Daigo Nishimura scite author profile

ABSTRACT. Epidermal growth factor (EGF) family members play important roles in the skeletal system. In this study, we examined the role of EGF receptor (EGFR) signaling in osteoblastogenesis in vitro. The expression of HB-EGF and epiregulin (EPR) was transiently induced within 24 h after osteogenic stimulation, but when preosteoblastic MC3T3-E1 cells were incubated with HB-EGF or EPR, osteoblast differentiation was inhibited. These effects were Ras-dependent, and ERK modulated Runx2 activity through the localization of Smad1 and the induction of Twist2. PI3-kinase was also required for the induction of Twist2. However, the inhibition of individual signaling pathways was not sufficient to overcome HB-EGF-mediated inhibition of osteoblast differentiation. Additionally, HB-EGF treatment promoted the proliferation of preosteoblasts, and this was associated with the downregulation of p27 at the protein level. These results suggest that HB-EGF-EGFR signaling inhibits the differentiation of osteoblasts by suppression of Runx2 transcriptional activity and enhances proliferation of preosteoblasts by downregulation of expression of p27.

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Metalloprotease-Dependent Onset of Blood Circulation in Zebrafish

Iida

Sakaguchi

Sato

et al. 2010

Current Biology

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The primitive blood circulation requires intravascular plasma flow. However, it remains unclear whether the onset of earliest blood circulation is dependent solely on establishment of a functional circulatory organ or whether it also requires active processes inherent in blood cells. In this study, we present novel mechanisms for the onset of blood circulation by monitoring fluorescently labeled blood precursors and blood vessels in zebrafish. The earliest blood circulation occurs synchronously. This synchrony is achieved by the retention of erythroid precursors on the lumen of the vasculature after their invasion from the subaortic region, and then by simultaneous release of these precursors into the flow. Morphological and biochemical analyses suggest that the onset of blood circulation accompanies disruption of blood cell-to-vessel adhesion and requires metalloprotease-dependent processes. ADAM8, a member of the a disintegrin and metalloprotease (ADAM) family, mediates the onset of blood circulation. In ADAM8-depleted embryos, erythroid cells fail to detach from the vascular lumen and stagnate. Expression of a protease-defective ADAM8 in erythroid cells causes dominant-negative effects on blood circulation, suggesting cell-autonomous roles of ADAM8. Based on these findings, we propose that the first erythroid cells require both flow-dependent passive and proteolysis-dependent active processes to enter the circulation.

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Roles of ADAM8 in elimination of injured muscle fibers prior to skeletal muscle regeneration

Nishimura

Sakai

Sato

et al. 2015

Mechanisms of Development

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Skeletal muscle regeneration requires processes different from developmental myogenesis. One important difference is a requirement of inflammatory reactions prior to regenerative myogenesis, by which injured muscle fibers must be eliminated to make new myotubes. In this study, we show that efficient elimination of injured muscle fibers during regeneration requires ADAM8, a member of a disintegrin and metalloprotease (ADAM) family. Skeletal muscle of dystrophin-null mice, an animal model for Duchenne Muscular Dystrophy, deteriorates by the lack of ADAM8, which is characterized by increased area of muscle degeneration and increased number of necrotic and calcified muscle fibers. Adam8 is highly expressed in neutrophils. Upon cardiotoxin-induced skeletal muscle injury, neutrophils invade into muscle fibers through the basement membrane and form large clusters in wild type, but not in ADAM8-deficient mice, although neutrophils of the latter infiltrate into interstitial tissues similarly to those of wild type mice. Neutrophils lose their adhesiveness to blood vessels after infiltration, which includes an ectodomain shedding of P-Selectin Glycoprotein Ligand-1 (PSGL-1) on their surface. Expression of PSGL-1 on the surface of neutrophils remains higher in ADAM8-deficient than in wild type mice. These results suggest that ADAM8 mediates an enhanced invasiveness of neutrophils into injured muscle fibers by the removal of their adhesiveness to blood vessels after infiltration into interstitial tissues.

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PDH‐mediated metabolic flow is critical for skeletal muscle stem cell differentiation and myotube formation during regeneration in mice

et al. 2019

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Skeletal muscle satellite cells (SMSCs), the major stem cells responsible for the regeneration of skeletal muscle, are normally cell cycle arrested but differentiate to generate myocytes upon muscle damage, forming new myofibers along with self‐renewing stem cells in preparation for subsequent injury. In this study, we investigated which factors stimulate the proliferation and differentiation of SMSCs and found that pyruvate, the end product of glycolysis, stimulates their differentiation. Pyruvate antagonizes the effects of hypoxia on preferential self‐renewal of SMSCs through dephosphorylation or activation of pyruvate dehydrogenase (PDH), which mediates opening of the gateway from glycolysis to the tricarboxylic acid (TCA) cycle by producing acetyl coenzyme A from pyruvate. PDH kinase 1, highly expressed under hypoxia, is down‐regulated under normoxic conditions, leading to an increase in dephosphorylated PDH. Conditional deletion of PDH in SMSCs affects cell divisions generating myocytes and subsequent myotube formation, inefficient skeletal muscle regeneration upon injury, and aggravated pathogenesis of a dystrophin‐deficient mouse model of Duchenne muscular dystrophy. Thus, the flow from glycolysis to the TCA cycle mediated by PDH plays a pivotal role in the differentiation of SMSCs, which is critical for the progression of skeletal muscle regeneration.—Hori, S., Hiramuki, Y., Nishimura, D., Sato, F., Sehara‐Fujisawa, A. PDH‐mediated metabolic flow is critical for skeletal muscle stem cell differentiation and myotube formation during regeneration in mice. FASEB J. 33, 8094–8109 (2019). http://www.fasebj.org

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Simple, non-catalytic permethylation of catechol derivatives in subcritical and supercritical water

Wang

Nishimura

Komatsu

et al. 2011

The Journal of Supercritical Fluids

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Environmentally benign, non-catalytic, simple, and complete aromatic ring methylation of catechol derivatives by using 1,3,5-trioxane as the source of methyl groups was investigated in subcritical and supercritical water and under solvent-free conditions. Irrespective of the presence of subcritical and supercritical water as a reaction medium, catechol and 4-methylcatechol afforded the permethylation product 3,4,5,6-tetramethylcatechol. Only a small amount of 3,4,5,6-tetramethylcatechol (2% yield) was obtained under solvent-free conditions at 400 °C for 10 min. However, supercritical water considerably accelerated the formation of 3,4,5,6-tetramethylcatechol (13% yield) under the conditions of 400 °C, 10 min, and 0.35 g/mL water density.3

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Daigo Nishimura

Potential Involvement of Twist2 and Erk in the Regulation of Osteoblastogenesis by HB-EGF-EGFR Signaling

Metalloprotease-Dependent Onset of Blood Circulation in Zebrafish

Roles of ADAM8 in elimination of injured muscle fibers prior to skeletal muscle regeneration

PDH‐mediated metabolic flow is critical for skeletal muscle stem cell differentiation and myotube formation during regeneration in mice

Simple, non-catalytic permethylation of catechol derivatives in subcritical and supercritical water

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