Satoshi Takeda scite author profile

Here we investigated the biological functions of adiponectin/ACRP30, a fat-derived hormone, by disrupting the gene that encodes it in mice. Adiponectin/ACRP30-knockout (KO) mice showed delayed clearance of free fatty acid in plasma, low levels of fatty-acid transport protein 1 (FATP-1) mRNA in muscle, high levels of tumor necrosis factor-alpha (TNF-alpha) mRNA in adipose tissue and high plasma TNF-alpha concentrations. The KO mice exhibited severe diet-induced insulin resistance with reduced insulin-receptor substrate 1 (IRS-1)-associated phosphatidylinositol 3 kinase (PI3-kinase) activity in muscle. Viral mediated adiponectin/ACRP30 expression in KO mice reversed the reduction of FATP-1 mRNA, the increase of adipose TNF-alpha mRNA and the diet-induced insulin resistance. In cultured myocytes, TNF-alpha decreased FATP-1 mRNA, IRS-1-associated PI3-kinase activity and glucose uptake, whereas adiponectin increased these parameters. Our results indicate that adiponectin/ACRP30 deficiency and high TNF-alpha levels in KO mice reduced muscle FATP-1 mRNA and IRS-1-mediated insulin signaling, resulting in severe diet-induced insulin resistance.

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Deletion of Angiotensin-Converting Enzyme 2 Accelerates Pressure Overload-Induced Cardiac Dysfunction by Increasing Local Angiotensin II

Yamamoto

et al. 2006

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Abstract-Angiotensin-converting enzyme 2 (ACE2) is a carboxypeptidase that cleaves angiotensin II to angiotensin 1-7.Recently, it was reported that mice lacking ACE2 (ACE2 Ϫ/y mice) exhibited reduced cardiac contractility. Because mechanical pressure overload activates the cardiac renin-angiotensin system, we used ACE2Ϫ/y mice to analyze the role of ACE2 in the response to pressure overload. Twelve-week-old ACE2 Ϫ/y mice and wild-type (WT) mice received transverse aortic constriction (TAC) or sham operation. Sham-operated ACE2 Ϫ/y mice exhibited normal cardiac function and had morphologically normal hearts. In response to TAC, ACE2 Ϫ/y mice developed cardiac hypertrophy and dilatation. Furthermore, their hearts displayed decreased cardiac contractility and increased fetal cardiac gene induction, compared with WT mice. In response to chronic pressure overload, ACE2 Ϫ/y mice developed pulmonary congestion and increased incidence of cardiac death compared with WT mice. On a biochemical level, cardiac angiotensin II concentration and activity of mitogen-activated protein (MAP) kinases were markedly increased in ACE2 Ϫ/y mice in response to TAC. Administration of candesartan, an AT 1 subtype angiotensin receptor blocker, attenuated the hypertrophic response and suppressed the activation of MAP kinases in ACE2 Ϫ/y mice. Activation of MAP kinases in response to angiotensin II was greater in cardiomyocytes isolated from ACE2 Ϫ/y mice than in those isolated from WT mice. ACE2 plays an important role in dampening the hypertrophic response to pressure overload mediated by angiotensin II. Disruption of this regulatory function may accelerate cardiac hypertrophy and shorten the transition period from compensated hypertrophy to cardiac failure.

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Disruption of the WFS1 gene in mice causes progressive -cell loss and impaired stimulus-secretion coupling in insulin secretion

Ishihara

Takeda

Tamura³

et al. 2004

Human Molecular Genetics

248

236

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Wolfram syndrome, an autosomal recessive disorder characterized by juvenile-onset diabetes mellitus and optic atrophy, is caused by mutations in the WFS1 gene. In order to gain insight into the pathophysiology of this disease, we disrupted the wfs1 gene in mice. The mutant mice developed glucose intolerance or overt diabetes due to insufficient insulin secretion in vivo. Islets isolated from mutant mice exhibited a decrease in insulin secretion in response to glucose. The defective insulin secretion was accompanied by reduced cellular calcium responses to the secretagogue. Immunohistochemical analyses with morphometry and measurement of whole-pancreas insulin content demonstrated progressive beta-cell loss in mutant mice, while the alpha-cell, which barely expresses WFS1 protein, was preserved. Furthermore, isolated islets from mutant mice exhibited increased apoptosis, as assessed by DNA fragment formation, at high concentration of glucose or with exposure to endoplasmic reticulum-stress inducers. These results strongly suggest that WFS1 protein plays an important role in both stimulus-secretion coupling for insulin exocytosis and maintenance of beta-cell mass, deterioration of which leads to impaired glucose homeostasis. These WFS1 mutant mice provide a valuable tool for understanding better the pathophysiology of Wolfram syndrome as well as WFS1 function.

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Mechanical properties of corrugated composites for candidate materials of flexible wing structures

Yokozeki

Takeda

Ogasawara

et al. 2006

Composites Part A: Applied Science and Manufacturing

247

151

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Impaired function of p53R2 in Rrm2b-null mice causes severe renal failure through attenuation of dNTP pools

et al. 2003

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p53R2, which is regulated by tumor suppressor p53, is a small subunit of ribonucleotide reductase. To determine whether it is involved in DNA repair by supplying deoxyribonucleotides (dNTPs) for resting cells in vivo, we generated a strain of mice lacking Rrm2b (encoding p53R2). These mice developed normally until they were weaned but from then on had growth retardation and early mortality. Pathological examination indicated that multiple organs had failed, and all Rrm2b-null mice died from severe renal failure by the age of 14 weeks. TUNEL staining showed a greater number of apoptotic cells in kidneys of 8-week-old Rrm2b-/- mice relative to wild-type mice. p53 was activated in kidney tissues of Rrm2b-/- mice, leading to transcriptional induction of p53 target genes. Rrm2b-/- mouse embryonic fibroblasts (MEFs) became immortal much earlier than Rrm2b+/+ MEFs. dNTP pools were severely attenuated in Rrm2b-/- MEFs under oxidative stress. Rrm2b deficiency caused higher rates of spontaneous mutation in the kidneys of Rrm2b-/- mice. Our results suggest that p53R2 has a pivotal role in maintaining dNTP levels for repair of DNA in resting cells. Impairment of this pathway may enhance spontaneous mutation frequency and activate p53-dependent apoptotic pathway(s) in vivo, causing severe renal failure, growth retardation and early mortality.

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Residual laminin-binding activity and enhanced dystroglycan glycosylation by LARGE in novel model mice to dystroglycanopathy

Kanagawa

Nishimoto

Chiyonobu

et al. 2008

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Hypoglycosylation and reduced laminin-binding activity of α-dystroglycan are common characteristics of dystroglycanopathy, which is a group of congenital and limb-girdle muscular dystrophies. Fukuyama-type congenital muscular dystrophy (FCMD), caused by a mutation in the fukutin gene, is a severe form of dystroglycanopathy. A retrotransposal insertion in fukutin is seen in almost all cases of FCMD. To better understand the molecular pathogenesis of dystroglycanopathies and to explore therapeutic strategies, we generated knock-in mice carrying the retrotransposal insertion in the mouse fukutin ortholog. Knock-in mice exhibited hypoglycosylated α-dystroglycan; however, no signs of muscular dystrophy were observed. More sensitive methods detected minor levels of intact α-dystroglycan, and solid-phase assays determined laminin binding levels to be ∼50% of normal. In contrast, intact α-dystroglycan is undetectable in the dystrophic Largemyd mouse, and laminin-binding activity is markedly reduced. These data indicate that a small amount of intact α-dystroglycan is sufficient to maintain muscle cell integrity in knock-in mice, suggesting that the treatment of dystroglycanopathies might not require the full recovery of glycosylation. To examine whether glycosylation defects can be restored in vivo, we performed mouse gene transfer experiments. Transfer of fukutin into knock-in mice restored glycosylation of α-dystroglycan. In addition, transfer of LARGE produced laminin-binding forms of α-dystroglycan in both knock-in mice and the POMGnT1 mutant mouse, which is another model of dystroglycanopathy. Overall, these data suggest that even partial restoration of α-dystroglycan glycosylation and laminin-binding activity by replacing or augmenting glycosylation-related genes might effectively deter dystroglycanopathy progression and thus provide therapeutic benefits.

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Fukutin is required for maintenance of muscle integrity, cortical histiogenesis and normal eye development

Takeda

Kondo²,

Sasaki³

et al. 2003

Human Molecular Genetics

110

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Fukuyama-type congenital muscular dystrophy (FCMD), one of the most common autosomal-recessive disorders in Japan, is characterized by congenital muscular dystrophy associated with brain malformation due to a defect during neuronal migration. Through positional cloning, we previously identified the gene for FCMD, which encodes the fukutin protein. Here we report that chimeric mice generated using embryonic stem cells targeted for both fukutin alleles develop severe muscular dystrophy, with the selective deficiency of alpha-dystroglycan and its laminin-binding activity. In addition, these mice showed laminar disorganization of the cortical structures in the brain with impaired laminin assembly, focal interhemispheric fusion, and hippocampal and cerebellar dysgenesis. Further, chimeric mice showed anomaly of the lens, loss of laminar structure in the retina, and retinal detachment. These results indicate that fukutin is necessary for the maintenance of muscle integrity, cortical histiogenesis, and normal ocular development and suggest the functional linkage between fukutin and alpha-dystroglycan.

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Detection of K-ras mutation in sputum by mutant-allele-specific amplification (MASA)

1993

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From 10 to 30% of lung carcinomas examined to date contain mutant K-ras genes. We report here that the mutant-allele-specific amplification (MASA) method may be useful for detection of the K-ras mutations in cells obtained from the sputum of patients with lung cancer. The PCR product from one of five patients revealed an alteration when mixed oligonucleotides representing variants of the second letter at codon 12 of this gene were used as 5' primers, and further experiments showed a mutation of GGT (Gly) to GAT (Asp) at codon 12. The MASA system could also be applied to an examination of metastatic lung carcinomas, particularly from adenocarcinomas in colon and pancreas in which frequent K-ras mutations are detected, and to mass-screening for colorectal tumors using DNA isolated from feces as template.

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Satoshi Takeda

Diet-induced insulin resistance in mice lacking adiponectin/ACRP30

Deletion of Angiotensin-Converting Enzyme 2 Accelerates Pressure Overload-Induced Cardiac Dysfunction by Increasing Local Angiotensin II

Disruption of the WFS1 gene in mice causes progressive -cell loss and impaired stimulus-secretion coupling in insulin secretion

Mechanical properties of corrugated composites for candidate materials of flexible wing structures

Impaired function of p53R2 in Rrm2b-null mice causes severe renal failure through attenuation of dNTP pools

Residual laminin-binding activity and enhanced dystroglycan glycosylation by LARGE in novel model mice to dystroglycanopathy

Fukutin is required for maintenance of muscle integrity, cortical histiogenesis and normal eye development

Detection of K-ras mutation in sputum by mutant-allele-specific amplification (MASA)

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