Your search keyword '"T. Ohta"' showing total 5 results

1. A novel enhancer of insulinotrophic action by high glucose (JTT-608) stimulates insulin secretion from pancreatic beta-cells via a new cellular mechanism.

Author

N, Itabashi, K, Okada, S, Muto, N, Fujita, T, Ohta, Ji, Miyazaki, Y, Asano, and T, Saito

Abstract

Insulin secretion from MIN6 cells (a pancreatic beta-cell line) induced by high glucose (greater than 16.8 mM) was potentiated by a novel hypoglycemic agent [trans-4-(4-methylcyclohexyl)-4-oxobutyric acid (JTT-608)] (but not glibenclamide, a sulfonylurea). The extracellular Ca(2+)-free condition, a L-type Ca(2+) channel blocker (nifedipine) and an ATP-sensitive K(+) channel opener, diazoxide, completely inhibited increases in cytosolic free Ca(2+) ([Ca(2+)]i) and insulin secretion evoked by JTT-608 in the presence of extracellular Ca(2+). An electrophysiological study using single-barreled microelectrode techniques demonstrated that membrane potential (V(m)) and input resistance of the cell membrane (R(i)) are depolarized and increased by JTT-608, respectively. The apparent transference number for K(+) was also significantly decreased after the addition of JTT-608. These effects immediately occurred after addition of JTT-608 and very rapidly disappeared after removal of JTT-608, which has not been observed in sulfonylureas. Also, these effects of JTT-608 were diminished, but not completely by diazoxide. JTT-608 did not affect the specific binding of [(3)H]glibenclamide to the sulfonylurea receptor. These findings suggest that JTT-608 mainly inhibits ATP-sensitive K(+) channel activity via a binding site distinct from the sulfonylurea receptor and then depolarizes V(m) to open voltage-dependent L-type Ca(2+) channels. Subsequently, these events stimulate Ca(2+) entry to increase [Ca(2+)]i and induce insulin secretion from MIN6 cells. Therefore, JTT-608 is a unique hypoglycemic agent that enhances high glucose-induced insulin secretion. The present findings indicate that JTT-608 is a more useful new class of therapeutic drug for patients with non-insulin-dependent diabetes mellitus, compared with sulfonylurea derivatives.

Published

2001

2. Scabronine G-methylester enhances secretion of neurotrophic factors mediated by an activation of protein kinase C-zeta.

Author

Y, Obara, H, Kobayashi, T, Ohta, Y, Ohizumi, and N, Nakahata

Abstract

Glial cells release neurotrophic factors that maintain neurons functionally. Previously, we have shown that the scabronines isolated from Sarcodon scabrosus enhanced the secretion of neurotrophic factors from 1321N1 human astrocytoma cells. In the present study, we examined the mechanism of newly synthesized scabronine G-methylester (ME)-induced secretion of neurotrophic factors from 1321N1 cells. The dramatic neuronal differentiation of rat pheochromocytoma cells (PC-12) was observed by scabronine G-ME-conditioned medium of 1321N1 cells. Scabronine G-ME increased the secretion of nerve growth factor (NGF) and interleukin-6 (IL-6) from 1321N1 cells with the enhancement of their mRNA expressions. Scabronine G-ME concentration-dependently inhibited the carbachol-induced inositol phosphate accumulation in 1321N1 cells, which was reversed by GF109203X, an inhibitor of protein kinase C (PKC) isoforms. Furthermore, GF109203X inhibited the scabronine G-ME-induced mRNA expressions of both NGF and IL-6 and the differentiation of PC-12 cells, showing that scabronine G-ME activated PKC. Although scabronine G-ME enhanced activities of neither conventional nor novel types of PKCs, it translocated PKC-zeta to membranes in intact cells and cell-free condition. Furthermore, recombinant PKC-zeta activity was also increased by scabronine G-ME, suggesting the involvement of PKC-zeta in the effect of scabronine G-ME. Concerning the downstream effectors of the PKC-zeta, scabronine G-ME translocated nuclear factor-kappaB to nucleus, and enhanced its transcriptional activity. In addition, scabronine G-ME caused the degradation of inhibitor of nuclear factor-kappaB concentration-dependently, which was inhibited by GF109203X. These results suggest that scabronine G-ME potentially enhances the secretion of neurotrophic factors from 1321N1 cells mediated via the activation of PKC-zeta.

Published

2001

3. Role of furanocoumarin derivatives on grapefruit juice-mediated inhibition of human CYP3A activity.

Author

Q, Guo L, K, Fukuda, T, Ohta, and Y, Yamazoe

Abstract

With juices of grapefruit and related fruits, possible relationships between contents of six different furanocoumarins and extents of inhibition of microsomal CYP3A activity have been studied in vitro. Microsomal CYP3A-mediated testosterone 6beta-hydroxylation was inhibited by the addition of a fruit juice (2.5%, v/v) from eight different grapefruit sources, two sweeties, three pomelos, and one sour orange, whereas no clear inhibition was observed with two sweet orange juices. The inhibitory component in grapefruit juice resides mainly in the precipitate rather than in the supernatant after centrifugation. Higher amounts of (R)-6',7'-dihydroxybergamottin (DHB) were distributed in the supernatant, whereas GF-I-1, GF-I-2, GF-I-4, and the newly isolated GF-I-5 and GF-I-6 were detected predominantly in the precipitate. Mixing of five representative furanocoumarins at their detectable levels in grapefruit juice reproduced roughly the inhibitory potencies of grapefruit juice, but omission of any of the components resulted in decreased potencies. These results suggested that all the major furanocoumarins contributed to the CYP3A inhibitory properties of grapefruit juice. Furthermore, all six furanocoumarins showed stronger CYP3A inhibitory potencies after preincubation in the presence of NADPH, suggesting that both competitive and mechanism-based inhibition occur in a grapefruit juices-drug interaction.

Published

2000

4. Effects of continuous alendronate treatment on bone mass and mechanical properties in ovariectomized rats: comparison with pamidronate and etidronate in growing rats.

Author

Y, Azuma, Y, Oue, H, Kanatani, T, Ohta, M, Kiyoki, and K, Komoriya

Abstract

Alendronate is a potent inhibitor of bone resorption. To investigate the relationship between antiresorptive activity and bone-related side effects, we studied the effect of 2 months of daily alendronate (0.04, 0.2, 1.0 or 5.0 mg/kg/day) treatment on the strength of the femoral shaft and neck and on the bone mass of ovariectomized rats. The p.o. administration regimen began immediately after ovariectomy at 6 weeks of age, and the results were compared with pamidronate (0.2, 1.0 or 5.0 mg/kg/day) or etidronate (5.0, 25.0 or 125.0 mg/kg/day) treatment. In the femoral epiphysis and neck, a preventive effect of alendronate on loss of bone mineral density was observed at the dose of 1.0 mg/kg. The alendronate-treated group did not show significant alteration of the breaking load or the cross-sectional shape of the femoral midshaft. Similar results were obtained in the femoral neck strength and femoral neck geometry. In histomorphometric analysis of tibial metaphyses, alendronate inhibited the ratio of osteoid volume to tissue volume and the mineral apposition rate at a dose of 0.2 mg/kg compared with the ovariectomized control. In contrast, etidronate tended to increase osteoid volume/bone volume at 125 mg/kg. From these results, we conclude that p.o. alendronate-treatment prevented the decrease in bone mineral density and maintained the mechanical properties of bone after ovariectomy without impairing of bone mineralization in growing rats.

Published

1998

5. A mitotic role for the DNA damage-responsive CHK2 kinase.

Author

Sato K, Ohta T, and Venkitaraman AR

Subjects

BRCA1 Protein, Cell Line, Checkpoint Kinase 2, DNA Damage, Humans, Neoplasms pathology, Protein Serine-Threonine Kinases deficiency, Spindle Apparatus metabolism, Mitosis, Protein Serine-Threonine Kinases physiology

Published

2010