,67). In CKD, calcitriol and its analogs decrease PTH transcription and upregulate vitamin D receptors (68); therefore, it is not surprising that prolonged calcitriol treatment in CKD often results in a reduction in maximal PTH values (69,70). Moreover, treatment with calcitriol besides reducing iPTH values may enhance the intraglandular degradation of iPTH (71).…”

Section: Maximal Pthmentioning

confidence: 99%

Dynamics of Parathyroid Hormone Secretion in Health and Secondary Hyperparathyroidism

Felsenfeld

Rodríguez

Aguilera–Tejero

2007

Clinical Journal of the American Society of Nephrology

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This review examines the dynamics of parathyroid hormone secretion in health and in various causes of secondary hyperparathyroidism. Although most studies of parathyroid hormone and calcium have focused on the modification of parathyroid hormone secretion by serum calcium, the relationship between parathyroid hormone and serum calcium is bifunctional because parathyroid hormone also modifies serum calcium. In normal animals and humans, factors such as phosphorus and vitamin D modify the basal parathyroid hormone level and the maximal parathyroid hormone response to hypocalcemia. Certain medications, such as lithium and estrogen, in normal individuals and sustained changes in the serum calcium concentration in hemodialysis patients change the set point of calcium, which reflects the serum calcium concentration at which parathyroid hormone secretion responds. Hypocalcemia increases the basal/maximal parathyroid hormone ratio, a measure of the relative degree of parathyroid hormone stimulation. The phenomenon of hysteresis, defined as a different parathyroid hormone value for the same serum calcium concentration during the induction of and recovery from hypo-and hypercalcemia, is discussed because it provides important insights into factors that affect parathyroid hormone secretion. In three causes of secondary hyperparathyroidism-chronic kidney disease, vitamin D deficiency, and aging-factors that affect the dynamics of parathyroid hormone secretion are evaluated in detail. During recovery from vitamin D deficiency, the maximal parathyroid hormone remains elevated while the basal parathyroid hormone value rapidly becomes normal because of a shift in the set point of calcium. Much remains to be learned about the dynamics of parathyroid hormone secretion in health and secondary hyperparathyroidism. T his review examines the dynamics of parathyroid hormone (PTH) secretion in health and in various causes of secondary hyperparathyroidism with an emphasis on chronic kidney disease (CKD). For better understanding of factors that affect PTH secretion, the PTH-calcium relationship is evaluated with respect to (1) PTH secretion in the baseline state (basal PTH) and its sensitivity to the serum calcium concentration; (2) the maximal PTH response to hypocalcemia and factors that have been reported to modify the maximal PTH response to hypocalcemia; (3) shifts in the set point of calcium for PTH secretion in normal individuals as a result of treatment with medications such as lithium and estrogen and in hemodialysis patients during sustained changes in the serum calcium concentration; (4) the dynamics of PTH secretion in the secondary hyperparathyroidism of CKD, vitamin D deficiency, and aging; and (5) the phenomenon of hysteresis, defined as a different PTH value for the same serum calcium concentration during the induction of and recovery from both hypo-and hypercalcemia. A focus on hysteresis is justified because it provides important insights into how PTH secretion is modified by rate and directional changes in the serum c...

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The calcium-sensing receptor: a key factor in the pathogenesis of secondary hyperparathyroidism

Cited by 160 publications

References 143 publications

Involvement of the Calcium-sensing Receptor in Human Taste Perception

Involvement of the Calcium-sensing Receptor in Human Taste Perception

Oral Phosphorus Supplementation Secondarily Increases Circulating Fibroblast Growth Factor 23 Levels at Least Partially via Stimulation of Parathyroid Hormone Secretion

Dynamics of Parathyroid Hormone Secretion in Health and Secondary Hyperparathyroidism

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