start-ver=1.4
cd-journal=joma
no-vol=12
cd-vols=
no-issue=15
article-no=
start-page=5028
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2023
dt-pub=20230731
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Evidence for Hypoxia-Induced Shift in ATP Production from Glycolysis to Mitochondrial Respiration in Pulmonary Artery Smooth Muscle Cells in Pulmonary Arterial Hypertension
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Background: The metabolic state of pulmonary artery smooth muscle cells (PASMCs) from patients with pulmonary arterial hypertension (PAH) is not well understood. In this study, we examined the balance between glycolysis and mitochondrial respiration in non-PAH-PASMCs and PAH-PASMCs under normoxia and hypoxia. Methods: We investigated the enzymes involved in glycolysis and mitochondrial respiration, and studied the two major energy-yielding pathways (glycolysis and mitochondrial respiration) by measuring extracellular acidification rate (ECAR) and cellular oxygen consumption rate (OCR) using the Seahorse extracellular flux technology. Results: Under both normoxia and hypoxia, the mRNA and protein levels of pyruvate dehydrogenase kinase 1 and pyruvate dehydrogenase were increased in PAH-PASMCs compared with non-PAH-PASMCs. The mRNA and protein levels of lactate dehydrogenase, as well as the intracellular lactate concentration, were also increased in PAH-PASMCs compared with non-PAH-PASMCs under normoxia. However, these were not significantly increased in PAH-PASMCs compared with non-PAH-PASMCs under hypoxia. Under normoxia, ATP production was significantly lower in PAH-PASMCs (59 } 5 pmol/min) than in non-PAH-PASMCs (70 } 10 pmol/min). On the other hand, ATP production was significantly higher in PAH-PASMCs (31 } 5 pmol/min) than in non-PAH-PASMCs (14 } 3 pmol/min) under hypoxia. Conclusions: There is an underlying change in the metabolic strategy to generate ATP production under the challenge of hypoxia.
en-copyright=
kn-copyright=

en-aut-name=AkagiSatoshi
en-aut-sei=Akagi
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=NakamuraKazufumi
en-aut-sei=Nakamura
en-aut-mei=Kazufumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=KondoMegumi
en-aut-sei=Kondo
en-aut-mei=Megumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=UdonoHeiichiro
en-aut-sei=Udono
en-aut-mei=Heiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=NishidaMikako
en-aut-sei=Nishida
en-aut-mei=Mikako
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=SaitoYukihiro
en-aut-sei=Saito
en-aut-mei=Yukihiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=YoshidaMasashi
en-aut-sei=Yoshida
en-aut-mei=Masashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=MiyoshiToru
en-aut-sei=Miyoshi
en-aut-mei=Toru
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=ItoHiroshi
en-aut-sei=Ito
en-aut-mei=Hiroshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

affil-num=1
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=2
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=3
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=4
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=5
en-affil=Department of Immunology, Graduate School of Medicine, Dentistry, and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=6
en-affil=Department of Immunology, Graduate School of Medicine, Dentistry, and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=7
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=8
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=9
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=10
en-affil=Department of Cardiovascular Medicine, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=
en-keyword=glycolysis
kn-keyword=glycolysis
en-keyword=mitochondrial respiration
kn-keyword=mitochondrial respiration
en-keyword=pulmonary arterial hypertension
kn-keyword=pulmonary arterial hypertension
en-keyword=pulmonary artery smooth muscle cells
kn-keyword=pulmonary artery smooth muscle cells
en-keyword=Seahorse technology
kn-keyword=Seahorse technology
en-keyword=hypoxia
kn-keyword=hypoxia
en-keyword=ATP production
kn-keyword=ATP production
END

start-ver=1.4
cd-journal=joma
no-vol=77
cd-vols=
no-issue=1
article-no=
start-page=29
end-page=36
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2023
dt-pub=202302
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Increased Glycine-conjugated and Unconjugated Bile Acid Levels Associated with Aggravation of Nonalcoholic Steatohepatitis and Cardiovascular Disease in SHRSP5/Dmcr Rat
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=The SHRSP5/Dmcr is a useful animal model for the development of nonalcoholic steatohepatitis (NASH) pathology when fed a high-fat, high-cholesterol diet, and further drug interventions can lead to concomitant cardiovascular disease. While SHRSP5/Dmcr rats have been used for basic research related to NASH, details of their bile acid metabolism in this condition are unknown. In this study, we aimed to clarify the changes in the serum bile acid (BA) fractions associated with NASH and found that glycine-conjugated and unconjugated bile acid increased with worsening NASH and cardiovascular disease while taurine-conjugated BA relatively decreased.
en-copyright=
kn-copyright=

en-aut-name=YamamotoShusei
en-aut-sei=Yamamoto
en-aut-mei=Shusei
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=SatoIkumi
en-aut-sei=Sato
en-aut-mei=Ikumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=FujiiMoe
en-aut-sei=Fujii
en-aut-mei=Moe
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=KakimotoMai
en-aut-sei=Kakimoto
en-aut-mei=Mai
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=HonmaKoki
en-aut-sei=Honma
en-aut-mei=Koki
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=AkiyamaNatsumi
en-aut-sei=Akiyama
en-aut-mei=Natsumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=SakaiMiku
en-aut-sei=Sakai
en-aut-mei=Miku
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=FukuhamaNatsuki
en-aut-sei=Fukuhama
en-aut-mei=Natsuki
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=KumazakiShota
en-aut-sei=Kumazaki
en-aut-mei=Shota
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

en-aut-name=KitamoriKazuya
en-aut-sei=Kitamori
en-aut-mei=Kazuya
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=11
ORCID=

en-aut-name=YamoriYukio
en-aut-sei=Yamori
en-aut-mei=Yukio
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=12
ORCID=

en-aut-name=WatanabeShogo
en-aut-sei=Watanabe
en-aut-mei=Shogo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=13
ORCID=

affil-num=1
en-affil=Academic Field of Health Sciences, Okayama University
kn-affil=

affil-num=2
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=3
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=4
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=5
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=6
en-affil=Department of Medical Technology, Faculty of Health Sciences, Okayama University
kn-affil=

affil-num=7
en-affil=Department of Medical Technology, Faculty of Health Sciences, Okayama University
kn-affil=

affil-num=8
en-affil=Department of Medical Technology, Faculty of Health Sciences, Okayama University
kn-affil=

affil-num=9
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=10
en-affil=Academic Field of Health Sciences, Okayama University
kn-affil=

affil-num=11
en-affil=College of Human Life and Environment, Kinjo Gakuin University
kn-affil=

affil-num=12
en-affil=Institute for World Health Development, Mukogawa Women's University
kn-affil=

affil-num=13
en-affil=Academic Field of Health Sciences, Okayama University
kn-affil=
en-keyword=SHRSP5/Dmc
kn-keyword=SHRSP5/Dmc
en-keyword=nonalcoholic steatohepatitis
kn-keyword=nonalcoholic steatohepatitis
en-keyword=cardiovascular disease
kn-keyword=cardiovascular disease
en-keyword=glycine-conjugated bile acids
kn-keyword=glycine-conjugated bile acids
en-keyword=unconjugated bile acids
kn-keyword=unconjugated bile acids
END

start-ver=1.4
cd-journal=joma
no-vol=23
cd-vols=
no-issue=5
article-no=
start-page=2681
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2022
dt-pub=20220228
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Potential of a Novel Chemical Compound Targeting Matrix Metalloprotease-13 for Early Osteoarthritis: An In Vitro Study
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Osteoarthritis is a progressive disease characterized by cartilage destruction in the joints. Matrix metalloproteinases (MMPs) and a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTSs) play key roles in osteoarthritis progression. In this study, we screened a chemical compound library to identify new drug candidates that target MMP and ADAMTS using a cytokine-stimulated OUMS-27 chondrosarcoma cells. By screening PCR-based mRNA expression, we selected 2-(8-methoxy-2-methyl-4-oxoquinolin-1(4H)-yl)-N-(3-methoxyphenyl) acetamide as a potential candidate. We found that 2-(8-methoxy-2-methyl-4-oxoquinolin-1(4H)-yl)-N-(3-methoxyphenyl) acetamide attenuated IL-1 beta-induced MMP13 mRNA expression in a dose-dependent manner, without causing serious cytotoxicity. Signaling pathway analysis revealed that 2-(8-methoxy-2-methyl-4-oxoquinolin-1(4H)-yl)-N-(3-methoxyphenyl) acetamide attenuated ERK- and p-38-phosphorylation as well as JNK phosphorylation. We then examined the additive effect of 2-(8-methoxy-2-methyl-4-oxoquinolin-1(4H)-yl)-N-(3-methoxyphenyl) acetamide in combination with low-dose betamethasone on IL-1 beta-stimulated cells. Combined treatment with 2-(8-methoxy-2-methyl-4-oxoquinolin-1(4H)-yl)-N-(3-methoxyphenyl) acetamide and betamethasone significantly attenuated MMP13 and ADAMTS9 mRNA expression. In conclusion, we identified a potential compound of interest that may help attenuate matrix-degrading enzymes in the early osteoarthritis-affected joints.
en-copyright=
kn-copyright=

en-aut-name=InagakiJunko
en-aut-sei=Inagaki
en-aut-mei=Junko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=NakanoAiri
en-aut-sei=Nakano
en-aut-mei=Airi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=HatipogluOmer Faruk
en-aut-sei=Hatipoglu
en-aut-mei=Omer Faruk
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=OokaYuka
en-aut-sei=Ooka
en-aut-mei=Yuka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=TaniYurina
en-aut-sei=Tani
en-aut-mei=Yurina
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=MikiAkane
en-aut-sei=Miki
en-aut-mei=Akane
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=IkemuraKentaro
en-aut-sei=Ikemura
en-aut-mei=Kentaro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=OpokuGabriel
en-aut-sei=Opoku
en-aut-mei=Gabriel
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=AndoRyosuke
en-aut-sei=Ando
en-aut-mei=Ryosuke
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=KodamaShintaro
en-aut-sei=Kodama
en-aut-mei=Shintaro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

en-aut-name=OhtsukiTakashi
en-aut-sei=Ohtsuki
en-aut-mei=Takashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=11
ORCID=

en-aut-name=YamajiHirosuke
en-aut-sei=Yamaji
en-aut-mei=Hirosuke
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=12
ORCID=

en-aut-name=YamamotoShusei
en-aut-sei=Yamamoto
en-aut-mei=Shusei
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=13
ORCID=

en-aut-name=KatsuyamaEri
en-aut-sei=Katsuyama
en-aut-mei=Eri
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=14
ORCID=

en-aut-name=WatanabeShogo
en-aut-sei=Watanabe
en-aut-mei=Shogo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=15
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=16
ORCID=

affil-num=1
en-affil=Department of Cell Chemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=2
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=3
en-affil=Department of Pharmacology, Faculty of Medicine, Kindai University
kn-affil=

affil-num=4
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=5
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=6
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=7
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=8
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=9
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=10
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=11
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=12
en-affil=Heart Rhythm Center, Okayama Heart Clinic
kn-affil=

affil-num=13
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=14
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=15
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=16
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=
en-keyword=osteoarthritis
kn-keyword=osteoarthritis
en-keyword=matrix metalloproteinase
kn-keyword=matrix metalloproteinase
en-keyword=MMP13
kn-keyword=MMP13
en-keyword=ADAMTS9
kn-keyword=ADAMTS9
en-keyword=expression screening
kn-keyword=expression screening
en-keyword=chondrocytes
kn-keyword=chondrocytes
END

start-ver=1.4
cd-journal=joma
no-vol=139
cd-vols=
no-issue=
article-no=
start-page=111633
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2021
dt-pub=202107
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Osteopontin silencing attenuates bleomycin-induced murine pulmonary fibrosis by regulating epithelial-mesenchymal transition
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Idiopathic pulmonary fibrosis (IPF) is the most common and most deadly form of interstitial lung disease. Osteopontin (OPN), a matricellular protein with proinflammatory and profibrotic properties, plays a major role in several fibrotic diseases, including IPF; OPN is highly upregulated in patients' lung samples. In this study, we knocked down OPN in a bleomycin (BLM)-induced pulmonary fibrosis (PF) mouse model using small interfering RNA (siRNA) to determine whether the use of OPN siRNA is an effective therapeutic strategy for IPF. We found that fibrosing areas were significantly smaller in specimens from OPN siRNA-treated mice. The number of alveolar macrophages, neutrophils, and lymphocytes in bronchoalveolar lavage fluid was also reduced in OPN siRNA-treated mice. Regarding the expression of epithelial-mesenchymal transition (EMT)-related proteins, the administration of OPN-siRNA to BLM-treated mice upregulated E-cadherin expression and downregulated vimentin expression. Moreover, in vitro, we incubated the human alveolar adenocarcinoma cell line A549 with transforming growth factor (TGF)-beta 1 and subsequently transfected the cells with OPN siRNA. We found a significant upregulation of Col1A1, fibronectin, and vimentin after TGF-beta 1 stimulation in A549 cells. In contrast, a downregulation of Col1A1, fibronectin, and vimentin mRNA levels was observed in TGF-beta 1-stimulated OPN knockdown A549 cells. Therefore, the downregulation of OPN effectively reduced pulmonary fibrotic and EMT changes both in vitro and in vivo. Altogether, our results indicate that OPN siRNA exerts a protective effect on BLM-induced PF in mice. Our results provide a basis for the development of novel targeted therapeutic strategies for IPF.
en-copyright=
kn-copyright=

en-aut-name=HatipogluOmer Faruk
en-aut-sei=Hatipoglu
en-aut-mei=Omer Faruk
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=UctepeEyyup
en-aut-sei=Uctepe
en-aut-mei=Eyyup
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=OpokuGabriel
en-aut-sei=Opoku
en-aut-mei=Gabriel
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=WakeHidenori
en-aut-sei=Wake
en-aut-mei=Hidenori
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=IkemuraKentaro
en-aut-sei=Ikemura
en-aut-mei=Kentaro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=OhtsukiTakashi
en-aut-sei=Ohtsuki
en-aut-mei=Takashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=InagakiJunko
en-aut-sei=Inagaki
en-aut-mei=Junko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=GunduzMehmet
en-aut-sei=Gunduz
en-aut-mei=Mehmet
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=GunduzEsra
en-aut-sei=Gunduz
en-aut-mei=Esra
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=WatanabeShogo
en-aut-sei=Watanabe
en-aut-mei=Shogo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

en-aut-name=NishinakaTakashi
en-aut-sei=Nishinaka
en-aut-mei=Takashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=11
ORCID=

en-aut-name=TakahashiHideo
en-aut-sei=Takahashi
en-aut-mei=Hideo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=12
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=13
ORCID=

affil-num=1
en-affil=Department of Pharmacology, Faculty of Medicine, Kindai University
kn-affil=

affil-num=2
en-affil=Ac?badem Labmed Ankara Tissue Typing Laboratory
kn-affil=

affil-num=3
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=4
en-affil=Department of Pharmacology, Faculty of Medicine, Kindai University
kn-affil=

affil-num=5
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=6
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=7
en-affil=Department of Cell Chemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University
kn-affil=

affil-num=8
en-affil=Department of Otolaryngology, Moriya Keiyu Hospital
kn-affil=

affil-num=9
en-affil=Department of Otolaryngology, Moriya Keiyu Hospital
kn-affil=

affil-num=10
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=11
en-affil=Department of Pharmacology, Faculty of Medicine, Kindai University
kn-affil=

affil-num=12
en-affil=Department of Pharmacology, Faculty of Medicine, Kindai University
kn-affil=

affil-num=13
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=
en-keyword=Pulmonary fibrosis
kn-keyword=Pulmonary fibrosis
en-keyword=Osteopontin
kn-keyword=Osteopontin
en-keyword=Epithelial-mesenchymal transition
kn-keyword=Epithelial-mesenchymal transition
END

start-ver=1.4
cd-journal=joma
no-vol=10
cd-vols=
no-issue=1
article-no=
start-page=6869
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2020
dt-pub=20200422
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Deficiency of CD44 prevents thoracic aortic dissection in a murine model
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Thoracic aortic dissection (TAD) is a life-threatening vascular disease. We showed that CD44, a widely distributed cell surface adhesion molecule, has an important role in inflammation. In this study, we examined the role of CD44 in the development of TAD. TAD was induced by the continuous infusion of beta-aminopropionitrile (BAPN), a lysyl oxidase inhibitor, and angiotensin II (AngII) for 7 days in wild type (WT) mice and CD44 deficient (CD44(-/-)) mice. The incidence of TAD in CD44(-/-) mice was significantly reduced compared with WT mice (44% and 6%, p<0.01). Next, to evaluate the initial changes, aortic tissues at 24hours after BAPN/AngII infusion were examined. Neutrophil accumulation into thoracic aortic adventitia in CD44(-/-) mice was significantly decreased compared with that in WT mice (5.7 +/- 0.3% and 1.6 +/- 0.4%, p<0.01). In addition, BAPN/AngII induced interleukin-6, interleukin-1 beta, matrix metalloproteinase-2 and matrix metalloproteinase-9 in WT mice, all of which were significantly reduced in CD44(-/-) mice (all p<0.01). In vitro transmigration of neutrophils from CD44(-/-) mice through an endothelial monolayer was significantly decreased by 18% compared with WT mice (p<0.01). Our findings indicate that CD44 has a critical role in TAD development in association with neutrophil infiltration into adventitia.
en-copyright=
kn-copyright=

en-aut-name=HatipogluOmer F.
en-aut-sei=Hatipoglu
en-aut-mei=Omer F.
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=MiyoshiToru
en-aut-sei=Miyoshi
en-aut-mei=Toru
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=YonezawaTomoko
en-aut-sei=Yonezawa
en-aut-mei=Tomoko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=KondoMegumi
en-aut-sei=Kondo
en-aut-mei=Megumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=AmiokaNaofumi
en-aut-sei=Amioka
en-aut-mei=Naofumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=YoshidaMasashi
en-aut-sei=Yoshida
en-aut-mei=Masashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=AkagiSatoshi
en-aut-sei=Akagi
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=NakamuraKazufumi
en-aut-sei=Nakamura
en-aut-mei=Kazufumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=ItoHiroshi
en-aut-sei=Ito
en-aut-mei=Hiroshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

affil-num=1
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=2
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=3
en-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=4
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=5
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=6
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=7
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=8
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=

affil-num=9
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=10
en-affil=Department of Cardiovascular Medicine, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Science
kn-affil=
en-keyword=Aneurysm
kn-keyword=Aneurysm
en-keyword=Aortic diseases
kn-keyword=Aortic diseases
END

start-ver=1.4
cd-journal=joma
no-vol=21
cd-vols=
no-issue=9
article-no=
start-page=3140
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2020
dt-pub=20200429
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Induction of CEMIP in Chondrocytes by Inflammatory Cytokines: Underlying Mechanisms and Potential Involvement in Osteoarthritis
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=In patients with osteoarthritis (OA), there is a decrease in both the concentration and molecular size of hyaluronan (HA) in the synovial fluid and cartilage. Cell migration-inducing hyaluronidase 1 (CEMIP), also known as hyaluronan (HA)-binding protein involved in HA depolymerization (HYBID), was recently reported as an HA depolymerization-related molecule expressed in the cartilage of patients with OA. However, the underlying mechanism of CEMIP regulation is not well understood. We found that CEMIP expression was transiently increased by interleukine-1 beta (IL-1 beta) stimulation in chondrocytic cells. We also observed that ERK activation and NF-kappa B nuclear translocation were involved in the induction of CEMIP by IL-1 beta. In addition, both administration of HA and mechanical strain attenuated the CEMIP induction in IL-1 beta-stimulated chondrocytes. In conclusion, we clarified the regulatory mechanism of CEMIP in chondrocytes by inflammatory cytokines and suggested the potential involvement in osteoarthritis development.
en-copyright=
kn-copyright=

en-aut-name=OhtsukiTakashi
en-aut-sei=Ohtsuki
en-aut-mei=Takashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=HatipogluOmer F.
en-aut-sei=Hatipoglu
en-aut-mei=Omer F.
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=AsanoKeiichi
en-aut-sei=Asano
en-aut-mei=Keiichi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=InagakiJunko
en-aut-sei=Inagaki
en-aut-mei=Junko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=NishidaKeiichiro
en-aut-sei=Nishida
en-aut-mei=Keiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

affil-num=1
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=2
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=3
en-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=4
en-affil=Department of Cell Chemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=5
en-affil=Department of Orthopaediac Surgery, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=6
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=
en-keyword=cell migration-inducing hyaluronidase 1 (CEMIP)
kn-keyword=cell migration-inducing hyaluronidase 1 (CEMIP)
en-keyword=chondrocyte
kn-keyword=chondrocyte
en-keyword=hyaluronan
kn-keyword=hyaluronan
en-keyword=mechanical strain
kn-keyword=mechanical strain
en-keyword=nuclear factor kappa B (NF-kappa B)
kn-keyword=nuclear factor kappa B (NF-kappa B)
en-keyword=osteoarthritis
kn-keyword=osteoarthritis
END

start-ver=1.4
cd-journal=joma
no-vol=383
cd-vols=
no-issue=2
article-no=
start-page=111556
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2019
dt-pub=20191015
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Mechanical strain attenuates cytokine-induced ADAMTS9 expression via transient receptor potential vanilloid type 1
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract= The synovial fluids of patients with osteoarthritis (OA) contain elevated levels of inflammatory cytokines, which induce the expression of a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS) and of the matrix metalloproteinase (MMP) in chondrocytes. Mechanical strain has varying effects on organisms depending on the strength, cycle, and duration of the stressor; however, it is unclear under inflammatory stimulation how mechanical strain act on. Here, we show that mechanical strain attenuates inflammatory cytokine-induced expression of matrix-degrading enzymes. Cyclic tensile strain (CTS), as a mechanical stressor, attenuated interleukin (IL)-1ƒΐ and tumor necrosis factor (TNF)-ƒΏ-induced mRNA expression of ADAMTS4, ADAMTS9, and MMP-13 in normal chondrocytes (NHAC-kn) and in a chondrocytic cell line (OUMS-27). This effect was abolished by treating cells with mechano-gated channel inhibitors, such as gadolinium, transient receptor potential (TRP) family inhibitor, ruthenium red, and with pharmacological and small interfering RNA-mediated TRPV1 inhibition. Furthermore, nuclear factor ƒΘB (NF-ƒΘB) translocation from the cytoplasm to the nucleus resulting from cytokine stimulation was also abolished by CTS. These findings suggest that mechanosensors such as the TRPV protein are potential therapeutic targets in treating OA.
en-copyright=
kn-copyright=

en-aut-name=OhtsukiTakashi
en-aut-sei=Ohtsuki
en-aut-mei=Takashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=ShinaokaAkira
en-aut-sei=Shinaoka
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=Kumagishi-ShinaokaKanae
en-aut-sei=Kumagishi-Shinaoka
en-aut-mei=Kanae
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=AsanoKeiichi
en-aut-sei=Asano
en-aut-mei=Keiichi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=HatipogluOmer Faruk
en-aut-sei=Hatipoglu
en-aut-mei=Omer Faruk
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=InagakiJunko
en-aut-sei=Inagaki
en-aut-mei=Junko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=TakahashiKen
en-aut-sei=Takahashi
en-aut-mei=Ken
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=OohashiToshitaka
en-aut-sei=Oohashi
en-aut-mei=Toshitaka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=NishidaKeiichiro
en-aut-sei=Nishida
en-aut-mei=Keiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=NaruseKeiji
en-aut-sei=Naruse
en-aut-mei=Keiji
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=11
ORCID=

affil-num=1
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=2
en-affil=Department of Human Morphology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=3
en-affil=Department of Human Morphology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=4
en-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=5
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=

affil-num=6
en-affil=Department of Cell Chemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=7
en-affil=Department of Cardiovascular Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=8
en-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=9
en-affil=Department of Orthopaedic Surgery, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=10
en-affil=Department of Cardiovascular Physiology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
kn-affil=

affil-num=11
en-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University
kn-affil=
END

start-ver=1.4
cd-journal=joma
no-vol=69
cd-vols=
no-issue=3
article-no=
start-page=145
end-page=153
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2015
dt-pub=201506
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Eosinophil Cationic Protein Shows Survival Effect on H9c2 Cardiac Myoblast Cells with Enhanced Phosphorylation of ERK and Akt/GSK-3ƒΐ under Oxidative Stress
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Eosinophil cationic protein (ECP) is well known as a cationic protein contained in the basic granules of activated eosinophils. Recent studies have reported that ECP exhibits novel activities on various types of cells, including rat neonatal cardiomyocytes. Here we evaluated the effects of ECP on rat cardiac myoblast H9c2 cells. Our results showed that ECP enhanced the survival of the cells, in part by promoting the ERK and Akt/GSK-3ƒΐ signaling pathways. ECP attenuated the cytotoxic effects of H2O2 on H9c2 cells as well as the production of reactive oxygen species, the number of apoptotic cells and caspase 3/7 activity in the cells. In conclusion, ECP activated the ERK and Akt/GSK-3ƒΐ pathways, resulting in anti-oxidative effects on H9c2 cells that attenuated apoptosis.
en-copyright=
kn-copyright=

en-aut-name=IshiiHiroko
en-aut-sei=Ishii
en-aut-mei=Hiroko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=KamikawaShigeshi
en-aut-sei=Kamikawa
en-aut-mei=Shigeshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=MizutaniAkifumi
en-aut-sei=Mizutani
en-aut-mei=Akifumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=AbeKoji
en-aut-sei=Abe
en-aut-mei=Koji
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=SenoMasaharu
en-aut-sei=Seno
en-aut-mei=Masaharu
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=OohashiToshitaka
en-aut-sei=Oohashi
en-aut-mei=Toshitaka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=NinomiyaYoshifumi
en-aut-sei=Ninomiya
en-aut-mei=Yoshifumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

affil-num=1
en-affil=
kn-affil=Departments of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine

affil-num=2
en-affil=
kn-affil=Departments of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine

affil-num=3
en-affil=
kn-affil=Departments of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine

affil-num=4
en-affil=
kn-affil=Department of Chemistry and Biotechnology, Graduate School of Natural Science and Technology, Okayama University

affil-num=5
en-affil=
kn-affil=Neurology, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences,

affil-num=6
en-affil=
kn-affil=Department of Chemistry and Biotechnology, Graduate School of Natural Science and Technology, Okayama University

affil-num=7
en-affil=
kn-affil=Departments of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine

affil-num=8
en-affil=
kn-affil=Departments of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine
en-keyword=ECP
kn-keyword=ECP
en-keyword=reactive oxygen species
kn-keyword=reactive oxygen species
en-keyword=Akt
kn-keyword=Akt
en-keyword=ERK
kn-keyword=ERK
END

start-ver=1.4
cd-journal=joma
no-vol=280
cd-vols=
no-issue=1-2
article-no=
start-page=47
end-page=56
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2005
dt-pub=200512
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Versican is induced in infiltrating monocytes in myocardial infarction
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Versican, a large chondroitin sulfate proteoglycan, plays a role in conditions such as wound healing and tissue remodelling. To test the hypothesis that versican expression is transiently upregulated and plays a role in the infarcted heart, we examined its expression in a rat model of myocardial infarction. Northern blot analysis demonstrated increased expression of versican mRNA. Quantitative real-time RT-PCR analysis revealed that versican mRNA began to increase as early as 6 h and reached its maximal level 2 days after coronary artery ligation. Versican mRNA then gradually decreased, while the mRNA of decorin, another small proteoglycan, increased thereafter. Versican mRNA was localized in monocytes, as indicated by CD68-positive staining, around the infarct tissue. The induction of versican mRNA was accelerated by ischemia/reperfusion (I/R), which was characterized by massive cell infiltration and enhanced inflammatory response. To examine the alteration of versican expression in monocytes/macrophages, we isolated human peripheral blood mononuclear cells and stimulated them with granulocyte/macrophage colony-stimulating factor (GM-CSF). Stimulation of mononuclear cells with GM-CSF increased the expression of versican mRNA as well as cytokine induction. The production of versican by monocytes in the infarct area represents a novel finding of the expression of an extracellular matrix gene by monocytes in the infarcted heart. We suggest that upregulation of versican in the infarcted myocardium may have a role in the inflammatory reaction, which mediates subsequent chemotaxis in the infarcted heart.
en-copyright=
kn-copyright=

en-aut-name=ToedaKenichi
en-aut-sei=Toeda
en-aut-mei=Kenichi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=NakamuraKeigo
en-aut-sei=Nakamura
en-aut-mei=Keigo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=HatipogluOmer F.
en-aut-sei=Hatipoglu
en-aut-mei=Omer F.
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=DemircanKadir
en-aut-sei=Demircan
en-aut-mei=Kadir
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=YamawakiHitoshi
en-aut-sei=Yamawaki
en-aut-mei=Hitoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=OgawaHiroko
en-aut-sei=Ogawa
en-aut-mei=Hiroko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=KusachiShozo
en-aut-sei=Kusachi
en-aut-mei=Shozo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=ShiratoriYasushi
en-aut-sei=Shiratori
en-aut-mei=Yasushi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=NinomiyaYoshifumi
en-aut-sei=Ninomiya
en-aut-mei=Yoshifumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

affil-num=1
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=2
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=3
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=4
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine and Dentistry

affil-num=5
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine and Dentistry

affil-num=6
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=7
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=8
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=9
en-affil=
kn-affil=Department of Medicine and Medical Science, Okayama University Graduate School of Medicine and Dentistry

affil-num=10
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine and Dentistry
en-keyword=coronary artery disease
kn-keyword=coronary artery disease
en-keyword=cytokine
kn-keyword=cytokine
en-keyword=extracellular matrix
kn-keyword=extracellular matrix
en-keyword=GM-CSF
kn-keyword=GM-CSF
en-keyword=monocyte
kn-keyword=monocyte
END

start-ver=1.4
cd-journal=joma
no-vol=52
cd-vols=
no-issue=5
article-no=
start-page=1451
end-page=1460
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2005
dt-pub=20055
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=ADAMTS-9 is synergistically induced by interleukin-1 and tumor necrosis factor  in OUMS-27 chondrosarcoma cells and in human chondrocytes
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=<p><b>Objective</b><br />
To compare induction of the aggrecanases (ADAMTS-1, ADAMTS-4, ADAMTS-5, ADAMTS-8, ADAMTS-9, and ADAMTS-15) by interleukin-1 (IL-1) and tumor necrosis factor (TNF) in chondrocyte-like OUMS-27 cells and human chondrocytes, and to determine the mechanism of induction of the most responsive aggrecanase gene.</p>
<p><b>Methods</b><br />
OUMS-27 cells were stimulated for different periods of time and with various concentrations of IL-1 and/or TNF. Human chondrocytes obtained from osteoarthritic joints and human skin fibroblasts were also stimulated with IL-1 and/or TNF. Total RNA was extracted, reverse transcribed, and analyzed by quantitative real-time polymerase chain reaction and Northern blotting. ADAMTS-9 protein was examined by Western blotting, and the role of the MAPK signaling pathway for ADAMTS9 induction in IL-1-stimulated OUMS-27 cells was investigated.</p>
<p><b>Results</b><pr>
IL-1 increased messenger RNA (mRNA) levels of ADAMTS4, ADAMTS5, and ADAMTS9 but not ADAMTS1 and ADAMTS8. The fold increase for ADAMTS9 mRNA was greater than that for mRNA of the other aggrecanase genes. The increase of ADAMTS9 mRNA by IL-1 stimulation was greater in chondrocytes than in fibroblasts. The combination of IL-1 and TNF had a synergistic effect, resulting in a considerable elevation in the level of ADAMTS9 mRNA. ADAMTS-9 protein was also induced in IL-1-stimulated OUMS-27 cells. The MAPK inhibitors SB203580 and PD98059 decreased ADAMTS9 up-regulation in OUMS-27 cells.</p>
<p><b>Conclusion</b><br />
ADAMTS9 is an IL-1- and TNF-inducible gene that appears to be more responsive to these proinflammatory cytokines than are other aggrecanase genes. Furthermore, these cytokines had a synergistic effect on ADAMTS9. Together with the known ability of ADAMTS-9 to proteolytically degrade aggrecan and its potential to cleave other cartilage molecules, the data suggest that ADAMTS-9 may have a pathologic role in arthritis.</p>
en-copyright=
kn-copyright=

en-aut-name=DemircanKadir
en-aut-sei=Demircan
en-aut-mei=Kadir
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=NishidaKeiichiro
en-aut-sei=Nishida
en-aut-mei=Keiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=HatipogluOmer F.
en-aut-sei=Hatipoglu
en-aut-mei=Omer F.
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=OohashiToshitaka
en-aut-sei=Oohashi
en-aut-mei=Toshitaka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=YonezawaTomoko
en-aut-sei=Yonezawa
en-aut-mei=Tomoko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=ApteSuneel S.
en-aut-sei=Apte
en-aut-mei=Suneel S.
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=NinomiyaYoshifumi
en-aut-sei=Ninomiya
en-aut-mei=Yoshifumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

affil-num=1
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry

affil-num=2
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry

affil-num=3
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry

affil-num=4
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry

affil-num=5
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry

affil-num=6
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry

affil-num=7
en-affil=
kn-affil=Lerner Research Institute, Cleveland Clinic Foundation

affil-num=8
en-affil=
kn-affil=Okayama University Graduate School of Medicine and Dentistry
en-keyword=ADAMTS
kn-keyword=ADAMTS
en-keyword=aggrecanase
kn-keyword=aggrecanase
en-keyword=arthritis
kn-keyword=arthritis
en-keyword=chondrocyte
kn-keyword=chondrocyte
en-keyword=metalloproteinases
kn-keyword=metalloproteinases
en-keyword=IL-1
kn-keyword=IL-1
END

start-ver=1.4
cd-journal=joma
no-vol=63
cd-vols=
no-issue=2
article-no=
start-page=79
end-page=85
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2009
dt-pub=200904
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=The 3'-untranslated region of ADAMTS1 regulates its mRNA stability
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=<p>ADAMTS1 (a disintegrin and metalloproteinase with thrombospondin motifs 1) is an inflammatory-induced gene. We have previously reported that ADAMTS1 was strongly but transiently expressed in the infarcted heart. In this study, we investigated whether a 3'-untranslated region (UTR) affects the mRNA stability of this gene. When stimulated with tissue necrosis factor (TNF)-alpha, the expression level of ADAMTS1 mRNA rapidly increased, but the induction of ADAMTS1 mRNA peaked at 6h after stimulation, after which the expression levels of ADAMTS1 mRNA decreased. The 3'-UTR ADAMTS1 mRNA contains multiple adenine and uridine-rich elements, suggesting that the 3'-UTR may regulate gene stability. The addition of actinomycin D, an RNA synthesis inhibitor, demonstrated the decay of induced ADAMTS1 mRNA by TNF-alpha. Furthermore, a region containing multiple AUUUA motifs within the ADAMTS1 3'-UTR destabilized transfected Enhanced Green Fluorescence Protein (EGFP) mRNA expression. These results demonstrated that the ADAMTS1 3'-UTR may regulate the expression of ADAMTS1 mRNA.</p>
en-copyright=
kn-copyright=

en-aut-name=HatipogluOmer Faruk
en-aut-sei=Hatipoglu
en-aut-mei=Omer Faruk
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=HirohataSatoshi
en-aut-sei=Hirohata
en-aut-mei=Satoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=YaykasliKursat Oguz
en-aut-sei=Yaykasli
en-aut-mei=Kursat Oguz
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=CilekMehmet Zeynel
en-aut-sei=Cilek
en-aut-mei=Mehmet Zeynel
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=DemircanKadir
en-aut-sei=Demircan
en-aut-mei=Kadir
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=ShinohataRyoko
en-aut-sei=Shinohata
en-aut-mei=Ryoko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=YonezawaTomoko
en-aut-sei=Yonezawa
en-aut-mei=Tomoko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=OohashiToshitaka
en-aut-sei=Oohashi
en-aut-mei=Toshitaka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=KusachiShozo
en-aut-sei=Kusachi
en-aut-mei=Shozo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=NinomiyaYoshifumi
en-aut-sei=Ninomiya
en-aut-mei=Yoshifumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

affil-num=1
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=2
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=3
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=4
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=5
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=6
en-affil=
kn-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University

affil-num=7
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=8
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences

affil-num=9
en-affil=
kn-affil=Department of Medical Technology, Graduate School of Health Sciences, Okayama University

affil-num=10
en-affil=
kn-affil=Department of Molecular Biology and Biochemistry, Okayama University Graduate School of Medicine, Dentistry and Pharmaceutical Sciences
en-keyword=ADAMTS1
kn-keyword=ADAMTS1
en-keyword=gene regulation
kn-keyword=gene regulation
en-keyword=metalloproteinase
kn-keyword=metalloproteinase
END

start-ver=1.4
cd-journal=joma
no-vol=
cd-vols=
no-issue=
article-no=
start-page=
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=1997
dt-pub=19970325
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=ƒ}ƒEƒX‘ΩŽ™,VΆŽ™,¬‘̐S‚Ι‚¨‚―‚郉ƒ~ƒjƒ“ƒΏ1,ƒΏ2,ƒΏ4‹y‚Ρƒΐ1½mRNA‚Μ”­Œ»
kn-title=Laminin ƒΏ1,ƒΏ'2,ƒΏ4 and ƒΐ1,Chain mRNA Expression in Mouse Embryonic,Neonatal, and Adult Hearts
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=
en-copyright=
kn-copyright=

en-aut-name=
en-aut-sei=
en-aut-mei=
kn-aut-name=œA”¨‘
kn-aut-sei=œA”¨
kn-aut-mei=‘
aut-affil-num=1
ORCID=

affil-num=1
en-affil=
kn-affil=‰ͺŽR‘εŠw
END