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ABSTRACT: Cinacalcet HCl (cinacalcet) is a calcimimetic compound, which suppresses parathyroid (PTH) hormone secretion from parathyroid glands in both primary hyperparathyroidism (PHPT) and secondary hyperparathyroidism (SHPT). We previously reported the suppressive effect of cinacalcet on PTH secretion in vivo in a PHPT model mouse, in which parathyroid-targeted overexpression of the cyclin D1 oncogene caused chronic biochemical hyperparathyroidism and parathyroid cell hyperplasia. Although cinacalcet suppressed parathyroid cell proliferation in SHPT in 5/6-nephrectomized uremic rats, its effect on PHPT has not yet been determined. In this study, the effect of cinacalcet on parathyroid cell proliferation was analyzed in PHPT mice. Cinacalcet (1 mg/g) was mixed into the rodent diet and orally administrated to 80-week-old PHPT mice for 10 days before death. 5-Bromo-2'-deoxyuridine (BrdU, 6 mg/day) was infused by an osmotic pump for 5 days before death, followed by immunostaining of the thyroid-parathyroid complex using an anti-BrdU antibody to estimate parathyroid cell proliferation. Compared to untreated PHPT mice, cinacalcet significantly suppressed both serum calcium and PTH. The proportion of BrdU-positive cells to the total cell number in the parathyroid glands increased considerably in untreated PHPT mice (9.5 ± 3.1%) compared to wild-type mice (0.7 ± 0.1%) and was significantly suppressed by cinacalcet (1.2 ± 0.2%). Cinacalcet did not affect apoptosis in the parathyroid cells of PHPT mice. These data suggest that cinacalcet suppressed both serum PTH levels and parathyroid cell proliferation in vivo in PHPT.
Calcified Tissue International 07/2011; 89(1):29-35. · 2.38 Impact Factor
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Yukiko Aono,
Yuji Yamazaki,
Junichi Yasutake,
Takehisa Kawata,
Hisashi Hasegawa,
Itaru Urakawa,
Toshiro Fujita, Michihito Wada,
Takeyoshi Yamashita,
Seiji Fukumoto,
Takashi Shimada
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ABSTRACT: X-linked hypophosphatemia (XLH), characterized by renal phosphate wasting, is the most common cause of vitamin D-resistant rickets. It has been postulated that some phosphaturic factor plays a causative role in XLH and its murine homolog, the Hyp mouse. Fibroblast growth factor 23 (FGF23) is a physiological phosphaturic factor; its circulatory level is known to be high in most patients with XLH and Hyp mice, suggesting its pathophysiological role in this disease. To test this hypothesis, we treated Hyp mice with anti-FGF23 antibodies to inhibit endogenous FGF23 action. A single injection of the antibodies corrected the hypophosphatemia and inappropriately normal serum 1,25-dihydroxyvitamin D. These effects were accompanied by increased expressions of type IIa sodium-phosphate cotransporter and 25-hydroxyvitamin-D-1alpha-hydroxylase and a suppressed expression of 24-hydroxylase in the kidney. Repeated injections during the growth period ameliorated the rachitic bone phenotypes typically observed in Hyp mice, such as impaired longitudinal elongation, defective mineralization, and abnormal cartilage development. Thus, these results indicate that excess actions of FGF23 underlie hypophosphatemic rickets in Hyp mice and suggest a novel therapeutic potential of the FGF23 antibodies for XLH.
Journal of bone and mineral research: the official journal of the American Society for Bone and Mineral Research 06/2009; 24(11):1879-88. · 6.04 Impact Factor
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Folia Pharmacologica Japonica 12/2008; 132(5):301-8.
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ABSTRACT: High serum parathyroid hormone levels are associated with vascular calcification. Cinacalcet is a calcimimetic agent that inhibits parathyroid hormone secretion and is used to treat patients with secondary hyperparathyroidism. Here we measured the effects of oral cinacalcet on calcification of the aorta and heart in rats with a remnant kidney (5/6 nephrectomy) model of uremia that were fed a high-phosphate diet containing lactose to accelerate the process of aortic calcification. Alizarin red staining showed that the smooth muscle in the aortic arch of rats with a remnant kidney was calcified. The tissue levels of calcium and phosphorus in the aorta and hearts of these rats were significantly increased compared to sham-operated rats. Expression of the osteoblastic lineage genes osteocalcin, osteopontin and runt-related gene 2 were also increased in the aorta of these rats. Cinacalcet suppressed these calcification-related changes by reducing serum parathyroid hormone, calcium, phosphorus, and the calcium-phosphorus product. Parathyroidectomy also suppressed calcification in this model. We suggest that cinacalcet inhibits calcification of the aorta and heart in uremic patients with secondary hyperparathyroidism by decreasing serum parathyroid hormone levels.
Kidney International 09/2008; 74(10):1270-7. · 6.61 Impact Factor
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ABSTRACT: Dietary phosphate restriction suppresses parathyroid hormone (PTH) secretion, synthesis, and parathyroid cell proliferation in experimental animals with chronic renal insufficiency (CRI), independently of serum calcium and 1,25(OH)2D3 levels. This study was conducted to examine whether sevelamer hydrochloride (sevelamer), a metal-free phosphate binder, could regress an advanced parathyroid gland (PTG) hyperplasia and enlargement in rats with CRI.
Male Sprague-Dawley rats were fed a diet containing adenine for 6 weeks to establish CRI. Normal rats and adenine-treated rats were sacrificed to obtain the PTG (baseline group). The adenine diet was changed to a normal diet or diet containing 1 or 3% sevelamer for another 4 weeks. Time course changes of serum levels of calcium, phosphorus, and PTH were measured. At the end of the study, the PTG was weighed and examined histologically.
Adenine-treated rats developed severe CRI with marked elevation of serum phosphorus and PTH. The PTG weight markedly increased with enlarged cell volume (i.e. cell hypertrophy) at baseline. Sevelamer treatment rapidly lowered serum phosphorus and PTH levels within 6 days, and after 4 weeks, reduced the PTG weight by 38% compared to adenine-treated rats at baseline. The reduction in PTG weight was due to regression of cell hypertrophy, but not to decreased cell number by apoptosis. Decreased expression of calcium receptor in the PTG at baseline was partially recovered by the sevelamer treatment.
The sevelamer treatment can reduce the PTG weight with a reduction in serum PTH levels via regression of cell hypertrophy but not apoptosis in rats with CRI. Reduced PTG function might contribute to the regression of cell hypertrophy.
Nephrology Dialysis Transplantation 04/2006; 21(3):634-43. · 3.40 Impact Factor
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Takehisa Kawata,
Yasuo Imanishi,
Keisuke Kobayashi,
Naoyoshi Onoda,
Senji Okuno,
Yoshiaki Takemoto,
Takeshi Komo,
Hideki Tahara, Michihito Wada,
Nobuo Nagano,
Eiji Ishimura,
Takami Miki,
Tetsuro Ishikawa,
Masaaki Inaba,
Yoshiki Nishizawa
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ABSTRACT: Clinical studies have been performed to determine the effect of cinacalcet HCl (cinacalcet), an allosteric modulator of the calcium-sensing receptor (CaR), on primary hyperparathyroidism (PHPT) and secondary hyperparathyroidism of uremia (SHPT). However, no in vitro studies on human parathyroid cells have been reported to date. In this study, the inhibitory effect of cinacalcet on PTH secretion was analyzed in primary cultured parathyroid cells obtained from patients. The investigation involved three PHPT and three SHPT patients subjected to therapeutic parathyroidectomy. Notably, all SHPT patients were resistant to intravenous vitamin D analogue therapy. Removed parathyroid tumors were used for immunohistochemistry and parathyroid cell primary culture. Immunohistochemical analyses revealed diminished expression of CaR and vitamin D receptor (VDR) in all parathyroid tumors. PTH secretion from cultured parathyroid cells of PHPT and SHPT patients was suppressed by extracellular Ca2+ and cinacalcet in a dose-dependent manner. Rates of suppression of PTH secretion in PHPT and SHPT by cinacalcet (1000 nmol/l) were 61% +/- 21% and 61% +/- 19%, respectively. Cinacalcet demonstrates significant potency in the suppression of PTH secretion in primary cultured human parathyroid cells in vitro, despite reduced levels of the target protein, CaR. Data from this in vitro analysis support the clinical application of cinacalcet in PHPT and SHPT therapy.
Journal of Bone and Mineral Metabolism 02/2006; 24(4):300-6. · 2.27 Impact Factor
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Takehisa Kawata,
Yasuo Imanishi,
Keisuke Kobayashi,
Takao Kenko, Michihito Wada,
Eiji Ishimura,
Takami Miki,
Nobuo Nagano,
Masaaki Inaba,
Andrew Arnold,
Yoshiki Nishizawa
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ABSTRACT: Cinacalcet HCl, an allosteric modulator of the calcium-sensing receptor (CaR), has recently been approved for the treatment of secondary hyperparathyroidism in patients with chronic kidney disease on dialysis, due to its suppressive effect on parathyroid hormone (PTH) secretion. Although cinacalcet's effects in patients with primary and secondary hyperparathyroidism have been reported, the crucial relationship between the effect of calcimimetics and CaR expression on the parathyroid glands requires better understanding. To investigate its suppressive effect on PTH secretion in primary hyperparathyroidism, in which hypercalcemia may already have stimulated considerable CaR activity, we investigated the effect of cinacalcet HCl on PTH-cyclin D1 transgenic mice (PC2 mice), a model of primary hyperparathyroidism with hypo-expression of CaR on their parathyroid glands. A single administration of 30 mg/kg body weight (BW) of cinacalcet HCl significantly suppressed serum calcium (Ca) levels 2 h after administration in 65- to 85-week-old PC2 mice with chronic biochemical hyperparathyroidism. The percentage reduction in serum PTH was significantly correlated with CaR hypo-expression in the parathyroid glands. In older PC2 mice (93-99 weeks old) with advanced hyperparathyroidism, serum Ca and PTH levels were not suppressed by 30 mg cinacalcet HCl/kg. However, serum Ca and PTH levels were significantly suppressed by 100 mg/kg of cinacalcet HCl, suggesting that higher doses of this compound could overcome severe hyperparathyroidism. To conclude, cinacalcet HCl demonstrated potency in a murine model of primary hyperparathyroidism in spite of any presumed endogenous CaR activation by hypercalcemia and hypo-expression of CaR in the parathyroid glands.
European Journal of Endocrinology 11/2005; 153(4):587-94. · 3.42 Impact Factor
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ABSTRACT: Phosphorus directly controls parathyroid hormone (PTH) synthesis and secretion. Serum levels of the novel phosphate-regulating hormone, fibroblast growth factor 23 (FGF23), are positively correlated with hyperphosphatemia in patients with chronic kidney disease (CKD). Rats were fed a diet containing adenine for 4 weeks to establish CKD. Animals were then offered a diet containing sevelamer hydrochloride (sevelamer) or a normal diet for alternating 2 week periods over 8 weeks. Adenine-treated rats showed marked elevations of serum phosphorus, PTH and FGF23 levels associated with parathyroid hyperplasia and aortic calcification. Serum phosphorus, PTH and FGF23 levels decreased rapidly when sevelamer treatments commenced and recovered rapidly once they were discontinued. However, intermittent treatment with sevelamer successfully inhibited parathyroid hyperplasia and aortic calcification. In conclusion, phosphate-binder treatment can effectively inhibit the elevation of serum FGF23 levels, as well as PTH levels, under conditions of CKD. Setting up a period of reduced serum phosphorus levels, even if it is intermittent, is worthwhile for the inhibition of the development of parathyroid hyperplasia and aortic calcification.
Clinical calcium 10/2005; 15 Suppl 1:35-9; discussion 39-40.
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ABSTRACT: Secondary hyperparathyroidism (HPT) in chronic kidney disease (CKD) is a physiologic response to kidney failure characterized by elevated serum parathyroid hormone (PTH) levels and parathyroid gland enlargement. Calcimimetic agents acting through allosteric modification of the calcium-sensing receptor (CaR) can attenuate parathyroid hyperplasia in rats with secondary HPT. The present study explores the effects of the calcimimetic cinacalcet HCl on parathyroid hyperplasia, apoptosis, and PTH secretion in a rat model of secondary HPT.
Cinacalcet HCl was gavaged daily (1, 5, or 10 mg/kg) for 4 weeks starting 6 weeks post-5/6 nephrectomy. After dosing, hyperplasia was determined using parathyroid weight and proliferating cell nuclear antigen (PCNA) immunochemistry. Apoptosis was determined using in situ techniques. Serum PTH((1-34)) and blood chemistries were determined throughout the course of the study.
Administration of cinacalcet HCl (5 or 10 mg/kg) significantly reduced the number of PCNA-positive cells and decreased parathyroid weight compared with vehicle-treated 5/6 nephrectomized rats. There was no difference in apoptosis from cinacalcet HCl-treated or vehicle-treated animals. Serum PTH and blood ionized calcium levels decreased in cinacalcet HCl-treated animals compared with vehicle-treated controls.
The results confirm previous work demonstrating that calcimimetic agents attenuate the progression of parathyroid hyperplasia in subtotally nephrectomized rats, extending earlier observations to now include cinacalcet HCl. These results support a role for the CaR in regulating parathyroid cell proliferation. Therefore, cinacalcet HCl may represent a novel therapy for improving the management of secondary HPT.
Kidney International 03/2005; 67(2):467-76. · 6.61 Impact Factor
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ABSTRACT: Dietary phosphate restriction prevents renal function deterioration in animal models. This study examined whether sevelamer hydrochloride (Renagel(R); 'sevelamer' hereafter), a non-calcaemic phosphate binder could slow deterioration of renal function in rats with progressive renal insufficiency.
Wistar Kyoto male rats were singly injected with normal rabbit serum or rabbit anti-rat glomerular basement membrane serum. Three days later, rats were fed a powder diet containing 0, 1 or 3% sevelamer for 58 days. Time course changes of serum levels of blood urea nitrogen (BUN), creatinine, calcium, phosphorus and parathyroid hormone (PTH) were measured throughout, and creatinine clearance (CCr), kidney calcium content and renal histology examined at the end of the study.
Sevelamer partially inhibited elevation of BUN and serum creatinine, and completely inhibited increases in serum phosphorus, PTH and calcium xphosphorus product. Sevelamer significantly prevented the decrease in CCr and kidney calcium content elevation. Kidney calcium content and BUN and serum creatinine were strongly positively correlated, and kidney calcium content and CCr strongly negatively correlated. Kidney calcium content correlated well with serum phosphorus, serum calcium x phosphorus product and PTH, but not serum calcium. Sevelamer treatment partly prevented histological deterioration of both glomerular and tubulointerstitial lesions of the kidney.
The results suggest that sevelamer protects against renal function deterioration by maintaining kidney calcium at a low level as a result of reducing serum phosphorus and PTH.
Nephrology Dialysis Transplantation 11/2003; 18(10):2014-23. · 3.40 Impact Factor
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ABSTRACT: Parathyroid cell hyperplasia is commonly observed in patients with chronic renal insufficiency and largely accounts for refractory secondary hyperparathyroidism. Calcimimetics are newly synthesized compounds that activate a calcium receptor on the parathyroid cell and can suppress parathyroid hormone secretion. The calcimimetic compound AMG 073 has been examined in clinical trials, and the data obtained so far demonstrate that the compound can lower the circulating levels of parathyroid hormone and calcium-phosphorus product in patients with secondary hyperparathyroidism. Furthermore, experimental evidence indicates that calcimimetics have the potential to inhibit parathyroid cell proliferation and block the progression of parathyroid hyperplasia. These beneficial effects, especially the potential to control parathyroid cell proliferation, would place calcimimetics among the essential therapeutic agents for treating secondary hyperparathyroidism.
Nephrology Dialysis Transplantation 07/2003; 18 Suppl 3:iii13-7. · 3.40 Impact Factor
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ABSTRACT: Secondary hyperparathyroidism characterized by hyperplasia of the parathyroid gland (PTG) is a consequence of chronic renal insufficiency (CRI). Dietary phosphate restriction and sevelamer hydrochloride, a calcium-free phosphate binder, suppress parathyroid hormone (PTH) secretion and PTG hyperplasia in experimental animals with CRI, independently of serum calcium and 1,25(OH)(2)D(3) concentrations. In the present study, the effect of sevelamer on PTG cell proliferation in rats with CRI was investigated.
Seven weeks after a 5/6 nephrectomy, rats were fed a diet containing 0, 1 or 3% sevelamer for 4 weeks, and sham-operated rats were fed a normal diet. Serum calcium, phosphorus, PTH and 1,25(OH)(2)D(3) concentrations were measured. The number of cells positive for proliferating cell nuclear antigen (PCNA) in the maximal two-dimensional PTG area was counted at the end of study.
Sevelamer inhibited increases in serum phosphorus, calcium-phosphorus product and PTH concentrations without affecting serum calcium or 1,25(OH)(2)D(3). Sevelamer also suppressed the maximal PTG area and PCNA-positive cells. There was also a strong correlation between the maximal PTG area and serum PTH concentration, and between PCNA-positive cells and the maximal PTG area, as well as between serum phosphorus concentration and PCNA-positive cells.
These results indicate that sevelamer treatment reduces serum phosphorus concentration and could inhibit PTG cell proliferation and prevent PTG hyperplasia.
Nephrology Dialysis Transplantation 07/2003; 18 Suppl 3:iii81-5. · 3.40 Impact Factor
