Hirotaka Wagatsuma scite author profile

Eutherian placenta, an organ that emerged in the course of mammalian evolution, provides essential architecture, the so-called feto-maternal interface, for fetal development by exchanging nutrition, gas and waste between fetal and maternal blood. Functional defects of the placenta cause several developmental disorders, such as intrauterine growth retardation in humans and mice. A series of new inventions and/or adaptations must have been necessary to form and maintain eutherian chorioallantoic placenta, which consists of capillary endothelial cells and a surrounding trophoblast cell layer(s). Although many placental genes have been identified, it remains unknown how the feto-maternal interface is formed and maintained during development, and how this novel design evolved. Here we demonstrate that retrotransposon-derived Rtl1 (retrotransposon-like 1), also known as Peg11 (paternally expressed 11), is essential for maintenance of the fetal capillaries, and that both its loss and its overproduction cause late-fetal and/or neonatal lethality in mice.

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Identification of an imprinted gene, Meg3/Gtl2 and its human homologue MEG3, first mapped on mouse distal chromosome 12 and human chromosome 14q

Miyoshi

et al. 2000

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Background: The paternal duplication of mouse distal chromosome 12 leads to late embryonal/neonatal lethality and growth promotion, whereas maternal duplication leads to late embryonal lethality and growth retardation. Human paternal or maternal uniparental disomies of chromosome 14q that are syntenic to mouse distal chromosome 12 have also been reported to show some imprinting effects on growth, mental activity and musculoskeletal morphology. For the isolation of imprinted genes in this region, a systematic screen of maternally expressed genes (Megs) was carried out by our subtractionhybridization method using androgenetic and normally fertilized embryos.

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A Retrotransposon-Derived Gene, PEG10, Is a Novel Imprinted Gene Located on Human Chromosome 7q21

et al. 2001

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Mouse Peg9/Dlk1 and human PEG9/DLK1 are paternally expressed imprinted genes closely located to the maternally expressed imprinted genes: mouse Meg3/Gtl2 and human MEG3

et al. 2000

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Aberrant regulation of imprinted gene expression in <i>Gtl2</i><sup>lacZ</sup> mice

Sekita

Wagatsuma

Irie

et al. 2006

Cytogenet Genome Res

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The imprinted region on mouse distal chromosome 12 covers about 1 Mb and contains at least three paternally expressed genes (Pegs: Peg9/Dlk1, Peg11/Rtl1, and Dio3) and four maternally expressed genes (Megs: Meg3/Gtl2, antiPeg11/antiRlt1, Meg8/Rian, and Meg9/Mirg). Gtl2^lacZ (Gene trap locus 2) mice have a transgene (TG) insertion 2.3 kb upstream from the Meg3/Gtl2 promoter and show about 40% growth retardation when the TG-inserted allele is paternally derived. Quantitative RT-PCR experiments showed that the expression levels of Pegs in this region were reduced below 50%. These results are consistent with the observed phenotype in Gtl2^lacZ mice, because at least two Pegs(Peg9/Dlk1 and Dio3) have growth-promoting effects. The aberrant induction of Megs from silent paternal alleles was also observed in association with changes in the DNA methylation level of a differentially methylated region (DMR) located around Meg3/Gtl2 exon 1. Interestingly, a 60∼80% reduction in all Megs was observed when the TG was maternally derived, although the pups showed no apparent growth or morphological abnormalities. Therefore, the paternal or maternal inheritance of the TG results in the down-regulation in cis of either Pegs or Megs, respectively, suggesting that the TG insertion influences the mechanism regulating the entire imprinted region.

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Serial changes in expression of functionally clustered genes in progression of liver fibrosis in hepatitis C patients

Takahara¹,

Takahashi²,

Zhang³

et al. 2008

WJG

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Expression of N-type calcium channels in human adrenocortical cells and their contribution to corticosteroid synthesis

et al. 2010

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The inhibition of aldosterone activity is a useful approach for preventing the progression of cardiovascular and renal diseases in hypertensive patients. Although the results of our previous in vivo study suggested that N-type calcium channels may have a role in regulating plasma aldosterone levels, the direct relationship between N-type calcium channels and aldosterone production in adrenocortical cells has not been examined. In this study, the analysis of quantitative reverse transcription-PCR, western blotting, and immunocytological staining indicated the possible presence of N-type calcium channels in human adrenocortical cells (H295R cell line). Patch clamp analysis indicated that omega-conotoxin GVIA (CnTX), an N-type calcium channel inhibitor, suppressed voltage-dependent barium currents. During steroidogenesis, CnTX significantly reduced the transient calcium signaling induced by angiotensin II (Ang II) and partially prevented Ang II-induced aldosterone and cortisol formation with no significant influence on CYP11B2 and CYP11B1 mRNA expression. In addition, in a1B calcium channel subunits, knockdown significantly decreased Ang II-induced aldosterone formation with increments in CYP11B2 mRNA expression. We also investigated the inhibitory activities of some types of dihydropyridine calcium channel blockers (CCBs; cilnidipine: L-/N-type CCB, efonidipine: L-/T-type CCB, and nifedipine: L-type CCB), and these agents showed a dose-dependent inhibition effect on Ang II-induced aldosterone and cortisol production. Furthermore, only cilnidipine failed to suppress CYP11B1 expression in H295R cells. These results suggest that N-type calcium channels have a significant role in transducing the Ang II signal for aldosterone (and cortisol) biosynthesis, which may explain the mechanism by which N-type calcium channels regulate plasma aldosterone levels.

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Long‐term blockade of L/N‐type Ca²⁺channels by cilnidipine ameliorates repolarization abnormality of the canine hypertrophied heart

Takahara

Nakamura

Wagatsuma

et al. 2009

British J Pharmacology

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Background and purpose:The heart of the canine model of chronic atrioventricular block is known to have a ventricular electrical remodelling, which mimics the pathophysiology of long QT syndrome. Using this model, we explored a new pharmacological therapeutic strategy for the prevention of cardiac sudden death. Experimental approach: The L-type Ca 2+ channel blocker amlodipine (2.5 mg·day -1 ), L/N-type Ca 2+ channel blocker cilnidipine (5 mg·day -1 ), or the angiotensin II receptor blocker candesartan (12 mg·day -1 ) was administered orally to the dogs with chronic atrioventricular block for 4 weeks. Electropharmacological assessments with the monophasic action potential (MAP) recordings and blood sample analyses were performed before and 4 weeks after the start of drug administration. Key results: Amlodipine and cilnidipine decreased the blood pressure, while candesartan hardly affected it. The QT interval, MAP duration and beat-to-beat variability of the ventricular repolarization period were shortened only in the cilnidipine group, but such effects were not observed in the amlodipine or candesartan group. Plasma concentrations of adrenaline, angiotensin II and aldosterone decreased in the cilnidipine group. In contrast, plasma concentrations of angiotensin II and aldosterone were elevated in the amlodipine group, whereas in the candesartan group an increase in plasma levels of angiotensin II and a decrease in noradrenaline and adrenaline concentrations were observed. Conclusions and implications:Long-term blockade of L/N-type Ca 2+ channels ameliorated the ventricular electrical remodelling in the hypertrophied heart which causes the prolongation of the QT interval. This could provide a novel therapeutic strategy for the treatment of cardiovascular diseases.

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