Your search keyword '"Takeuchi, Toshiyuki"' showing total 6 results

1. Cholesterol biosynthesis pathway intermediates and inhibitors regulate glucose-stimulated insulin secretion and secretory granule formation in pancreatic beta-cells.

Author

Tsuchiya M, Hosaka M, Moriguchi T, Zhang S, Suda M, Yokota-Hashimoto H, Shinozuka K, and Takeuchi T

Subjects

Animals, Anticholesteremic Agents pharmacology, Cell Membrane drug effects, Cell Membrane metabolism, Cells, Cultured, Cholesterol metabolism, Cholesterol physiology, Chromogranins pharmacology, Dose-Response Relationship, Drug, Insulin Secretion, Insulin-Secreting Cells metabolism, Lovastatin pharmacology, Metabolic Networks and Pathways drug effects, Metabolic Networks and Pathways physiology, Mevalonic Acid pharmacology, Mice, Rats, Rats, Wistar, Secretory Vesicles metabolism, Squalene pharmacology, Cholesterol biosynthesis, Enzyme Inhibitors pharmacology, Glucose pharmacology, Insulin metabolism, Insulin-Secreting Cells drug effects, Secretory Vesicles drug effects

Abstract

Cholesterol is reportedly abundant in the endocrine secretory granule (SG) membrane. In this study, we examined the involvement of cholesterol biosynthesis intermediates and inhibitors in insulin secretion and SG formation mechanisms. There are two routes for the supply of cholesterol to the cells: one via de novo biosynthesis and the other via low-density lipoprotein receptor-mediated endocytosis. We found that insulin secretion and content are diminished by β-hydroxy-β-methylglutaryl-coenzyme A inhibitor lovastatin but not by lipoprotein depletion from the culture medium in MIN6 β-cells. Cholesterol biosynthesis intermediates mevalonate, squalene, and geranylgeranyl pyrophosphate enhanced glucose-stimulated insulin secretion, and the former two increased insulin content. The glucose-stimulated insulin secretion-enhancing effect of geranylgeranyl pyrophosphate was also confirmed in perifusion with rat islets. Morphologically, mevalonate and squalene increased the population of SGs without affecting their size. In contrast, lovastatin increased the SG size with reduction of insulin-accumulating dense cores, leading to a decrease in insulin content. Furthermore, insulin was secreted in a constitutive manner, indicating disruption of regulated insulin secretion. Because secretogranin III, a cholesterol-binding SG-residential granin-family protein, coincides with SG localization based on the cholesterol composition, secretogranin III may be associated with insulin-accumulating mechanisms. Although the SG membrane exhibits a high cholesterol composition, we could not find detergent-resistant membrane regions using a lipid raft-residential protein flotillin and a fluorescent cholesterol-Si-pyrene probe as markers on a sucrose-density gradient fractionation. We suggest that the high cholesterol composition of SG membrane with 40-50 mol% is crucial for insulin secretion and SG formation functions.

Published

2010

2. [Formation mechanisms of endocrine secretory granules based on a high cholesterol membrane domain].

Author

Takeuchi T

Subjects

Animals, Carboxypeptidase H metabolism, Chromogranin A metabolism, Golgi Apparatus, Humans, Peptide Hormones, Protein Binding, Protein Precursors, Receptors, Peptide, Cholesterol metabolism, Chromogranins metabolism, Secretory Vesicles physiology

Published

2010

3. Molecular probes for sensing the cholesterol composition of subcellular organelle membranes.

Author

Wang R, Hosaka M, Han L, Yokota-Hashimoto H, Suda M, Mitsushima D, Torii S, and Takeuchi T

Subjects

Acridine Orange metabolism, Animals, Cell Line, Dinitrobenzenes metabolism, Fluorescent Dyes metabolism, Islets of Langerhans, Liposomes metabolism, Mice, Organelles ultrastructure, PC12 Cells, Rats, Secretory Vesicles chemistry, Cholesterol analysis, Intracellular Membranes chemistry, Molecular Probes

Abstract

Neuroendocrine cells contain two types of secretagogue-regulated acidic compartments: secretory granules (SGs) and synaptic-like microvesicles (SLMVs), which can be identified by acidotropic probes such as acridine orange (AO) and DAMP. We investigated the accumulation of these probes in SGs and SLMVs as a function of glucose levels in the culture media using a pancreatic beta-cell line MIN6. AO was accumulated in the low-glucose condition, but not in the high-glucose condition. The AO accumulation correlated well with the SLMV dynamics by glucose and DAMP was localized in the SGs. Because SG membranes are reportedly high in cholesterol, we prepared liposomes with increasing cholesterol levels. AO is well incorporated into liposomes having a 20 to 40 mol% cholesterol composition, whereas DAMP was so in those having over 40 mol% cholesterol levels. Indeed, when cholesterol was depleted from MIN6 SG membranes, DAMP incorporation decreased, instead AO was incorporated. In PC12 cells, AO incorporation into SGs was significant but DAMP incorporation was limited. Consistently, the cholesterol composition was found 37 to 39 mol% in the SG membrane of PC12 cells. We suggest that cholesterol-sensing probes, AO and DAMP, are useful tools for investigating cholesterol compositions in acidic organelle membranes.

Published

2006

4. Multiple Sorting Systems for Secretory Granules Ensure the Regulated Secretion of Peptide Hormones.

Author

Sun, Meng, Watanabe, Tsuyoshi, Bochimoto, Hiroki, Sakai, Yuko, Torii, Seiji, Takeuchi, Toshiyuki, and Hosaka, Masahiro

Subjects

SECRETORY granules, PEPTIDE hormones, GOLGI apparatus, PROOPIOMELANOCORTIN, CHROMOGRANINS, BIOACTIVE compounds

Abstract

Prior to secretion, regulated peptide hormones are selectively sorted to secretory granules ( SGs) at the trans-Golgi network ( TGN) in endocrine cells. Secretogranin III ( SgIII) appears to facilitate SG sorting process by tethering of protein aggregates containing chromogranin A ( CgA) and peptide hormones to the cholesterol-rich SG membrane ( SGM). Here, we evaluated the role of SgIII in SG sorting in AtT-20 cells transfected with small interfering RNA targeting SgIII. In the SgIII-knockdown cells, the intracellular retention of CgA was greatly impaired, and only a trace amount of CgA was localized within the vacuoles formed in the TGN, confirming the significance of SgIII in both the tethering of CgA-containing aggregates and the establishment of the proper SG morphology. Although the intracellular retention of proopiomelanocortin ( POMC) was considerably impaired in SgIII-knockdown cells, residual adrenocorticotropic hormone ( ACTH)/ POMC was still localized to some few remaining SGs together with another granin protein, secretogranin II ( SgII), and was secreted in a regulated manner. Biochemical analyses indicated that SgII bound directly to the SGM in a cholesterol-dependent manner and was able to retain the aggregated form of POMC, revealing a latent redundancy in the SG sorting and retention mechanisms, that ensures the regulated secretion of bioactive peptides. [ABSTRACT FROM AUTHOR]

Published

2013

5. Cholesterol Analogs Labeled with Novel Silylated Fluorescent Compounds.

Author

Moriguchi, Tomohisa, Hosaka, Masahiro, Yoshinari, Akihito, Ozaki, Akiko, Takeuchi, Toshiyuki, and Shinozuka, Kazuo

Subjects

CHOLESTEROL, MOLECULES, CHEMICALS, CELLS, FLUORESCENCE

Abstract

Novel fluorescent cholesterol derivatives bearing dimethylsilylated fluorescent molecules were prepared. The derivatives exhibit markedly enhanced fluorescence compared to that of an analogous derivative bearing unmodified pyrene in living cells. [ABSTRACT FROM AUTHOR]

Published

2009

6. Secretogranin III Binds to Cholesterol in the Secretory Granule Membrane as an Adapter for Chromogranin A.

Author

Hosaka, Masahiro, Suda, Masayuki, Sakai, Yuko, Izumi, Tetsuro, Watanabe, Tsuyoshi, and Takeuchi, Toshiyuki

Subjects

*CHROMOGRANINS, *CHOLESTEROL, *CELLS, *CYCLODEXTRINS, *IMMUNOCYTOCHEMISTRY, *LIPIDS

Abstract

Granin-family proteins, including chromogranin A (CgA) and secretogranin III (SgIII), are transported to secretory granules (SGs) in neuroendocrine cells. We previously showed that SgIII binds strongly to CgA in an intragranular milieu and targets CgA to SGs in pituitary and pancreatic endocrine cells. In this study, we demonstrated that with a sucrose density gradient of rat insulinoma-derived INS-1 cell homogenates, SgIII was localized to the SG fraction and was fractionated to the SG membrane (SGM) despite lacking the transmembrahe region. With depletion of cholesterol from the SGM using methyl-β-cyclodextrin, SgIII was impaired to bind to the SGM. Both SgIII and CgA were solubilized from the SGM by Triton X-100 in contrast to the Triton X-100 insolubility of carboxypeptidase E. SgIII and carboxypeptidase E strongly bound to the SGM-type liposome in intragranular conditions, but CgA did not. Instead, CgA bound to the SGM-type liposome only in the presence of SgIII. Immunocytochemical and pulse-chase experiments revealed that SgIII deleting the N-terminal lipid-binding region missorted to the constitutive pathway in mouse eorticotroph-derived ATT-20 cells. Thus, we suggest that SgIII directly binds to cholesterol components of the SGM and targets CgA to SGs in pituitary and pancreatic endocrine cells. [ABSTRACT FROM AUTHOR]

Published

2004