Your search keyword '"Sasa, Kiyohito"' showing total 12 results

1. Novel epigenetic roles of lactylation in osteogenesis.

Author

Sasa, Kiyohito, Kato, Tadashi, and Yamada, Atsushi

Published

2024

2. Lactate-induced histone lactylation by p300 promotes osteoblast differentiation.

Author

Minami, Erika, Sasa, Kiyohito, Yamada, Atsushi, Kawai, Ryota, Yoshida, Hiroshi, Nakano, Haruhisa, Maki, Koutaro, and Kamijo, Ryutaro

Subjects

CELL differentiation, LACTATE dehydrogenase, GENETIC regulation, ENERGY metabolism, BONE growth, GLUCOSE metabolism, HISTONES

Abstract

Lactate, which is synthesized as an end product by lactate dehydrogenase A (LDHA) from pyruvate during anaerobic glycolysis, has attracted attention for its energy metabolism and oxidant effects. A novel histone modification-mediated gene regulation mechanism termed lactylation by lactate was recently discovered. The present study examined the involvement of histone lactylation in undifferentiated cells that underwent differentiation into osteoblasts. C2C12 cells cultured in medium with a high glucose content (4500 mg/L) showed increases in marker genes (Runx2, Sp7, Tnap) indicating BMP-2-induced osteoblast differentiation and ALP staining activity, as well as histone lactylation as compared to those cultured in medium with a low glucose content (900 mg/L). Furthermore, C2C12 cells stimulated with the LDH inhibitor oxamate had reduced levels of BMP-2-induced osteoblast differentiation and histone lactylation, while addition of lactate to C2C12 cells cultured in low glucose medium resulted in partial restoration of osteoblast differentiation and histone lactylation. These results indicate that lactate synthesized by LDHA during glucose metabolism is important for osteoblast differentiation of C2C12 cells induced by BMP-2. Additionally, silencing of p300, a possible modifier of histone lactylation, also inhibited osteoblast differentiation and reduced histone lactylation. Together, these findings suggest a role of histone lactylation in promotion of undifferentiated cells to undergo differentiation into osteoblasts. [ABSTRACT FROM AUTHOR]

Published

2023

3. Kielin/chordin‐like protein enhances induction of osteoblast differentiation by Bone Morphogenetic Protein‐2.

Author

Nagasaki, Kei, Yamada, Atsushi, Sasa, Kiyohito, and Kamijo, Ryutaro

Subjects

BONE morphogenetic proteins, MYOBLASTS, OSTEOCLASTS, BONE fractures, BONE growth, TREATMENT of fractures, PROTEINS

Abstract

Bone morphogenetic proteins (BMPs) play a key role in embryonic differentiation for osteoblast and bone formation. Kielin/chordin‐like protein (Kcp) is known to enhance the effects of BMP signaling. Here, we present ALP activity, gene expression, and calcification data demonstrating that Kcp affects the differentiation of C2C12 myoblasts into osteoblasts. We report that the presence of Kcp enhances the ability of BMP‐2 to induce the differentiation of C2C12 myoblasts into osteoblasts. Additionally, BMP‐2‐mediated stimulation of phosphorylated Smad1/5 was apparently enhanced in the presence of Kcp. The present findings may contribute to progression toward the clinical use of BMPs for treatment of bone fracture, osteoarthritis, and other similar conditions. [ABSTRACT FROM AUTHOR]

Published

2023

4. Cathepsin K degrades osteoprotegerin to promote osteoclastogenesis in vitro.

Author

Kawai, Ryota, Sugisaki, Risa, Miyamoto, Yoichi, Yano, Fumiko, Sasa, Kiyohito, Minami, Erika, Maki, Koutaro, and Kamijo, Ryutaro

Abstract

Osteoblasts produce the receptor activator of nuclear factor-kappa B ligand (RANKL) and osteoprotegerin, the inducer and the suppressor of osteoclast differentiation and activation. We previously proposed that the degradation of osteoprotegerin by lysine-specific gingipain of Porphyromonas gingivalis and neutrophil elastase is one of the mechanisms of bone resorption associated with infection and inflammation. In the present study, we found that cathepsin K (CTSK) also degraded osteoprotegerin in an acidic milieu and the buffer with a pH of 7.4. The 37 k fragment of osteoprotegerin produced by the reaction with CTSK was further degraded into low molecular weight fragments, including a 13 k fragment, depending on the reaction time. The N-terminal amino acid sequence of the 37 k fragment matched that of the intact osteoprotegerin, indicating that CTSK preferentially hydrolyzes the death domain-like region of osteoprotegerin, not its RANKL-binding region. The 13 k fragment of osteoprotegerin was the C-terminal 13 k portion within the RANKL-binding region of the 37 k fragment. Finally, CTSK restored RANKL-dependent osteoclast differentiation that was suppressed by the addition of osteoprotegerin. Collectively, CTSK is a possible positive regulator of osteoclastogenesis. [ABSTRACT FROM AUTHOR]

Published

2023

5. Low oxygen tension suppresses the death of chondrocyte-like ATDC5 cells induced by interleukin-1ß.

Author

Tanaka, Motohiro, Miyamoto, Yoichi, Sasa, Kiyohito, Yoshimura, Kentaro, Yamada, Atsushi, Shirota, Tatsuo, and Kamijo, Ryutaro

Abstract

The articular cartilage is an avascular tissue, and oxygen tensions in its superficial and deeper zones are estimated to be 6% and 1%. Degeneration of the articular cartilage begins from the surface zone in osteoarthritis. We previously reported that monocarboxylate transporter-1, a transmembrane transporter for monocarboxylates, played an essential role in the interleukin-1β-induced expression of NADPH oxidase-2, a reactive oxygen species–producing enzyme, and reactive oxygen species–dependent death of mouse chondrogenic ATDC5 cells cultured in a normal condition (20% oxygen). Here, we investigated the effect of oxygen tension on interleukin-1β-induced events described above in ATDC5 cells. Interleukin-1β induced the death of ATDC5 cells under 20% and 6% oxygen but did not under 2% and 1% oxygen. Interleukin-1β induced Mct1 (monocarboxylate transporter-1 gene) and Nox2 (NADPH oxidase-2 gene) mRNAs' expression under 20% oxygen in 24 h, respectively, but not under 2% oxygen. On the other hand, a 24-h incubation with interleukin-1β upregulated the expression of Nos2 (inducible nitric oxide synthase gene) mRNA irrespective of oxygen tension. Furthermore, inhibition of I-κB kinase suppressed the interleukin-1β-induced expression of Mct1 mRNA in the cells cultured under 20% and 2% oxygen, indicating NF-κB plays an essential role in the induction of the Mct1 gene expression. The results suggest that interleukin-1β induces monocarboxylate transporter-1 in an oxygen tension–dependent manner required for cell death in ATDC5 cells. These results might explain some part of the degenerative process of the articular cartilage, which begins from its superficial zone in the pathogenesis of osteoarthritis. [ABSTRACT FROM AUTHOR]

Published

2022

6. Establishment of Down's syndrome periodontal ligament cells by transfection with SV40T-Ag and hTERT.

Author

Asakawa, Takeyoshi, Yamada, Atsushi, Kugino, Masumi, Hasegawa, Tomokazu, Yoshimura, Kentaro, Sasa, Kiyohito, Kinoshita, Mitsuhiro, Nitta, Masakazu, Nagata, Karin, Sugiyama, Tomomi, Kamijo, Ryutaro, and Funatsu, Takahiro

Subjects

DOWN syndrome, PERIODONTAL ligament, CONGENITAL disorders, PEOPLE with Down syndrome, PERIODONTITIS, GENE transfection

Abstract

Down's syndrome is one of the most common human congenital genetic diseases and affected patients have increased risk of periodontal disease. To examine involvement of the disease with periodontal disease development, we established immortalized periodontal ligament cells obtained from a Down's syndrome patient by use of SV40T-Ag and hTERT gene transfection. Expressions of SV40T-Ag and hTERT were observed in periodontal ligament cell-derived immortalized cells established from healthy (STPDL) and Down's syndrome patient (STPDLDS) samples. Primary cultured periodontal ligament cells obtained from a healthy subject (pPDL) had a limited number of population doublings (< 40), while STPDL and STPDLDS cells continued to grow with more than 80 population doublings. Primary cultured periodontal ligament cells obtained from the patient showed a chromosome pattern characteristic of Down's syndrome with trisomy 21, whereas STPDLDS samples showed a large number of abnormal chromosomes in those results. Gene expression analysis revealed that expression of DSCR-1 in STPDLDS is greater than that in STPDL. These results suggest that the newly established STPDLDS cell line may be a useful tool for study of periodontal disease in Down's syndrome patients. [ABSTRACT FROM AUTHOR]

Published

2022

7. Phorbol-12-myristate 13-acetate inhibits Nephronectin gene expression via Protein kinase C alpha and c-Jun/c-Fos transcription factors.

Author

Kinoshita, Mitsuhiro, Yamada, Atsushi, Sasa, Kiyohito, Ikezaki, Kaori, Shirota, Tatsuo, and Kamijo, Ryutaro

Subjects

PROTEIN kinase C, GENE expression, GENETIC regulation, TRANSCRIPTION factors, EXTRACELLULAR matrix proteins

Abstract

Nephronectin (Npnt) is an extracellular matrix protein and ligand of integrin α8β1 known to promote differentiation of osteoblasts. A search for factors that regulate Npnt gene expression in osteoblasts revealed that phorbol 12-myristate 13-acetate (PMA), which activates protein kinase C (PKC), had a strong effect to suppress that expression. Research was then conducted to elucidate the signaling pathway responsible for regulation of Npnt gene expression by PMA in osteoblasts. Treatment of MC3T3-E1 cells with PMA suppressed cell differentiation and Npnt gene expression. Effects were noted at a low concentration of PMA, and were time- and dose-dependent. Furthermore, treatment with the PKC signal inhibitor Gö6983 inhibited down-regulation of Npnt expression, while transfection with small interfering RNA (siRNA) of PKCα, c-Jun, and c-Fos suppressed that down-regulation. The present results suggest regulation of Npnt gene expression via the PKCα and c-Jun/c-Fos pathway. [ABSTRACT FROM AUTHOR]

Published

2021

8. Zoledronate promotes inflammatory cytokine expression in human CD14‐positive monocytes among peripheral mononuclear cells in the presence of γδ T cells.

Author

Takimoto, Reiko, Suzawa, Tetsuo, Yamada, Atsushi, Sasa, Kiyohito, Miyamoto, Yoichi, Yoshimura, Kentaro, Sasama, Yuji, Tanaka, Motohiro, Kinoshita, Mitsuhiro, Ikezaki, Kaori, Ichikawa, Makoto, Yamamoto, Matsuo, Shirota, Tatsuo, and Kamijo, Ryutaro

Subjects

T cells, IMMUNOCOMPETENT cells, ZOLEDRONIC acid, CYTOKINES, MONOCYTES

Abstract

Summary: Bisphosphonates distributed to bone exert toxic effects specifically towards osteoclasts. On the other hand, intravenous administration of a nitrogen‐containing bisphosphonate (N‐BP) such as zoledronate induces acute‐phase reactions (APRs), including influenza‐like fever 1 day later, indicating an interaction with immunocompetent cells circulating blood. Although it has been reported that activation of γδ T cells is pivotal to induce an APR following treatment with zoledronate, downstream events, including the production of inflammatory cytokines after activation of γδ T cells, remain obscure. We investigated the effects of zoledronate on inflammatory cytokine expression in human peripheral blood mononuclear cells (PBMCs) in vitro. While zoledronate induced mRNA expressions of tumour necrosis factor‐α (TNF‐α), interleukin (IL)‐1β, IL‐6 and interferon‐γ (IFN‐γ) in PBMC, depletion of γδ T cells abolished that zoledronate‐induced expression of those cytokines, indicating the necessity of γδ T cells for expression induction by zoledronate. However, which types of cells were responsible for the production of those cytokines in blood remained unclear. As it is generally accepted that monocytes and macrophages are primary sources of inflammatory cytokines, CD14+ cells from PBMC were exposed to zoledronate in the presence of PBMC, which resulted in induced expression of mRNAs for IL‐1β, IL‐6 and IFN‐γ, but not for TNF‐α. These results indicate that CD14+ cells are responsible, at least in part, for the production of IL‐1β, IL‐6 and IFN‐γ in blood exposed to zoledronate. This suggests that CD14+ cells play an essential role in the occurrence of APRs following N‐BP administration. [ABSTRACT FROM AUTHOR]

Published

2021

9. Nephronectin Expression is Inhibited by Inorganic Phosphate in Osteoblasts.

Author

Kato, Tadashi, Yamada, Atsushi, Sasa, Kiyohito, Yoshimura, Kentaro, Morimura, Naoko, Ogata, Hiroaki, Sakashita, Akiko, and Kamijo, Ryutaro

Subjects

EXTRACELLULAR matrix proteins, OSTEOBLASTS, LIGANDS (Biochemistry), PHOSPHATES, CALCIUM, BONES

Abstract

Nephronectin (Npnt), an extracellular matrix protein, is known to be a ligand of integrin α8β1, and it has also been known to play critical roles as various organs. In the present study, elevated extracellular inorganic phosphate (Pi) strongly inhibited the expression of Npnt in MC3T3-E1 cells, while the existence of extracellular calcium (Ca) was indispensable for its effect. Furthermore, Pi-induced inhibition of Npnt gene expression was recovered by inhibitors of both sodium-dependent Pi transporter (Pit) and fibroblast growth factor receptors (Fgfrs). These results demonstrated that Npnt gene expression is regulated by extracellular Pi via Pit and Fgfrs. [ABSTRACT FROM AUTHOR]

Published

2019

10. Production of 8-nitro-cGMP in osteocytic cells and its upregulation by parathyroid hormone and prostaglandin E2.

Author

Nagayama, Kazuhiro, Miyamoto, Yoichi, Kaneko, Kotaro, Yoshimura, Kentaro, Sasa, Kiyohito, Akaike, Takaaki, Fujii, Shigemoto, Izumida, Eri, Uyama, Risa, Chikazu, Daichi, Maki, Koutaro, and Kamijo, Ryutaro

Abstract

Osteocytes regulate bone remodeling, especially in response to mechanical loading and unloading of bone, with nitric oxide reported to play an important role in that process. In the present study, we found that 8-nitroguanosine 3′,5′-cyclic monophosphate (8-nitro-cGMP), a second messenger of nitric oxide in various types of cells, was produced by osteocytes in bone tissue as well as cultured osteocytic Ocy454 cells. The amount of 8-nitro-cGMP in Ocy454 cells increased during incubation with parathyroid hormone or prostaglandin E2, both of which are known to upregulate receptor activator of nuclear factor-κB ligand (RANKL) mRNA expression in osteocytes. On the other hand, exogenous 8-nitro-cGMP did not have effects on either the presence or absence of these bioactive substances. Furthermore, neither an inhibitor of nitric oxide synthase nor 8-bromo-cGMP, a cell-permeable analog of cGMP, showed remarkable effects on mRNA expression of sclerostin or RANKL. These results indicate that neither nitric oxide nor its downstream compounds, including 8-nitro-cGMP, alone are sufficient for induction of functional changes in osteocytes. [ABSTRACT FROM AUTHOR]

Published

2019

11. FGF‐2 suppresses expression of nephronectin via JNK and PI3K pathways.

Author

Kato, Tadashi, Yamada, Atsushi, Ikehata, Mikiko, Yoshida, Yuko, Sasa, Kiyohito, Morimura, Naoko, Sakashita, Akiko, Iijima, Takehiko, Chikazu, Daichi, Ogata, Hiroaki, and Kamijo, Ryutaro

Subjects

FIBROBLAST growth factors, C-Jun N-terminal kinases, EXTRACELLULAR matrix proteins, BONE growth, MESSENGER RNA

Abstract

Nephronectin (Npnt), an extracellular matrix protein, is a ligand for integrin α8β1 and is involved in the development of various organs, such as the kidneys, bones, liver, and muscles. Previously, we found that Npnt expression was inhibited by various cytokines including transforming growth factor‐β (Tgf‐β) and oncostatin M (Osm). Fibroblast growth factor (Fgf)‐2, otherwise known as basic Fgf, also plays important roles in skeletal development and postnatal osteogenesis. In this study, Npnt expression was found to be suppressed by Fgf‐2 in MC3T3‐E1 cells, an osteoblast‐like cell line, in a dose‐ and time‐dependent manners. Furthermore, Fgf‐2‐mediated NpntmRNA suppression was shown to involve the Jun N‐terminal kinase (JNK) and phosphoinositide‐3 kinase (PI3K) pathways. Together, our results suggest that FGF‐2 suppresses Npnt gene expression via JNK and PI3K pathways. [ABSTRACT FROM AUTHOR]

Published

2018

12. Roles of monocarboxylate transporter subtypes in promotion and suppression of osteoclast differentiation and survival on bone.

Author

Imai, Hiroko, Yoshimura, Kentaro, Miyamoto, Yoichi, Sasa, Kiyohito, Sugano, Marika, Chatani, Masahiro, Takami, Masamichi, Yamamoto, Matsuo, and Kamijo, Ryutaro

Subjects

MONOCARBOXYLATE transporters, HYDROXYCINNAMIC acids, MACROPHAGES, OSTEOCLASTS, BONE resorption

Abstract

Monocarboxylate transporters (MCTs) provide transmembrane transport of monocarboxylates such as lactate and pyruvate. The present results showed that α-cyano-4-hydroxycinnamic acid (CHC), an inhibitor of MCTs, promoted osteoclast differentiation from macrophages at lower concentrations (0.1–0.3 mM) and suppressed that at a higher concentration (1.0 mM). On the other hand, CHC reduced the number of mature osteoclasts on the surface of dentin in a concentration-dependent manner. Additionally, macrophages and osteoclasts were found to express the Mct1, Mct2, and Mct4 genes, with Mct1 and Mct4 expression higher in macrophages, and that of Mct2 higher in osteoclasts. Although Mct1 gene knockdown in macrophages enhanced osteoclast formation induced by RANKL, Mct2 gene knockdown suppressed that. Finally, Mct2 gene silencing in mature osteoclasts decreased their number and, thereby, bone resorption. These results suggest that MCT1 is a negative regulator and MCT2 a positive regulator of osteoclast differentiation, while MCT2 is required for bone resorption by osteoclasts. [ABSTRACT FROM AUTHOR]

Published

2019