Takayo Miyakogawa scite author profile

Background/Aims: Previous studies reported a reduction in parathyroid gland volume during treatment with cinacalcet in patients with secondary hyperparathyroidism (SHPT). However, it remains to be determined whether cinacalcet accelerates apoptosis of hyperplastic parathyroid cells in these patients. Methods: The study subjects were 16 hemodialysis patients who had undergone parathyroidectomy for severe SHPT. We compared the expression of the apoptotic marker TUNEL and the proliferative marker Ki67 by immunohistochemistry and the expression of CYP27B1 by quantitative real-time PCR in hyperplastic parathyroid glands from patients treated with cinacalcet (cinacalcet group; n = 8) and those not treated with cinacalcet (non-cinacalcet group; n = 8). We also examined the effect of cinacalcet on parathyroid cell death in in vitro cell culture with TUNEL staining, using parathyroid cells from SHPT patients. Results: Compared with the non-cinacalcet group, the expression of TUNEL was significantly increased but was accompanied with significantly increased Ki67 expression in the parathyroid glands from the cinacalcet group. In vitro examination showed dose- and time-dependent increases of apoptotic cells by adding cinacalcet into culture medium. We also found that the expression of CYP27B1 showed a three-fold increase in glands from the cinacalcet group compared to that of the non-cinacalcet group. Conclusion: Our data suggest that cinacalcet induces apoptosis of human parathyroid cells, but this effect may be overcome by more aggressive proliferation of parathyroid cells in patients with severe, cinacalcet-resistant SHPT.

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Effect of Scavenging Circulating Reactive Carbonyls by Oral Pyridoxamine in Uremic Rats on Peritoneal Dialysis

Mori

Kakuta

Miyakogawa

et al. 2016

Ther Apher Dial

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Pyridoxamine, a reactive carbonyl (RCO) scavenger, can ameliorate peritoneal deterioration in uremic peritoneal dialysis (PD) rats when given via dialysate. We examined the effects of scavenging circulating RCOs by oral pyridoxamine. Rats underwent nephrectomy and 3 weeks of twice daily PD either alone or with once daily oral pyridoxamine. PD solution was supplemented with methylglyoxal, a major glucose-derived RCO, to quench intraperitoneal pyridoxamine. Oral pyridoxamine achieved comparable blood and dialysate pyridoxamine concentrations, suppressed pentosidine accumulation in the blood but not in the mesenterium or dialysate, and reduced the increases in small solute transport and mesenteric vessel densities, with no effects on submesothelial matrix layer thickening or serum creatinine. Thus, reducing circulating RCOs by giving oral pyridoxamine with PD provides limited peritoneal protection. However, orally given pyridoxamine efficiently reaches the peritoneal cavity and would eliminate intraperitoneal RCOs. Oral pyridoxamine is more clinically favorable and may be as protective as intraperitoneal administration.

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Feasibility of photodynamic therapy for secondary hyperparathyroidism in chronic renal failure rats

et al. 2016

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Parathyroid hormone-producing cells exist in adipose tissues surrounding the parathyroid glands in hemodialysis patients with secondary hyperparathyroidism

Kakuta

Sawada

Kanai

et al. 2020

Sci Rep

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possible ectopic parathyroid hormone (ptH) production in adipose tissues surrounding hyperplastic parathyroid glands was examined in patients with secondary hyperparathyroidism (SHpt). In vitro culture of adipose tissues from 31 patients excised during parathyroidectomy showed PTH secretion in 23 (74.2%) patients. In vitro ptH secretion was detected in adipose tissues adhered to the parathyroid glands from 22 (71.0%) patients, in not-adhered adipose from 11 (35.5%) and in the thymus from four (28.6%) patients. Immunohistochemistry revealed colonies of PTH-and GCM2-positive cells intricately intertwined with adipocytes in excised adipose tissues prior to culture. When pieces of parathyroid parenchyma from SHPT patients were transplanted into the thyroid of immunodeficient nude rats with induced SHPT, the transplants secreted human PTH for one to three-and-half months after transplantation and expressed adipocyte markers, PPARγ2 and perilipin A, that the transplants did not express prior to transplantation. These findings indicate the importance of thoroughly removing adipose tissues surrounding the parathyroid glands when performing parathyroidectomy. We speculate that these ectopic ptH-producing cells are parathyroid parenchymal cells pushed out from the glands along with adipocyte progenitors during nodular growth of hyperplastic parenchymal cells and that these cells proliferate in SHPT, forming colonies PTH-producing cells intricately intertwined with adipocytes.

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