Your search keyword '"Tatsuya Yoshizawa"' showing total 12 results

1. SIRT7 suppresses energy expenditure and thermogenesis by regulating brown adipose tissue functions in mice

Author

Tatsuya Yoshizawa, Yoshifumi Sato, Shihab U. Sobuz, Tomoya Mizumoto, Tomonori Tsuyama, Md. Fazlul Karim, Keishi Miyata, Masayoshi Tasaki, Masaya Yamazaki, Yuichi Kariba, Norie Araki, Eiichi Araki, Shingo Kajimura, Yuichi Oike, Thomas Braun, Eva Bober, Johan Auwerx, and Kazuya Yamagata

Subjects

Science

Abstract

Sirtuins have been reported to positively regulate brown adipose tissue thermogenesis. Here the authors report that brown adipocytic SIRT7 suppresses whole-body energy expenditure and thermogenesis in mice, potentially by attenuating batokine gene expressions and Ucp1 mRNA translation.

Published

2022

2. Phosphatase protector alpha4 (α4) is involved in adipocyte maintenance and mitochondrial homeostasis through regulation of insulin signaling

Author

Masaji Sakaguchi, Shota Okagawa, Yuma Okubo, Yuri Otsuka, Kazuki Fukuda, Motoyuki Igata, Tatsuya Kondo, Yoshifumi Sato, Tatsuya Yoshizawa, Takaichi Fukuda, Kazuya Yamagata, Weikang Cai, Yu-Hua Tseng, Nobuo Sakaguchi, C. Ronald Kahn, and Eiichi Araki

Subjects

Science

Abstract

The insulin signalling cascade can be inhibited by phosphatases, including Ser/Thr protein phosphatase 2A (PP2A). Here the authors show that Alpha4, a regulator of the PP2A catalytic subunit, modulates insulin receptor tyrosine phosphorylation via the YBX-1/PTP1B pathway and is involved in maintenance of adipose tissue homeostasis and systemic metabolism.

Published

2022

3. The Emerging Role of SIRT7 in Glucose and Lipid Metabolism

Author

Kazuya Yamagata, Tomoya Mizumoto, and Tatsuya Yoshizawa

Subjects

sirtuin, SIRT7, SIRT1, SIRT6, diabetes, obesity, Cytology, QH573-671

Abstract

Sirtuins (SIRT1–7 in mammals) are a family of NAD+-dependent lysine deacetylases and deacylases that regulate diverse biological processes, including metabolism, stress responses, and aging. SIRT7 is the least well-studied member of the sirtuins, but accumulating evidence has shown that SIRT7 plays critical roles in the regulation of glucose and lipid metabolism by modulating many target proteins in white adipose tissue, brown adipose tissue, and liver tissue. This review focuses on the emerging roles of SIRT7 in glucose and lipid metabolism in comparison with SIRT1 and SIRT6. We also discuss the possible implications of SIRT7 inhibition in the treatment of metabolic diseases such as type 2 diabetes and obesity.

Published

2023

4. SIRT7 regulates lipogenesis in adipocytes through deacetylation of PPARγ2

Author

Fatema Akter, Tomonori Tsuyama, Tatsuya Yoshizawa, Shihab U. Sobuz, and Kazuya Yamagata

Subjects

SIRT7, PPARγ, acetylation, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Abstract Aims/Introduction Peroxisome proliferator‐activated receptor (PPAR)‐γ2 is a transcription factor crucial for regulating adipogenesis and glucose/lipid metabolism, and synthetic PPARγ ligands, such as thiazolidinediones, are effective oral medication for type 2 diabetes. Sirtuin 7 (SIRT7), a nicotinamide adenine dinucleotide‐dependent deacetylase, also controls metabolism. However, it is not known whether SIRT7 regulates the function of PPARγ2 by its deacetylation. Materials and Methods Physical interaction between SIRT7 and PPARγ2, the effect of SIRT7 on PPARγ2 acetylation, and the deacetylation residue targeted by SIRT7 were investigated. The effects of PPARγ2 K382 acetylation on lipid accumulation, gene expression in C3H10T1/2 cell‐derived adipocytes, and ligand‐dependent transactivation activity were also evaluated. Results We demonstrated that SIRT7 binds to PPARγ2 and deacetylates PPARγ2 at K382. C3H10T1/2‐derived adipocytes expressing PPARγ2K382Q (a mimic of acetylated K) accumulated much less fat than adipocytes expressing wild‐type PPARγ2 or PPARγ2K382R (a mimic of nonacetylated K). Global gene expression analysis of adipocytes expressing PPARγ2K382Q revealed that K382Q caused the dysregulation of a set of genes involved in lipogenesis, including Srebp1c, Acaca, Fasn, and Scd1. The rosiglitazone‐dependent transcriptional activity of PPARγ2K382Q was reduced compared with that of PPARγ2K382R. Conclusion Our findings indicate that SIRT7‐dependent PPARγ2 deacetylation at K382 controls lipogenesis in adipocytes.

Published

2021

5. SIRT7 Deficiency Protects against Aging-Associated Glucose Intolerance and Extends Lifespan in Male Mice

Author

Tomoya Mizumoto, Tatsuya Yoshizawa, Yoshifumi Sato, Takaaki Ito, Tomonori Tsuyama, Akiko Satoh, Satoshi Araki, Kenichi Tsujita, Masaru Tamura, Yuichi Oike, and Kazuya Yamagata

Subjects

SIRT7, knockout mouse, lifespan, FGF21, Cytology, QH573-671

Abstract

Sirtuins (SIRT1–7 in mammals) are evolutionarily conserved nicotinamide adenine dinucleotide-dependent lysine deacetylases/deacylases that regulate fundamental biological processes including aging. In this study, we reveal that male Sirt7 knockout (KO) mice exhibited an extension of mean and maximum lifespan and a delay in the age-associated mortality rate. In addition, aged male Sirt7 KO mice displayed better glucose tolerance with improved insulin sensitivity compared with wild-type (WT) mice. Fibroblast growth factor 21 (FGF21) enhances insulin sensitivity and extends lifespan when it is overexpressed. Serum levels of FGF21 were markedly decreased with aging in WT mice. In contrast, this decrease was suppressed in Sirt7 KO mice, and the serum FGF21 levels of aged male Sirt7 KO mice were higher than those of WT mice. Activating transcription factor 4 (ATF4) stimulates Fgf21 transcription, and the hepatic levels of Atf4 mRNA were increased in aged male Sirt7 KO mice compared with WT mice. Our findings indicate that the loss of SIRT7 extends lifespan and improves glucose metabolism in male mice. High serum FGF21 levels might be involved in the beneficial effect of SIRT7 deficiency.

Published

2022

6. SIRT7 has a critical role in bone formation by regulating lysine acylation of SP7/Osterix

Author

Masatoshi Fukuda, Tatsuya Yoshizawa, Md. Fazlul Karim, Shihab U. Sobuz, Wataru Korogi, Daiki Kobayasi, Hiroki Okanishi, Masayoshi Tasaki, Katsuhiko Ono, Tomohiro Sawa, Yoshifumi Sato, Mami Chirifu, Takeshi Masuda, Teruya Nakamura, Hironori Tanoue, Kazuhisa Nakashima, Yoshihiro Kobashigawa, Hiroshi Morioka, Eva Bober, Sumio Ohtsuki, Yuriko Yamagata, Yukio Ando, Yuichi Oike, Norie Araki, Shu Takeda, Hiroshi Mizuta, and Kazuya Yamagata

Subjects

Science

Abstract

SP7/Osterix is a transcription factor involved in osteoblast differentiation. Here, the authors show that Sirtuin 7 activates Osterix posttranslationally by regulating its lysine acylation, and that mice lacking Sirtuin 7 in osteoblasts show reduced bone formation.

Published

2018

7. Streaming, Bouncing, and Rotation: The Polka Dance Stimulus

Author

Gerard B. Remijn, Tatsuya Yoshizawa, and Hiroaki Yano

Subjects

Psychology, BF1-990

Abstract

When the objects in a typical stream-bounce stimulus are made to rotate on a circular trajectory, not two but four percepts can be observed: streaming, bouncing, clockwise rotation, and counterclockwise rotation, often with spontaneous reversals between them. When streaming or bouncing is perceived, the objects seem to move on individual, opposite trajectories. When rotation is perceived, however, the objects seem to move in unison on the same circular trajectory, as if constituting the edges of a virtual pane that pivots around its axis. We called this stimulus the Polka Dance stimulus. Experiments showed that with some viewing experience, the viewer can “hold” the rotation percepts. Yet even when doing so, a short sound at the objects’ point of coincidence can induce a bouncing percept. Besides this fast percept switching from rotation to bouncing, an external stimulus might also induce slower rotation direction switches, from clockwise to counterclockwise, or vice versa.

Published

2018

8. Moderate hypoxia induces β-cell dysfunction with HIF-1-independent gene expression changes.

Author

Yoshifumi Sato, Masahiro Inoue, Tatsuya Yoshizawa, and Kazuya Yamagata

Subjects

Medicine, Science

Abstract

Pancreatic β-cell failure is central to the development and progression of type 2 diabetes. We recently demonstrated that β-cells become hypoxic under high glucose conditions due to increased oxygen consumption and that the pancreatic islets of diabetic mice but not those of control mice are moderately hypoxic. However, the impact of moderate hypoxia on β-cell number and function is unknown. In the present study, moderate hypoxia induced a hypoxic response in MIN6 cells, as evidenced by increased levels of HIF-1α protein and target genes. Under these conditions, a selective downregulation of Mafa, Pdx1, Slc2a2, Ndufa5, Kcnj11, Ins1, Wfs1, Foxa2, and Neurod1, which play important roles in β-cells, was also observed in both MIN6 cells and isolated pancreatic islets. Consistent with the altered expression of these genes, abnormal insulin secretion was detected in hypoxic MIN6 cells. Most of the hypoxia-induced gene downregulation in MIN6 cells was not affected by the suppression of HIF-1α, suggesting a HIF-1-independent mechanism. Moderate hypoxia also induced apoptosis in MIN6 cells. These results suggest that hypoxia is a novel stressor of β-cells and that hypoxic stress may play a role in the deterioration of β-cell function.

Published

2014

9. Sirt7 Contributes to Myocardial Tissue Repair by Maintaining Transforming Growth Factor-β Signaling Pathway.

Author

Satoshi Araki, Yasuhiro Izumiya, Taku Rokutanda, Ianni, Alessandro, Shinsuke Hanatani, Yuichi Kimura, Yoshiro Onoue, Takafumi Senokuchi, Tatsuya Yoshizawa, Osamu Yasuda, Norimichi Koitabashi, Masahiko Kurabayashi, Braun, Thomas, Bober, Eva, Kazuya Yamagata, Hisao Ogawa, Araki, Satoshi, Izumiya, Yasuhiro, Rokutanda, Taku, and Hanatani, Shinsuke

Published

2015

10. Tensile stress induces α-adaptin C production in mouse calvariae in an organ culture: Possible involvement of endocytosis in mechanical stress-stimulated osteoblast differentiation.

Author

Junko Shimomura, Osamu Ishibashi, Mika Ikegame, Tatsuya Yoshizawa, Sadakazu Ejiri, Tadashi Noda, and Hiroyuki Kawashima

Subjects

CELL physiology, CELLS, BONE growth, GENE expression

Abstract

We previously demonstrated that tensile stress (TS)-induced osteoblast differentiation eventually led to osteogenesis in an organ culture of mouse calvarial sutures. In the present study, we employed RNA-fingerprinting using an arbitrarily primed polymerase chain reaction (RAP-PCR) to identify α-adaptin C, a component of the endocytosis machinery AP2, as a TS-inducible gene. Protein production, as well as the gene expression of α-adaptin C, was induced by TS as early as 3 h following the initiation of loading. In situ hybridization and immunohistochemical analysis revealed that the induction of α-adaptin C mostly occurred in fibroblastic cells in the sutures, suggesting that it precedes TS-induced osteoblast differentiation. Consistent with this result, TS significantly increased the number of coated pits (CPs) and coated vesicles (CVs) in the undifferentiated fibroblastic cells but not in the osteoblastic cells around calvarial bones. Further, TS-induced osteoblast differentiation was suppressed when endocytosis was inhibited by potassium depletion. These results, taken together, suggest that TS accelerates osteoblast differentiation and osteogenesis, possibly through the induction of the α-adaptin C expression and consequent activation of receptor-mediated endocytosis. © 2003 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2003

11. Age-dependent increase in angiopoietin-like protein 2 accelerates skeletal muscle loss in mice.

Author

Jiabin Zhao, Zhe Tian, Tsuyoshi Kadomatsu, Peiyu Xie, Keishi Miyata, Taichi Sugizaki, Motoyoshi Endo, Shunshun Zhu, Haoqiu Fan, Haruki Horiguchi, Jun Morinaga, Kazutoyo Terada, Tatsuya Yoshizawa, Kazuya Yamagata, and Yuichi Oike

Subjects

*SKELETAL muscle, *ANGIOPOIETIN-like proteins, *MUSCULAR atrophy, *MUSCLE growth, *STRENGTH training, *INFLAMMATORY mediators, *SATELLITE cells

Abstract

Skeletal muscle atrophy, or sarcopenia, is commonly observed in older individuals and in those with chronic disease and is associated with decreased quality of life. There is recent medical and broad concern that sarcopenia is rapidly increasing worldwide as populations age. At present, strength training is the only effective intervention for preventing sarcopenia development, but it is not known how this exercise regimen counteracts this condition. Here, we report that expression of the inflammatory mediator angiopoietin-like protein 2 (ANGPTL2) increases in skeletal muscle of aging mice. Moreover, in addition to exhibiting increased inflammation and accumulation of reactive oxygen species (ROS), denervated atrophic skeletal muscles in a mouse model of denervation-induced muscle atrophy had increased ANGPTL2 expression. Interestingly, mice with a skeletal myocyte-specific Angptl2 knockout had attenuated inflammation and ROS accumulation in denervated skeletal muscle, accompanied by increased satellite cell activity and inhibition of muscular atrophy compared with mice harboring wildtype Angptl2. Moreover, consistent with these phenotypes, wildtype mice undergoing exercise training displayed decreased ANGPTL2 expression in skeletal muscle. In conclusion, ANGPTL2 up-regulation in skeletal myocytes accelerates muscle atrophy, and exercise-induced attenuation of ANGPTL2 expression in those tissues may partially explain how exercise training prevents sarcopenia. [ABSTRACT FROM AUTHOR]

Published

2018

12. Hypoxia reduces HNF4α/MODY1 protein expression in pancreatic β-cells by activating AMP-activated protein kinase.

Author

Yoshifumi Sato, Tomonori Tsuyama, Chinami Sato, Karim, Md. Fazlul, Tatsuya Yoshizawa, Masahiro Inoue, and Kazuya Yamagata

Subjects

*HEPATOCYTE nuclear factors, *HYPOXEMIA, *PROTEIN expression, *PROTEIN kinases, *CELL physiology

Abstract

Hypoxia plays a role in the deterioration of β-cell function. Hepatocyte nuclear factor 4α (HNF4α) has an important role in pancreatic β-cells, and mutations of the human HNF4A gene cause a type of maturity-onset diabetes of the young (MODY1). However, it remains unclear whether hypoxia affects the expression of HNF4α in β-cells. Here, we report that hypoxia reduces HNF4α protein expression in β-cells. Hypoxia-inducible factor was not involved in the down-regulation of HNF4α under hypoxic conditions. The down-regulation of HNF4α was dependent on the activation of AMP-activated protein kinase (AMPK), and the reduction of HNF4α protein expression by metformin, an AMPK activator, and hypoxia was inhibited by the overexpression of a kinase-dead (KD) form of AMPKα2. In addition, hypoxia decreased the stability of the HNF4α protein, and the down-regulation of HNF4α was sensitive to proteasome inhibitors. Adenovirus-mediated overexpression of KD-AMPKα2 improved insulin secretion in metformin-treated islets, hypoxic islets, and ob/ob mouseislets.Theseresults suggest that down-regulation of HNF4α could be of importance inβ-cell dysfunction by hypoxia. [ABSTRACT FROM AUTHOR]

Published

2017