Kazutoshi Mizunashi scite author profile

Omeprazole is an inhibitor of gastric H+,K(+)-ATPase. Although the major proton transport of osteoclast is mediated by a vacuolar-type H(+)-ATPase which is different from the gastric H+,K(+)-ATPase, in vitro studies have demonstrated that omeprazole inhibits bone resorption. In this study, the effect of omeprazole on bone resorption was evaluated in patients who had a history of gastric ulcer and were treated with maintenance doses of H2 blocker without any gastric complaints at the study time. H2-blocker administration was changed to omeprazole treatment in the study group and to no treatment in the control group. Urinary excretion of hydroxyproline and calcium decreased after omeprazole treatment in the study group. Serum intact PTH, alkaline phosphatase, osteocalcin, and tartrate-resistant acid phosphatase (TRAP) increased in this group. In the control group, there were not any changes in these parameters. The discrepancy between serum TRAP and urinary excretion of hydroxyproline and calcium in the study group was thought to be due to the suppression of bone resorption by omeprazole, which probably interfered the acidification at resorption lacunae and resulted in the inactivation of TRAP and other lysosomal enzymes. The results of our study suggest the possibility that the specific inhibitors of the osteoclastic proton pump (such as bafilomycins) will more effectively suppress bone resorption and be useful for the treatment of metabolic bone diseases with increased bone resorption.

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Plasma Chromogranin A in Pheochromocytoma, Primary Hyperparathyroidism and Pituitary Adenoma in Comparison with Catecholamine, Parathyroid Hormone and Pituitary Hormones.

Kimura

Miura

Noshiro

et al. 1997

Endocr J

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Plasma levels of chromogranin A (CgA) were measured by ELISA in 22 patients with pheochromocytoma (18 non-metastatic, 3 metastatic, and 1 mixed neuroendocrine-neural tumor), 9 patients with primary hyperparathyroidism, and 9 patients with pituitary adenoma. The plasma levels of CgA were compared with norepinephrine, epinephrine, parathyroid hormone and pituitary hormones, i.e., growth hormone and prolactin. In pheochromocytoma, CgA in preoperative plasma of the patients without metastasis was 228 +/- 38 U/L (mean +/- SEM) and significantly higher than healthy controls (30 +/- 11 U/L, n = 40). Plasma CgA was decreased after removal of the tumors (28 +/- 6.0 U/L), except in three patients with metastatic pheochromocytoma and a mixed neuroendocrine neural tumor. The concentration of CgA in the patients with non-metastatic pheochromocytoma was significantly correlated with that of plasma norepinephrine (P < 0.005, r = 0.68) and urinary norepinephrine (P < 0.05, r = 0.65), but not with that of epinephrine. There was an exceptional case in which CgA was extremely high, but the CA level was normal. This tumor was a highly malignant pheochromocytoma with extensive metastases composed of small tumor cells which were occasionally positive for tyrosine hydroxylase immunohistochemically. These cells were considered to be poorly differentiated tumor cells and synthesized a very small amount of norepinephrine. Plasma levels of the patients with primary hyperparathyroidism and the patients with pituitary adenoma were 44 +/- 4 U/L and 48 +/- 8 U/L, respectively. Only one patient with a growth hormone-producing pituitary adenoma had a high level of CgA. Plasma CgA is a useful tumor marker for pheochromocytoma, even for malignant pheochromocytoma without elevated CA level, but not for hyperparathyroidism, or pituitary adenoma.

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Plasma Levels of Parathyroid Hormone (1–84) Whole Molecule and Parathyroid Hormone (7–84)-Like Fragments in Pseudohypoparathyroidism Type I

Hatakeyama

Mizunashi²,

Furukawa

et al. 2003

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PTH (7-84) has antagonistic effects on the calcemic and phosphaturic actions of PTH (1-84) whole molecule (bioPTH). Human plasma contains bioPTH and PTH (7-84)-like fragments. Using bioPTH-specific and nonspecific assays, we found that the patients with pseudohypoparathyroidism (PHP) type I with PTH-resistant hypocalcemia and hyperphosphatemia had the increased plasma levels of bioPTH and PTH (7-84)-like fragments than normal subjects (26.8 +/- 13.2 vs. 2.37 +/- 0.75 pmol/liter, P < 0.01 and 16.2 +/- 8.8 vs. 0.82 +/- 0.47 pmol/liter, P < 0.01, respectively). Calcitriol treatment increased phosphaturic response to PTH (1-34) (P < 0.05), and there was a negative correlation between phosphaturic response and the PTH levels (P < 0.05). These results suggested that the increased bioPTH and PTH (7-84)-like fragment levels may be related to the impaired phosphaturic response to PTH (1-34) in PHP type I. We also examined bioPTH-calcium dynamics in PHP type Ib patients and found that set-point calcium was 0.928 +/- 0.045 mmol/liter and the baseline to maximal ratio of bioPTH was 0.96 +/- 0.04. Calcitriol treatment increased set-point calcium to 1.129 +/- 0.028 mmol/liter (P < 0.01) and suppressed baseline to maximal ratio of bioPTH to 0.35 +/- 0.21 (P < 0.01). These bio-PTH calcium dynamics studies revealed the maximally stimulated baseline PTH secretion in PHP type Ib and demonstrated the effects of calcitriol on PTH-calcium curve shift and the degree of relative stimulation of baseline secretion.

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Long-term observations of vertebral fractures in spinal osteoporotics

Itoi¹,

Sakurai²,

Mizunashi

et al. 1990

Calcif Tissue Int

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The changes in the number and distributions of vertebral fractures were studied from the long-term observations (average 7 years) of 21 spinal osteoporotic patients. Distribution of wedge fractures was biphasic with peak frequencies at the midthoracic and thoracolumbar spine. Biconcave fractures occurred predominantly in the lumbar spine. These patterns of distribution did not change during the period of observation. The rate of biconcave fracture increased, the rate of wedge fracture decreased, and that of collapse remained the constant in follow-up. The changes in the number of fractures were divided into three types: increasing, plateau, and unchanged type. With the advance of osteoporosis, the increasing type was considered to change into the plateau type, which is probably the terminal stage of spinal osteoporosis. The unchanged type, in contrast, was distinct from the other two types because of increased spinal bone mineral density and decreased urinary calcium, which suggests that spinal osteoporosis is heterogeneous with regard to calcium metabolism.

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Synaptotagmin I Expression in Mast Cells of Normal Human Tissues, Systemic Mast Cell Disease, and a Human Mast Cell Leukemia Cell Line

Kimura

Shiraishi²,

Mizunashi³

et al. 2001

J Histochem Cytochem.

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Synaptotagmin I (STG I) is a Ca(2+) sensor and one of the synaptic vesicle proteins that mediate exocytosis. To determine the mechanism of release of large granules from mast cells, we studied by immunohistochemistry the presence of STG I in mast cells in normal human tissues simultaneously with the mast cell markers mast cell tryptase (tryptase) and c-kit. The tumor cells of systemic mast cell disease (SMCD) and a human mast cell leukemia cell line (HMC-1) were also examined. Human mast cells in normal tissues and the tumor cells of SMCD expressed STG I as well as mast cell tryptase (tryptase) and c-kit. STG I mRNA and its products in HMC-1 were examined by RT-PCR analysis and immunocytochemistry, respectively. STG I expression in HMC-1 cells was compared with that in cells stimulated and non-stimulated by phorbol 12-myristate 13-acetate and also with that in NB-1 and PC12 cells, known to express STG I. STG I mRNA was detected in both non-stimulated and stimulated HMC-1 cells and in NB-1 and PC12 cells. STG I immunoreactivity was weaker than NB-1 or PC12 immunoreactivity. However, it increased in the stimulated HMC-1 cells. Mast cells expressed STG I in various states. STG I may mediate exocytosis of large granules in mast cells.

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