Your search keyword '"Shirayoshi, Y."' showing total 150 results

1. A new mouse model for Down syndrome

Author

Kazuki, Y., Schulz, T. C., Shinohara, T., Kadota, M., Nishigaki, R., Inoue, T., Kimura, M., Kai, Y., Abe, S., Shirayoshi, Y., Oshimura, M., and Lubec, G., editor

Published

2003

2. Correction of a genetic defect in multipotent germline stem cells using a human artificial chromosome

Author

Kazuki, Y, Hoshiya, H, Kai, Y, Abe, S, Takiguchi, M, Osaki, M, Kawazoe, S, Katoh, M, Kanatsu-Shinohara, M, Inoue, K, Kajitani, N, Yoshino, T, Shirayoshi, Y, Ogura, A, Shinohara, T, Barrett, J C, and Oshimura, M

Published

2008

3. Refined human artificial chromosome vectors for gene therapy and animal transgenesis

Author

Kazuki, Y, Hoshiya, H, Takiguchi, M, Abe, S, Iida, Y, Osaki, M, Katoh, M, Hiratsuka, M, Shirayoshi, Y, Hiramatsu, K, Ueno, E, Kajitani, N, Yoshino, T, Kazuki, K, Ishihara, C, Takehara, S, Tsuji, S, Ejima, F, Toyoda, A, Sakaki, Y, Larionov, V, Kouprina, N, and Oshimura, M

Published

2011

4. Transcriptional activation of the anchoring protein SAP97 by heat shock factor (HSF)-1 stabilizes Kv1.5 channels in HL-1 cells

Author

Ting, Y K, Morikawa, K, Kurata, Y, Li, P, Bahrudin, U, Mizuta, E, Kato, M, Miake, J, Yamamoto, Y, Yoshida, A, Murata, M, Inoue, T, Nakai, A, Shiota, G, Higaki, K, Nanba, E, Ninomiya, H, Shirayoshi, Y, and Hisatome, I

Published

2011

5. A new mouse model for Down syndrome

Author

Kazuki, Y., primary, Schulz, T. C., additional, Shinohara, T., additional, Kadota, M., additional, Nishigaki, R., additional, Inoue, T., additional, Kimura, M., additional, Kai, Y., additional, Abe, S., additional, Shirayoshi, Y., additional, and Oshimura, M., additional

Published

2003

6. The human LIT1 CpG island is a putative imprinting control element playing an essential role in Beckwith-Wiedemann syndrome

Author

Horike, S., Mitsuya, K., Meguro, M., Kotobuki, N., Kashiwagi, A., Notsu, T., Ayabe, F., Shirayoshi, Y., and Oshimura, M.

Subjects

Beckwith-Wiedemann syndrome -- Genetic aspects, Genetic disorders -- Research, Human chromosome abnormalities -- Research, Biological sciences

Published

2001

7. Carvedilol Suppresses Apoptosis and Ion Channel Remodelling of HL-1 Cardiac Myocytes Expressing E334K cMyBPC

Author

Endo, R., additional, Bahrudin, U., additional, Notsu, T., additional, Tanno, S., additional, Onohara, T., additional, Yamaguchi, S., additional, Ikeda, N., additional, Surastri, B., additional, Nakayama, Y., additional, Ninomiya, H., additional, Shirayoshi, Y., additional, Inagaki, Y., additional, Yamamoto, K., additional, Yoshida, A., additional, and Hisatome, I., additional

Published

2015

8. A new mouse model for Down syndrome

Author

Kazuki Y, Tc, Schulz, Shinohara T, Kadota M, Nishigaki R, Inoue T, Kimura M, Yoshiteru Kai, Abe S, Shirayoshi Y, and Oshimura M

Subjects

Disease Models, Animal, Mice, Phenotype, Chimera, Chromosomes, Human, Pair 21, Animals, Humans, Mice, Transgenic, Down Syndrome

Abstract

Trisomy 21 (Ts21) is the most common live-born human aneuploidy and results in a constellation of features known as Down syndrome (DS). Ts21 is a frequent cause of congenital heart defects and the leading genetic cause of mental retardation. Although overexpression of a gene(s) or gene cluster on human chromosome 21 (Chr 21) or the genome imbalance by Ts21 has been suggested to play a key role in bringing about the diverse DS phenotypes, little is known about the molecular mechanisms underlying the various phenotypes associated with DS. Four approaches have been used to model DS to investigate the gene dosage effects of an extra copy of Chr 21 on various phenotypes; 1) Transgenic mice overexpressing a single gene from Chr 21, 2) YAC/BAC/PAC transgenic mice containing a single gene or genes on Chr 21, 3) Mice with intact/partial trisomy 16, a region with homology to human Chr 21 and 4) Human Chr 21 transchromosomal (Tc) mice. Here we review our new model system for the study of DS using the Tc technology, including the biological effects of an additional Chr 21 in vivo and in vitro.

Published

2004

9. Simultaneous Treatment with Azelnidipine and Olmesartan Inhibits Apoptosis of Hl-1 Cardiac Myocytes Expressing E334k cMyBPC

Author

Bahrudin, U., additional, Ikeda, N., additional, Utami, S., additional, Maharani, N., additional, Morikawa, K., additional, Li, P., additional, Sobirin, M., additional, Hasegawa, A., additional, Sakata, S., additional, Endo, R., additional, Rifqi, S., additional, Shirayoshi, Y., additional, Yamamoto, K., additional, Ninomiya, H., additional, and Hisatome, I., additional

Published

2013

10. Carvedilol Suppresses Apoptosis and Ion Channel Remodelling of HL-1 Cardiac Myocytes Expressing E334K cMyBPC.

Author

Endo, R., Bahrudin, U., Notsu, T., Tanno, S., Onohara, T., Yamaguchi, S., Ikeda, N., Surastri, B., Nakayama, Y., Ninomiya, H., Shirayoshi, Y., Inagaki, Y., Yamamoto, K., Yoshida, A., and Hisatome, I.

Published

2016

11. Refined human artificial chromosome vectors for gene therapy and animal transgenesis

Author

Kazuki, Y, primary, Hoshiya, H, additional, Takiguchi, M, additional, Abe, S, additional, Iida, Y, additional, Osaki, M, additional, Katoh, M, additional, Hiratsuka, M, additional, Shirayoshi, Y, additional, Hiramatsu, K, additional, Ueno, E, additional, Kajitani, N, additional, Yoshino, T, additional, Kazuki, K, additional, Ishihara, C, additional, Takehara, S, additional, Tsuji, S, additional, Ejima, F, additional, Toyoda, A, additional, Sakaki, Y, additional, Larionov, V, additional, Kouprina, N, additional, and Oshimura, M, additional

Published

2010

12. Proteomic signatures and aberrations of mouse embryonic stem cells containing a single human chromosome 21 in neuronal differentiation: An in vitro model of down syndrome

Author

Kadota, M., primary, Nishigaki, R., additional, Wang, C.C., additional, Toda, T., additional, Shirayoshi, Y., additional, Inoue, T., additional, Gojobori, T., additional, Ikeo, K., additional, Rogers, M.S., additional, and Oshimura, M., additional

Published

2004

13. A novel in vitro system for analyzing parental allele-specific histone acetylation in genomic imprinting

Author

Yoshioka, H., primary, Shirayoshi, Y., additional, and Oshimura, M., additional

Published

2001

14. Functional requirement of gp130-mediated signaling for growth and survival of mouse primordial germ cells in vitro and derivation of embryonic germ (EG) cells

Author

Koshimizu, U., primary, Taga, T., additional, Watanabe, M., additional, Saito, M., additional, Shirayoshi, Y., additional, Kishimoto, T., additional, and Nakatsuji, N., additional

Published

1996

15. REPAIRED PEROXISOME ASSEMBLY

Author

Shimozawa, N, primary, Tsukamoto, T, additional, Suzuki, Y, additional, Orii, T, additional, Shirayoshi, Y, additional, Mori, T, additional, and Fujiki, Y., additional

Published

1993

16. Transcriptional activation of the anchoring protein SAP97 by heat shock factor (HSF)-1 stabilizes K(v) 1.5 channels in HL-1 cells.

Author

Ting, YK, Morikawa, K, Kurata, Y, Li, P, Bahrudin, U, Mizuta, E, Kato, M, Miake, J, Yamamoto, Y, Yoshida, A, Murata, M, Inoue, T, Nakai, A, Shiota, G, Higaki, K, Nanba, E, Ninomiya, H, Shirayoshi, Y, Hisatome, I, and Ting, Y K

Subjects

HEAT shock proteins, MUSCLE cells, GENE expression, TRANSCRIPTION factors, ACETONE, SYNAPSES, WESTERN immunoblotting, POLYMERASE chain reaction, SMALL interfering RNA

Abstract

Background and Purpose: The expression of voltage-dependent K(+) channels (K(v) ) 1.5 is regulated by members of the heat shock protein (Hsp) family. We examined whether the heat shock transcription factor 1 (HSF-1) and its inducer geranylgeranylacetone (GGA) could affect the expression of K(v) 1.5 channels and its anchoring protein, synapse associated protein 97 (SAP97).Experimental Approach: Transfected mouse atrial cardiomyocytes (HL-1 cells) and COS7 cells were subjected to luciferase reporter gene assay and whole-cell patch clamp. Protein and mRNA extracts were subjected to Western blot and quantitative real-time polymerase chain reaction.Key Results: Heat shock of HL-1 cells induced expression of Hsp70, HSF-1, SAP97 and K(v) 1.5 proteins. These effects were reproduced by wild-type HSF-1. Both heat shock and expression of HSF-1, but not the R71G mutant, increased the SAP97 mRNA level. Small interfering RNA (siRNA) against SAP97 abolished HSF-1-induced increase of K(v) 1.5 and SAP97 proteins. A luciferase reporter gene assay revealed that the SAP97 promoter region (from -919 to -740) that contains heat shock elements (HSEs) was required for this induction. Suppression of SIRT1 function either by nicotinamide or siRNA decreased the level of SAP97 mRNA. SIRT1 activation by resveratrol had opposing effects. A treatment of the cells with GGA increased the level of SAP97 mRNA, K(v) 1.5 proteins and I(Kur) current, which could be modified with either resveratrol or nicotinamide.Conclusions and Implications: HSF-1 induced transcription of SAP97 through SIRT1-dependent interaction with HSEs; the increase in SAP97 resulted in stabilization of K(v)1.5 channels. These effects were mimicked by GGA. [ABSTRACT FROM AUTHOR]

Published

2011

17. Negative regulation of the major histocompatibility complex class I promoter in embryonal carcinoma cells.

Author

Flanagan, J. R., primary, Murata, M., additional, Burke, P. A., additional, Shirayoshi, Y., additional, Appella, E., additional, Sharp, P. A., additional, and Ozato, K., additional

Published

1991

18. REPAIRED PEROXISOME ASSEMBLY

Author

N Shimozawa, Fujiki Y, Shirayoshi Y, Suzuki Y, Mori T, Orii T, and Toshiro Tsukamoto

Subjects

business.industry, Pediatrics, Perinatology and Child Health, Gastroenterology, Medicine, Peroxisome, Bioinformatics, business

Published

1993

19. The ActR-I activin receptor protein is expressed in notochord, lens placode and pituitary primordium cells in the mouse embryo

Author

Yoshikawa, S. I., Aota, S. i., Shirayoshi, Y., and Okazaki, K.

Published

2000

20. Cadherin cell adhesion molecules with distinct binding specificities share a common structure.

Author

Shirayoshi, Y., Hatta, K., Hosoda, M., Tsunasawa, S., Sakiyama, F., and Takeichi, M.

Abstract

Ca2+‐dependent cell‐‐cell adhesion molecules, termed cadherins, are divided into subclasses with distinct tissue distributions and distinct cell‐binding specificities. To elucidate the biochemical relationship of these subclasses, we compared the pattern of tryptic cleavage and the partial amino acid sequence of mouse liver E‐cadherin with those of chicken brain N‐cadherin. Although these two cadherins are distinct in their cell‐binding and immunological specificities, they showed an identical mol. wt and a similar tryptic cleavage pattern. We isolated tryptic fragments of E‐ and N‐cadherin, and determined the sequences of nine amino acid residues of their amino terminus. The results showed that sequences of amino acids from the amino terminus to the 7th residues are identical in these two cadherins. We thus suggest that cadherins with distinct specificities have a common genic origin.

Published

1986

21. Interferon-induced transcription of a major histocompatibility class I gene accompanies binding of inducible nuclear factors to the interferon consensus sequence.

Author

Shirayoshi, Y, Burke, P A, Appella, E, and Ozato, K

Abstract

Interferon (IFN) induces transcription of major histocompatibility class I genes by way of the conserved cis-acting regulatory element, termed the IFN consensus sequence (ICS). Binding of nuclear factors to the ICS was studied in gel mobility shift assays with the 5' upstream region of the murine H-2Ld gene. We found that the ICS binds a constitutive nuclear factor present in lymphocytes and fibroblasts regardless of IFN treatment. Within 1 hr after IFN treatment, new ICS binding activity was induced, which consisted of at least two binding activities distinguished by their requirement for de novo protein synthesis. Methylation interference and competition experiments showed that both constitutive and induced factors bind to the same approximately equal to 10-base-pair binding site within the ICS. Site-directed mutagenesis of H-2Ld-chloramphenicol acetyltransferase fusion genes showed that mutations in the binding site, but not in other regions of the ICS, abolish transcriptional activation of class I genes by IFN, providing evidence that specific binding of nuclear factors to the ICS is an essential requirement for transcriptional induction. Finally, we show that IFN-inducible genes of various species share a sequence motif that is capable of competing for the nuclear factors identified here. We propose that specific protein binding to the conserved motif represents a basic mechanism of IFN-mediated transcriptional induction of a number of genes.

Published

1988

22. Binding of multiple nuclear factors to the 5' upstream regulatory element of the murine major histocompatibility class I gene

Author

Shirayoshi, Y, Miyazaki, J, Burke, P A, Hamada, K, Appella, E, and Ozato, K

Abstract

Transcription of mouse major histocompatibility complex class I genes is controlled by the conserved class I regulatory element (CRE) in the 5' flanking region. The CRE, approximately 40 base pairs long, acts as a negative control element in undifferentiated F9 embryonal carcinoma cells which do not express the major histocompatibility complex genes. The same element, however, acts as a positive control element in cells expressing the genes at high levels. To investigate the molecular basis of the regulatory role of the CRE, we studied the binding of nuclear proteins to the CRE of the H-2Ld gene by gel mobility shift and methylation interference experiments. Nuclear extracts from L fibroblasts and LH8 T lymphocytes revealed three distinct factors that bind discrete sequences within the CRE. The three sequences correspond to the inverted and direct repeats within the CRE. In contrast, F9 extracts exhibited factor binding to only two of the three sequences and lack a major factor detected in the above two cell types. Protein-binding sites within each of the three sequences were identified by methylation interference experiments. These data were in full agreement with results obtained by a competition assay performed with a series of mutant oligonucleotides containing a few nucleotide substitutions in each of the three regions. The results illustrate complex DNA-protein interactions in which several independent proteins bind to overlapping sequences in the CRE in a cell type-specific fashion.

Published

1987

23. Developmental and tissue-specific expression of nuclear proteins that bind the regulatory element of the major histocompatibility complex class I gene.

Author

Burke, P A, Hirschfeld, S, Shirayoshi, Y, Kasik, J W, Hamada, K, Appella, E, and Ozato, K

Abstract

Expression of MHC class I genes varies according to developmental stage and type of tissues. To study the basis of class I gene regulation in tissues in vivo, we examined binding of nuclear proteins to the conserved cis sequence of the murine H-2 gene, class I regulatory element (CRE), which contains two independent factor-binding sites, region I and region II. In gel mobility shift analyses we found that extracts from adult tissues that express class I genes, such as spleen and liver, had binding activity to region I. In contrast, extracts from brain, which does not express class I genes, did not show region I binding activity. In addition, fetal tissues that express class I gene at very low levels, also did not reveal region I binding activity. Binding activity to region I became detectable during the neonatal period when class I gene expression sharply increases. Most of these tissues showed binding activity to region II, irrespective of class I gene expression. Although region II contained a sequence similar to the AP-1 recognition site, AP-1 was not responsible for the region II binding activity detected in this work. These results illustrate a correlation between region I binding activity and developmental and tissue-specific expression of MHC class I genes. The CRE exerts an enhancer-like activity in cultured fibroblasts. We evaluated the significance of each factor binding to CRE. Single 2-bp mutations were introduced into the CRE by site-directed mutagenesis and the ability of each mutant to elicit the enhancer activity was tested in transient CAT assays. A mutation that eliminated region I protein binding greatly impaired enhancer activity. A mutation that eliminated region II binding also caused a lesser but measurable effect. We conclude that region I and region II are both capable of enhancing transcription of the class I gene. These results indicate that in vivo regulation of MHC class I gene expression is mediated by binding of trans-acting factors to the CRE.

Published

1989

24. Regulation of mouse CYP1A1 gene expression by dioxin: requirement of two cis-acting elements during induction

Author

Neuhold, L A, Shirayoshi, Y, Ozato, K, Jones, J E, and Nebert, D W

Abstract

The mouse cytochrome P1450 (CYP1A1) gene is responsible for the metabolism of numerous carcinogens and toxic chemicals. Induction by the environmental contaminant tetrachlorodibenzo-p-dioxin (TCDD) requires a functional aromatic hydrocarbon (Ah) receptor. We examined the 5'-flanking region of the CYP1A1 gene in mouse hepatoma Hepa-1 wild-type cells and a mutant line having a defect in chromatin binding of the TCDD-receptor complex. We identified two cis-acting elements (distal, -1071 to -901 region; proximal, -245 to -50 region) required for constitutive and TCDD-inducible CYP1A1 gene expression. Three classes of DNA-protein complexes binding to the distal element were identified: class I, found only in the presence of TCDD and a functional Ah receptor, that was heat labile and not competed against by simian virus 40 (SV40) early promoter DNA; class II, consisting of at least three constitutive complexes that were heat stable and bound to SV40 DNA; and class III, composed of at least three constitutive complexes that were thermolabile and were not competed against by SV40 DNA. Essential contacts for these proteins were centered at -993 to -990 for the class I complex, -987, -986, or both for the class II complexes, and -938 to -927 for the class III complexes. The proximal element was absolutely essential for both constitutive and TCDD-inducible CYP1A1 gene expression, and at least two constitutive complexes bound to this region. These data are consistent with the proximal element that binds proteins being necessary but not sufficient for inducible gene expression; interaction of these proteins with those at the distal element was found to be required for full CYP1A1 induction by TCDD.

Published

1989

25. The calcium-dependent cell-cell adhesion system regulates inner cell mass formation and cell surface polarization in early mouse development

Author

SHIRAYOSHI, Y

Published

1983

26. Proteomic signatures and aberrations of mouse embryonic stem cells containing a single human chromosome 21 in neuronal differentiation: An in vitro model of down syndrome

Author

Kadota, M., Nishigaki, R., Wang, C.C., Toda, T., Shirayoshi, Y., Inoue, T., Gojobori, T., Ikeo, K., Rogers, M.S., and Oshimura, M.

Subjects

*DOWN syndrome, *EMBRYONIC stem cells, *HUMAN cloning, *SPECTRUM analysis

Abstract

Neurodegeneration in fetal development of Down syndrome (DS) patients is proposed to result in apparent neuropathological abnormalities and to contribute to the phenotypic characteristics of mental retardation and premature development of Alzheimer disease. In order to identify the aberrant and specific genes involved in the early differentiation of DS neurons, we have utilized an in vitro neuronal differentiation system of mouse ES cells containing a single human chromosome 21 (TT2F/hChr21) with TT2F parental ES cells as a control. The paired protein extracts from TT2F and TT2F/hChr21 cells at several stages of neuronal differentiation were subjected to two-dimensional polyacrylamide gel electrophoresisprotein separation followed by matrix-assisted laser desorption/ionization-time of flight mass spectrometry to identify the proteins differentially expressed between TT2F and TT2F/hChr21 cells. We provide here a novel set of specific gene products altered in early differentiating DS neuronal cells, which differs from that identified in adult or fetal brain with DS. The aberrant protein expression in early differentiating neurons, due to the hChr21 gene dosage effects or chromosomal imbalance, may affect neuronal outgrowth, proliferation and differentiation, producing developmental abnormalities in neural patterning, which eventually leads to formation of a suboptimal functioning neuronal network in DS. [Copyright &y& Elsevier]

Published

2005

27. Optogenetic control of early embryos labeling using photoactivatable Cre recombinase 3.0.

Author

Morikawa K, Nagasaki A, Sun L, Kawase E, Ebihara T, and Shirayoshi Y

Subjects

Animals, Mice, Embryo, Mammalian metabolism, Light, Luminescent Proteins genetics, Luminescent Proteins metabolism, Recombination, Genetic genetics, Female, Red Fluorescent Protein, Integrases metabolism, Integrases genetics, Optogenetics methods, Mice, Transgenic

Abstract

Establishing a highly efficient photoactivatable Cre recombinase PA-Cre3.0 can allow spatiotemporal control of Cre recombinase activity. This technique may help to elucidate cell lineages, as well as facilitate gene and cell function analysis during development. This study examined the blue light-mediated optical regulation of Cre-loxP recombination using PA-Cre3.0 transgenic early mouse pre-implantation embryos. We found that inducing PA-Cre3.0 expression in the heterozygous state did not show detectable recombination activation with blue light. Conversely, in homozygous embryos, DNA recombination by PA-Cre3.0 was successfully induced by blue light and resulted in the activation of the red fluorescent protein reporter gene, while almost no leaks of Cre recombination activity were detected in embryos without light illumination. Thus, we characterize the conditions under which the PA-Cre3.0 system functions efficiently in early mouse embryos. These results are expected to provide a new optogenetic tool for certain biological studies, such as developmental process analysis and lineage tracing in early mouse embryos., (© 2024 The Author(s). FEBS Open Bio published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2024

28. Azelnidipine protects HL-1 cardiomyocytes from hypoxia/reoxygenation injury by enhancement of NO production independently of effects on gene expression.

Author

Minato H, Endo R, Kurata Y, Notsu T, Kinugasa Y, Wakimizu T, Tsuneto M, Shirayoshi Y, Ninomiya H, Yamamoto K, Hisatome I, and Otsuki A

Subjects

Animals, Mice, Gene Expression Regulation drug effects, Nitric Oxide Synthase Type III metabolism, Action Potentials drug effects, Cell Hypoxia, Cell Line, Dihydropyridines pharmacology, Myocytes, Cardiac drug effects, Myocytes, Cardiac metabolism, Myocytes, Cardiac pathology, Nitric Oxide metabolism, Azetidinecarboxylic Acid pharmacology, Azetidinecarboxylic Acid analogs & derivatives, Calcium Channel Blockers pharmacology, Apoptosis drug effects, Myocardial Reperfusion Injury metabolism, Myocardial Reperfusion Injury prevention & control, Myocardial Reperfusion Injury genetics, Myocardial Reperfusion Injury pathology

Abstract

It remains to be elucidated whether Ca 2+ antagonists induce pharmacological preconditioning to protect the heart against ischemia/reperfusion injury. The aim of this study was to determine whether and how pretreatment with a Ca 2+ antagonist, azelnidipine, could protect cardiomyocytes against hypoxia/reoxygenation (H/R) injury in vitro. Using HL-1 cardiomyocytes, we studied effects of azelnidipine on NO synthase (NOS) expression, NO production, cell death and apoptosis during H/R. Action potential durations (APDs) were determined by the whole-cell patch-clamp technique. Azelnidipine enhanced endothelial NOS phosphorylation and NO production in HL-1 cells under normoxia, which was abolished by a heat shock protein 90 inhibitor, geldanamycin, and an antioxidant, N-acetylcysteine. Pretreatment with azelnidipine reduced cell death and shortened APDs during H/R. These effects of azelnidipine were diminished by a NOS inhibitor, L-NAME, but were influenced by neither a T-type Ca 2+ channel inhibitor, NiCl 2 , nor a N-type Ca 2+ channel inhibitor, ω-conotoxin. The azelnidipine-induced reduction in cell death was not significantly enhanced by either additional azelnidipine treatment during H/R or increasing extracellular Ca 2+ concentrations. RNA sequence (RNA-seq) data indicated that azelnidipine-induced attenuation of cell death, which depended on enhanced NO production, did not involve any significant modifications of gene expression responsible for the NO/cGMP/PKG pathway. We conclude that pretreatment with azelnidipine protects HL-1 cardiomyocytes against H/R injury via NO-dependent APD shortening and L-type Ca 2+ channel blockade independently of effects on gene expression., (© 2024. Springer Nature Japan KK, part of Springer Nature.)

Published

2024

29. Inhibition of the uric acid efflux transporter ABCG2 enhances stimulating effect of soluble uric acid on IL-1β production in murine macrophage-like J774.1 cells.

Author

Notsu T, Kurata Y, Ninomiya H, Taufiq F, Komatsu K, Miake J, Sawano T, Tsuneto M, Shirayoshi Y, and Hisatome I

Subjects

Mice, Animals, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Lipopolysaccharides pharmacology, Macrophages metabolism, Interleukin-1beta genetics, Interleukin-1beta metabolism, Interleukin-1beta pharmacology, RNA, Small Interfering pharmacology, RNA, Messenger pharmacology, Caspases pharmacology, Uric Acid pharmacology, Inflammasomes metabolism, Inflammasomes pharmacology

Abstract

Soluble uric acid (UA) absorbed by cells through UA transporters (UATs) accumulates intracellularly, activates the NLRP3 inflammasome and thereby increases IL-1β secretion. ABCG2 transporter excludes intracellular UA. However, it remains unknown whether ABCG2 inhibition leads to intracellular accumulation of UA and increases IL-1β production. In this study, we examined whether genetic and pharmacological inhibition of ABCG2 could increase IL-1β production in mouse macrophage-like J774.1 cells especially under hyperuricemic conditions. We determined mRNA and protein levels of pro-IL-1β, mature IL-1β, caspase-1 and several UATs in culture supernatants and lysates of J774.1 cells with or without soluble UA pretreatment. Knockdown experiments using an shRNA against ABCG2 and pharmacological experiments with an ABCG2 inhibitor were conducted. Extracellularly applied soluble UA increased protein levels of pro-IL-1β, mature IL-1β and caspase-1 in the culture supernatant from lipopolysaccharide (LPS)-primed and monosodium urate crystal (MSU)-stimulated J774.1 cells. J774.1 cells expressed UATs of ABCG2, GLUT9 and MRP4, and shRNA knockdown of ABCG2 increased protein levels of pro-IL-1β and mature IL-1β in the culture supernatant. Soluble UA increased mRNA and protein levels of ABCG2 in J774.1 cells without either LPS or MSU treatment. An ABCG2 inhibitor, febuxostat, but not a urate reabsorption inhibitor, dotinurad, enhanced IL-1β production in cells pretreated with soluble UA. In conclusion, genetic and pharmacological inhibition of ABCG2 enhanced IL-1β production especially under hyperuricemic conditions by increasing intracellularly accumulated soluble UA that activates the NLRP3 inflammasome and pro-IL-1β transcription in macrophage-like J774.1 cells., (© 2023. The Author(s), under exclusive licence to The Japanese Society of Hypertension.)

Published

2023

30. Deep learning-based identification of sinoatrial node-like pacemaker cells from SHOX2/HCN4 double-positive cells differentiated from human iPS cells.

Author

Wakimizu T, Naito J, Ishida M, Kurata Y, Tsuneto M, Shirayoshi Y, and Hisatome I

Abstract

Background: Cardiomyocytes derived from human iPS cells (hiPSCs) include cells showing SAN- and non-SAN-type spontaneous APs., Objectives: To examine whether the deep learning technology could identify hiPSC-derived SAN-like cells showing SAN-type-APs by their shape., Methods: We acquired phase-contrast images for hiPSC-derived SHOX2/HCN4 double-positive SAN-like and non-SAN-like cells and made a VGG16-based CNN model to classify an input image as SAN-like or non-SAN-like cell, compared to human discriminability., Results: All parameter values such as accuracy, recall, specificity, and precision obtained from the trained CNN model were higher than those of human classification., Conclusions: Deep learning technology could identify hiPSC-derived SAN-like cells with considerable accuracy., Competing Interests: Authors declare no conflict of interests for this article., (© 2023 The Authors. Journal of Arrhythmia published by John Wiley & Sons Australia, Ltd on behalf of Japanese Heart Rhythm Society.)

Published

2023

31. Effects of Conditioned Medium of Adipose-Derived Stem Cells Exposed to Platelet-Rich Plasma on the Expression of Endothelial Nitric Oxide Synthase and Angiogenesis by Endothelial Cells.

Author

Morita M, Suyama Y, Notsu T, Fukuoka K, Ikuta K, Kanayama H, Umeda R, Teraoka S, Minato H, Ninomiya H, Tsuneto M, Shirayoshi Y, Hisatome I, and Yagi S

Subjects

Humans, Rats, Animals, Culture Media, Conditioned pharmacology, Nitric Oxide Synthase Type III, Human Umbilical Vein Endothelial Cells metabolism, Neovascularization, Physiologic, Stem Cells metabolism, Adipose Tissue metabolism, Cells, Cultured, Vascular Endothelial Growth Factor A metabolism, Platelet-Rich Plasma metabolism

Abstract

Abstract: Platelet-rich plasma (PRP) and adipose-derived stem cells (ADSCs) are known to secrete angiogenic factors that contribute to the treatment of intractable ulcers. The combination of PRP and ADSCs may enhance their angiogenic effects. However, it remains unclear whether treatment of ADSCs with PRP influences angiogenesis. We studied whether the conditioned medium from PRP-treated ADSCs under hypoxic conditions exerts angiogenic effects. Although PRP stimulated the proliferation of ADSCs obtained from rats, it decreased the mRNA levels of vascular endothelial growth factor, hepatocyte growth factor, and TGF-β1, but not of basic fibroblast growth factor, under hypoxia. The conditioned medium of PRP-treated ADSCs inhibited endothelial nitric oxide synthase phosphorylation, decreased NO production, and suppressed tube formation in human umbilical vein endothelial cells. Transplantation of ADSCs alone increased both blood flow and capillary density of the ischemic limb; however, its combination with PRP did not further improve blood flow or capillary density. This suggests that both conditioned medium of ADSCs treated with PRP and combination of PRP with ADSCs transplantation may attenuate the phosphorylation of endothelial nitric oxide synthase and angiogenesis., Competing Interests: Conflicts of interest and sources of funding: None declared., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2023

32. CORRIGENDUM: β-Adrenergic Blocker, Carvedilol, Abolishes Ameliorating Actions of Adipose-Derived Stem Cell Sheets on Cardiac Dysfunction and Remodeling After Myocardial Infarction.

Author

Adachi M, Watanabe M, Kurata Y, Inoue Y, Notsu T, Yamamoto K, Horie H, Tanno S, Morita M, Miake J, Hamada T, Kuwabara M, Nakasone N, Ninomiya H, Tsuneto M, Shirayoshi Y, Yoshida A, Nishimura M, Yamamoto K, and Hisatome I

Published

2023

33. SHOX2 refines the identification of human sinoatrial nodal cell population in the in vitro cardiac differentiation.

Author

Wakimizu T, Morikawa K, Fukumura K, Yuki T, Adachi T, Kurata Y, Miake J, Hisatome I, Tsuneto M, and Shirayoshi Y

Abstract

Introduction: Dysfunction of the sinoatrial node (SAN) cells causes arrhythmias, and many patients require artificial cardiac pacemaker implantation. However, the mechanism of impaired SAN automaticity remains unknown, and the generation of human SAN cells in vitro may provide a platform for understanding the pathogenesis of SAN dysfunction. The short stature homeobox 2 ( SHOX2 ) and hyperpolarization-activated cyclic nucleotide-gated cation channel 4 ( HCN4 ) genes are specifically expressed in SAN cells and are important for SAN development and automaticity. In this study, we aimed to purify and characterize human SAN-like cells in vitro, using HCN4 and SHOX2 as SAN markers., Methods: We developed an HCN4-EGFP/SHOX2-mCherry dual reporter cell line derived from human induced pluripotent stem cells (hiPSCs), and HCN4 and SHOX2 gene expressions were visualized using the fluorescent proteins EGFP and mCherry, respectively. The dual reporter cell line was established using an HCN4-EGFP bacterial artificial chromosome-based semi-knock-in system and a CRISPR-Cas9-dependent knock-in system with a SHOX2-mCherry targeting vector. Flow cytometry, RT-PCR, and whole-cell patch-clamp analyses were performed to identify SAN-like cells., Results: Flow cytometry analysis and cell sorting isolated HCN4-EGFP single-positive (HCN4 + /SHOX2 - ) and HCN4-EGFP/SHOX2-mCherry double-positive (HCN4 + /SHOX2 + ) cells. RT-PCR analyses showed that SAN-related genes were enriched within the HCN4 + /SHOX2 + cells. Further, electrophysiological analyses showed that approximately 70% of the HCN4 + /SHOX2 + cells exhibited SAN-like electrophysiological characteristics, as defined by the action potential parameters of the maximum upstroke velocity and action potential duration., Conclusions: The HCN4-EGFP/SHOX2-mCherry dual reporter hiPSC system developed in this study enabled the enrichment of SAN-like cells within a mixed HCN4 + /SHOX2 + population of differentiating cardiac cells. This novel cell line is useful for the further enrichment of human SAN-like cells. It may contribute to regenerative medicine, for example, biological pacemakers, as well as testing for cardiotoxic and chronotropic actions of novel drug candidates., Competing Interests: None., (© 2022 The Japanese Society for Regenerative Medicine. Production and hosting by Elsevier B.V.)

Published

2022

34. Kv1.5 channel mediates monosodium urate-induced activation of NLRP3 inflammasome in macrophages and arrhythmogenic effects of urate on cardiomyocytes.

Author

Li P, Kurata Y, Taufiq F, Kuwabara M, Ninomiya H, Higaki K, Tsuneto M, Shirayoshi Y, Lanaspa MA, and Hisatome I

Subjects

Animals, Caspase 1 metabolism, Humans, Inflammasomes metabolism, Interleukin-1beta genetics, Lipopolysaccharides pharmacology, Macrophages metabolism, Mice, Myocytes, Cardiac metabolism, NLR Family, Pyrin Domain-Containing 3 Protein genetics, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Uric Acid metabolism, Uric Acid pharmacology, Atrial Remodeling, Gout drug therapy, Gout metabolism, Gout pathology, Kv1.5 Potassium Channel metabolism

Abstract

Background: Gout is usually found in patients with atrial fibrillation (AF). K+ efflux is a common trigger of NLRP3 inflammasome activation which is involved in the pathogenesis of AF. We investigated the role of the K+ channel Kv1.5 in monosodium urate crystal (MSU)-induced activation of the NLRP3 inflammasome and electrical remodeling in mouse and human macrophages J774.1 and THP-1, and mouse atrial myocytes HL-1., Methods and Results: Macrophages, primed with lipopolysaccharide (LPS), were stimulated by MSU. HL-1 cells were incubated with the conditioned medium (CM) from MSU-stimulated macrophages. Western blot, ELISA and patch clamp were used. MSU induced caspase-1 expression in LPS-primed J774.1 cells and IL-1β secretion, suggesting NLRP3 inflammasome activation. A selective Kv1.5 inhibitor, diphenyl phosphine oxide-1 (DPO-1), and siRNAs against Kv1.5 suppressed the levels of caspase-1 and IL-1β. MSU reduced intracellular K + concentration which was prevented by DPO-1 and siRNAs against Kv1.5. MSU increased expression of Hsp70, and Kv1.5 on the plasma membrane. siRNAs against Hsp70 were suppressed but heat shock increased the expression of Hsp70, caspase-1, IL-1β, and Kv1.5 in MSU-stimulated J774.1 cells. The CM from MSU-stimulated macrophages enhanced the expression of caspase-1, IL-1β and Kv1.5 with increased Kv1.5-mediated currents that shortened action potential duration in HL-1 cells. These responses were abolished by DPO-1 and a siRNA against Kv1.5., Conclusions: Kv1.5 regulates MSU-induced activation of NLRP3 inflammasome in macrophages. MSUrelated activation of NLRP3 inflammasome and electrical remodeling in HL-1 cells are via macrophages. Kv1.5 may have therapeutic value for diseases related to gout-induced activation of the NLRP3 inflammsome, including AF., (© 2022. The Author(s).)

Published

2022

35. Hsp70 promotes maturation of uromodulin mutants that cause familial juvenile hyperuricemic nephropathy and suppresses cellular damage.

Author

Utami SB, Endo R, Hamada T, Notsu T, Minato H, Komatsu K, Nakayama Y, Shirayoshi Y, Yamamoto K, Okada S, Ninomiya H, Otuki A, and Hisatome I

Subjects

Apoptosis Regulatory Proteins genetics, Gout, HEK293 Cells, Humans, Kidney Diseases, Pedigree, Uromodulin genetics, Hyperuricemia genetics

Abstract

Background: Familial juvenile hyperuricemic nephropathy (FJHN) is an autosomal dominant disorder caused by mutations in UMOD. Here we studied effects of genetic expression and pharmacological induction of Hsp70 on the UMOD mutants C112Y and C217G., Methods: We expressed wild type (WT), C112Y and C217G in HEK293 cells and studied their maturation and cellular damage using western blot and flow cytometry., Results: Expression of C112Y or C217G increased pro-apoptotic proteins, decreased anti-apoptotic proteins, and induced cellular apoptosis as examined by annexin V staining and flow cytometry. Overexpression of Hsp70 or administration of an Hsp70 inducer geranylgeranylacetone (GGA) promoted maturation of the mutant proteins, increased their secreted forms, normalized the levels of pro- and anti-apoptotic proteins and suppressed apoptosis., Conclusion: These findings indicated that Hsp70 enhanced maturation of C112Y and C217G and reduced cellular apoptosis, suggesting that Hsp70 induction might be of a therapeutic value for treatment of FJHN., (© 2022. The Author(s), under exclusive licence to The Japanese Society of Nephrology.)

Published

2022

36. α1-Adrenergic receptor mediates adipose-derived stem cell sheet-induced protection against chronic heart failure after myocardial infarction in rats.

Author

Horie H, Hisatome I, Kurata Y, Yamamoto Y, Notsu T, Adachi M, Li P, Kuwabara M, Sakaguchi T, Kinugasa Y, Miake J, Koba S, Tsuneto M, Shirayoshi Y, Ninomiya H, Ito S, Kitakaze M, Yamamoto K, Yoshikawa Y, and Nishimura M

Subjects

Animals, Human Umbilical Vein Endothelial Cells, Humans, Neovascularization, Physiologic, Rats, Rats, Inbred Lew, Stem Cells, Vascular Endothelial Growth Factor A, Heart Failure, Myocardial Infarction complications, Receptors, Adrenergic, alpha-1

Abstract

Cell-based therapy using adipose-derived stem cells (ADSCs) has emerged as a novel therapeutic approach to treat heart failure after myocardial infarction (MI). The purpose of this study was to determine whether inhibition of α1-adrenergic receptors (α1-ARs) in ADSCs attenuates ADSC sheet-induced improvements in cardiac functions and inhibition of remodeling after MI. ADSCs were isolated from fat tissues of Lewis rats. In in vitro studies using cultured ADSCs, we determined the mRNA levels of vascular endothelial growth factor (VEGF)-A and α1-AR under normoxia or hypoxia and the effects of norepinephrine and an α1-blocker, doxazosin, on the mRNA levels of angiogenic factors. Hypoxia increased α1-AR and VEGF mRNA levels in ADSCs. Norepinephrine further increased VEGF mRNA expression under hypoxia; this effect was abolished by doxazosin. Tube formation of human umbilical vein endothelial cells was promoted by conditioned media of ADSCs treated with the α1 stimulant phenylephrine under hypoxia but not by those of ADSCs pretreated with phenylephrine plus doxazosin. In in vivo studies using rats with MI, transplanted ADSC sheets improved cardiac functions, facilitated neovascularization, and suppressed fibrosis after MI. These effects were abolished by doxazosin treatment. Pathway analysis from RNA sequencing data predicted significant upregulation of α1-AR mRNA expression in transplanted ADSC sheets and the involvement of α1-ARs in angiogenesis through VEGF. In conclusion, doxazosin abolished the beneficial effects of ADSC sheets on rat MI hearts as well as the enhancing effect of norepinephrine on VEGF expression in ADSCs, indicating that ADSC sheets promote angiogenesis and prevent cardiac dysfunction and remodeling after MI via their α1-ARs., (© 2021. The Author(s), under exclusive licence to The Japanese Society of Hypertension.)

Published

2022

37. Esm1 and Stc1 as Angiogenic Factors Responsible for Protective Actions of Adipose-Derived Stem Cell Sheets on Chronic Heart Failure After Rat Myocardial Infarction.

Author

Watanabe M, Horie H, Kurata Y, Inoue Y, Notsu T, Wakimizu T, Adachi M, Yamamoto K, Morikawa K, Kuwabara M, Sakaguchi T, Morisaki T, Miake J, Nishimura M, Tsuneto M, Shirayoshi Y, Ito S, Kitakaze M, Ninomiya H, Yamamoto K, and Hisatome I

Subjects

Angiogenesis Inducing Agents, Animals, Human Umbilical Vein Endothelial Cells, Humans, Rats, Stem Cell Transplantation, Adipose Tissue, Heart Failure therapy, Myocardial Infarction therapy

Abstract

Background: Although adipose-derived stem cell (ADSC) sheets improve the cardiac function after myocardial infarction (MI), underlying mechanisms remain to be elucidated. The aim of this study was to determine the fate of transplanted ADSC sheets and candidate angiogenic factors released from ADSCs for their cardiac protective actions., Methods and results: MI was induced by ligation of the left anterior descending coronary artery. Sheets of transgenic (Tg)-ADSCs expressing green fluorescence protein (GFP) and luciferase or wild-type (WT)-ADSCs were transplanted 1 week after MI. Both WT- and Tg-ADSC sheets improved cardiac functions evaluated by echocardiography at 3 and 5 weeks after MI. Histological examination at 5 weeks after MI demonstrated that either sheet suppressed fibrosis and increased vasculogenesis. Luciferase signals from Tg-ADSC sheets were detected at 1 and 2 weeks, but not at 4 weeks, after transplantation. RNA sequencing of PKH (yellow-orange fluorescent dye with long aliphatic tails)-labeled Tg-ADSCs identified mRNAs of 4 molecules related to angiogenesis, including those of Esm1 and Stc1 that increased under hypoxia. Administration of Esm1 or Stc1 promoted tube formation by human umbilical vein endothelial cells., Conclusions: ADSC sheets improved cardiac contractile functions after MI by suppressing cardiac fibrosis and enhancing neovascularization. Transplanted ADSCs existed for >2 weeks on MI hearts and produced the angiogenic factors Esm1 and Stc1, which may improve cardiac functions after MI.

Published

2021

38. Evidence for Urate Uptake Through Monocarboxylate Transporter 9 Expressed in Mammalian Cells and Its Enhancement by Heat Shock.

Author

Otani N, Kurata Y, Maharani N, Kuwabara M, Ikeda N, Notsu T, Li P, Miake J, Yoshida A, Sakaguchi H, Higaki K, Nakasone N, Tsuneto M, Shirayoshi Y, Ouchi M, Ninomiya H, Yamamoto K, Anzai N, and Hisatome I

Abstract

Background: Monocarboxylate transporter 9 (MCT9), an orphan transporter member of the solute carrier family 16 (SLC16), possibly reabsorbs uric acid in the renal tubule and has been suggested by genome-wide association studies to be involved in the development of hyperuricemia and gout. In this study we investigated the mechanisms regulating the expression of human (h) MCT9, its degradation, and physiological functions. Methods and Results: hMCT9-FLAG was stably expressed in HEK293 cells and its degradation, intracellular localization, and urate uptake activities were assessed by pulse-chase analysis, immunofluorescence, and [ 14 C]-urate uptake experiments, respectively. hMCT9-FLAG was localized on the plasma membrane as well as in the endoplasmic reticulum and Golgi apparatus. The proteasome inhibitors MG132 and lactacystine increased levels of hMCT9-FLAG protein expression with enhanced ubiquitination, prolonged their half-life, and decreased [ 14 C]-urate uptake. [ 14 C]-urate uptake was increased by both heat shock (HS) and the HS protein inducer geranylgeranylacetone (GGA). Both HS and GGA restored the [ 14 C]-urate uptake impaired by MG132. Conclusions: hMCT9 does transport urate and is degraded by a proteasome, inhibition of which reduces hMCT9 expression on the cell membrane and urate uptake. HS enhanced urate uptake through hMCT9., Competing Interests: I.H. reports receiving lecturer fees from Mochida Pharmaceutical Company, Sanwa Kagaku Kenkyusho Co. Ltd., Pfizer Co. Ltd., Teijin Pharma Co. Ltd., and Fuji Yakuhin Co. Ltd., and research grants from Mochida Pharmaceutical Company, Teijin Pharma Co. Ltd., Fuji Yakuhin Co. Ltd., and Sanwa Kagaku Kenkyusho Co. Ltd. I.H. is a member of Circulation Reports ’ Editorial Team. The other authors report no conflicts of interest., (Copyright © 2020, THE JAPANESE CIRCULATION SOCIETY.)

Published

2020

39. Pretreatment with cilnidipine attenuates hypoxia/reoxygenation injury in HL-1 cardiomyocytes through enhanced NO production and action potential shortening.

Author

Minato H, Hisatome I, Kurata Y, Notsu T, Nakasone N, Ninomiya H, Hamada T, Tomomori T, Okamura A, Miake J, Tsuneto M, Shirayoshi Y, Endo R, Otsuki A, Okada F, and Inagaki Y

Subjects

Animals, Apoptosis drug effects, Cell Line, Cell Survival drug effects, Gene Knockdown Techniques, Mice, Myocytes, Cardiac metabolism, Nitric Oxide Synthase Type III genetics, Nitric Oxide Synthase Type III metabolism, Phosphorylation drug effects, RNA, Small Interfering, Rats, Action Potentials drug effects, Calcium Channel Blockers pharmacology, Dihydropyridines pharmacology, Hypoxia metabolism, Myocytes, Cardiac drug effects, Nitric Oxide metabolism

Abstract

Myocardial ischemia/reperfusion injury worsens in the absence of nitric oxide synthase (NOS). Cilnidipine, a Ca 2+ channel blocker, has been reported to activate endothelial NOS (eNOS) and increases nitric oxide (NO) in vascular endothelial cells. We examined whether pretreatment with cilnidipine could attenuate cardiac cell deaths including apoptosis caused by hypoxia/reoxygenation (H/R) injury. HL-1 mouse atrial myocytes as well as H9c2 rat ventricular cells were exposed to H/R, and cell viability was evaluated by an autoanalyzer and flow cytometry; eNOS expression, NO production, and electrophysiological properties were also evaluated by western blotting, colorimetry, and patch clamping, respectively, in the absence and presence of cilnidipine. Cilnidipine enhanced phosphorylation of eNOS and NO production in a concentration-dependent manner, which was abolished by siRNAs against eNOS or an Hsp90 inhibitor, geldanamycin. Pretreatment with cilnidipine attenuated cell deaths including apoptosis during H/R; this effect was reproduced by an NO donor and a xanthine oxidase inhibitor. The NOS inhibitor L-NAME abolished the protective action of cilnidipine. Pretreatment with cilnidipine also attenuated H9c2 cell death during H/R. Additional cilnidipine treatment during H/R did not significantly enhance its protective action. There was no significant difference in the protective effect of cilnidipine under normal and high Ca 2+ conditions. Action potential duration (APD) of HL-1 cells was shortened by cilnidipine, with this shortening augmented after H/R. L-NAME attenuated the APD shortening caused by cilnidipine. These findings indicate that cilnidipine enhances NO production, shortens APD in part by L-type Ca 2+ channel block, and thereby prevents HL-1 cell deaths during H/R.

Published

2020

40. β-Adrenergic Blocker, Carvedilol, Abolishes Ameliorating Actions of Adipose-Derived Stem Cell Sheets on Cardiac Dysfunction and Remodeling After Myocardial Infarction.

Author

Adachi M, Watanabe M, Kurata Y, Inoue Y, Notsu T, Yamamoto K, Horie H, Tanno S, Morita M, Miake J, Hamada T, Kuwabara M, Nakasone N, Ninomiya H, Tsuneto M, Shirayoshi Y, Yoshida A, Nishimura M, Yamamoto K, and Hisatome I

Subjects

Animals, Cell Hypoxia, Cells, Cultured, Disease Models, Animal, Fibrosis, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Humans, Male, Mesenchymal Stem Cells metabolism, Myocardial Infarction metabolism, Myocardial Infarction pathology, Myocardial Infarction physiopathology, Neovascularization, Physiologic drug effects, Phosphorylation, Rats, Inbred Lew, Receptors, Vascular Endothelial Growth Factor metabolism, Recovery of Function, Vascular Endothelial Growth Factor A metabolism, Ventricular Remodeling drug effects, Adrenergic beta-Antagonists pharmacology, Carvedilol pharmacology, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells drug effects, Myocardial Contraction drug effects, Myocardial Infarction surgery, Subcutaneous Fat cytology, Ventricular Function, Left drug effects

Abstract

Background: Treatment of myocardial infarction (MI) includes inhibition of the sympathetic nervous system (SNS). Cell-based therapy using adipose-derived stem cells (ASCs) has emerged as a novel therapeutic approach to treat heart failure in MI. The purpose of this study was to determine whether a combination of ASC transplantation and SNS inhibition synergistically improves cardiac functions after MI., Methods and results: ASCs were isolated from fat tissues of Lewis rats. In in vitro studies using cultured ASC cells, mRNA levels of angiogenic factors under normoxia or hypoxia, and the effects of norepinephrine and a β-blocker, carvedilol, on the mRNA levels were determined. Hypoxia increased vascular endothelial growth factor (VEGF) mRNA in ASCs. Norepinephrine further increased VEGF mRNA; this effect was unaffected by carvedilol. VEGF promoted VEGF receptor phosphorylation and tube formation of human umbilical vein endothelial cells, which were inhibited by carvedilol. In in vivo studies using a rat MI model, transplanted ASC sheets improved contractile functions of MI hearts; they also facilitated neovascularization and suppressed fibrosis after MI. These beneficial effects of ASC sheets were abolished by carvedilol. The effects of ASC sheets and carvedilol on MI heart functions were confirmed by Langendorff perfusion experiments using isolated hearts., Conclusions: ASC sheets prevented cardiac dysfunctions and remodeling after MI in a rat model via VEGF secretion. Inhibition of VEGF effects by carvedilol abolished their beneficial effects.

Published

2019

41. Novel dual-reporter transgenic rodents enable cell tracking in animal models of stem cell transplantation.

Author

Morikawa K, Nakamura K, Suyama Y, Yamamoto K, Fukuoka K, Yagi S, Shirayoshi Y, Ohbayashi T, and Hisatome I

Abstract

In the present study, we have established a novel transgenic mouse and transgenic rats with dual reporters of EGFP and ELuc. In these transgenic (Tg) rodents, both GFP fluorescent and luciferase luminescent signals were ubiquitously detected in the heart, liver, kidney and testis, while only the GFP signal was detected in the brain. This expression system is based on a P2A linked EGFP/ELuc protein allowing both signals to be generated simultaneously. Microscopy experiments, FCM, and luciferase assays showed strong expression in freshly isolated ADSCs from Tg rodents upon transplantation of Tg rat-derived ADSCs into wild-type-mice. The ELuc transgene signal was observed and traced in vivo , and EGFP positive cells could be recovered from ELuc positive tissues in engraftment sites of wild-type mice for multiple analysis. These dual reporter Tg rodents are a useful reconstituted model system of regenerative medicine and are a valuable tool to study stem cells.

Published

2019

42. Uric Acid-Induced Enhancements of Kv1.5 Protein Expression and Channel Activity via the Akt-HSF1-Hsp70 Pathway in HL-1 Atrial Myocytes.

Author

Taufiq F, Maharani N, Li P, Kurata Y, Ikeda N, Kuwabara M, Otani N, Miake J, Hasegawa A, Tsuneto M, Shirayoshi Y, Ninomiya H, Saitoh T, Nakai A, Yamamoto K, and Hisatome I

Subjects

Animals, Cell Line, Kv1.5 Potassium Channel drug effects, Mice, Phosphorylation drug effects, Protein Biosynthesis, Transcription, Genetic, HSP70 Heat-Shock Proteins metabolism, Heat Shock Transcription Factors metabolism, Kv1.5 Potassium Channel metabolism, Myocytes, Cardiac metabolism, Proto-Oncogene Proteins c-akt metabolism, Uric Acid pharmacology

Abstract

Background: Intracellular uric acid is known to increase the protein level and channel current of atrial Kv1.5; however, mechanisms of the uric acid-induced enhancement of Kv1.5 expression remain unclear. Methods and Results: The effects of uric acid on mRNA and protein levels of Kv1.5, as well as those of Akt, HSF1 and Hsp70, in HL-1 cardiomyocytes were studied by using qRT-PCR and Western blotting. The uptake of uric acid was measured using radio-labeled uric acid. The Kv1.5-mediated channel current was also measured by using patch clamp techniques. Uric acid up-taken by HL-1 cells significantly increased the level of Kv1.5 proteins in a concentration-dependent manner, with this increase abolished by an uric acid transporter inhibitor. Uric acid slowed degradation of Kv1.5 proteins without altering its mRNA level. Uric acid enhanced phosphorylation of Akt and HSF1, and thereby increased both transcription and translation of Hsp70; these effects were abolished by a PI3K inhibitor. Hsp70 knockdown abolished the uric acid-induced increases of Kv1.5 proteins and channel currents., Conclusions: Intracellular uric acid could stabilize Kv1.5 proteins through phosphorylation of Akt and HSF1 leading to enhanced expression of Hsp70.

Published

2019

43. Inhibitory effects of class I antiarrhythmic agents on Na + and Ca 2+ currents of human iPS cell-derived cardiomyocytes.

Author

Yonemizu S, Masuda K, Kurata Y, Notsu T, Higashi Y, Fukumura K, Li P, Ninomiya H, Miake J, Tsuneto M, Shirayoshi Y, and Hisatome I

Abstract

Introduction: Human induced pluripotent stem cells (hiPSCs) harboring cardiac myosin heavy chain 6 promoter can differentiate into functional cardiomyocytes called "iCell cardiomyocytes" under blasticidin treatment condition. While iCell cardiomyocytes are expected to be used for predicting cardiotoxicity of drugs, their responses to antiarrhythmic agents remain to be elucidated. We first examined electrophysiological properties of iCell cardiomyocytes and mRNA levels of ion channels and Ca handling proteins, and then evaluated effects of class I antiarrhythmic agents on their Na + and Ca 2+ currents., Methods: iCell cardiomyocytes were cultured for 8-14 days (38-44 days after inducing their differentiation), according to the manufacturer's protocol. We determined their action potentials (APs) and sarcolemmal ionic currents using whole-cell patch clamp techniques, and also mRNA levels of ion channels and Ca handling proteins by RT-PCR. Effects of three class I antiarrhythmic agents, pirmenol, pilsicainide and mexiletine, on Na + channel current (I Na ) and L-type Ca 2+ channel current (I CaL ) were evaluated by the whole-cell patch clamp., Results: iCell cardiomyocytes revealed sinoatrial node-type (18%), atrial-type (18%) and ventricular-type (64%) spontaneous APs. The maximum peak amplitudes of I Na , I CaL , and rapidly-activating delayed-rectifier K + channel current were -62.7 ± 13.7, -8.1 ± 0.7, and 3.0 ± 1.0 pA/pF, respectively. The hyperpolarization-activated cation channel and inward-rectifier K + channel currents were observed, whereas the T-type Ca 2+ channel or slowly-activating delayed-rectifier K + channel current was not detectable. mRNAs of Nav1.5, Cav1.2, Kir2.1, HCN4, KvLQT1, hERG and SERCA2 were detected, while that of HCN1, minK or MiRP was not. The class Ia antiarrhythmic agent pirmenol and class Ic agent pilsicainide blocked I Na in a concentration-dependent manner with IC 50 of 0.87 ± 0.37 and 0.88 ± 0.16 μM, respectively; the class Ib agent mexiletine revealed weak I Na block with a higher IC 50 of 30.0 ± 3.0 μM. Pirmenol, pilsicainide and mexiletine blocked I CaL with IC 50 of 2.00 ± 0.39, 7.7 ± 2.5 and 5.0 ± 0.1 μM, respectively., Conclusions: In iCell cardiomyocytes, I Na was blocked by the class Ia and Ic antiarrhythmic agents and I CaL was blocked by all the class I agents within the ranges of clinical concentrations, suggesting their cardiotoxicity.

Published

2019

44. Pretreatment with an angiotensin II receptor blocker abolished ameliorating actions of adipose-derived stem cell sheets on cardiac dysfunction and remodeling after myocardial infarction.

Author

Yamamoto K, Kurata Y, Inoue Y, Adachi M, Tsuneto M, Miake J, Ogino K, Ninomiya H, Yoshida A, Shirayoshi Y, Suyama Y, Yagi S, Nishimura M, Yamamoto K, and Hisatome I

Abstract

Introduction: Cell sheets using myoblasts have been developed for the treatment of heart failure after myocardial infarction (MI) bridging to heart transplantation. Stem cells are supposed to be better than myoblasts as a source of cells, since they possess a potential to proliferate and differentiate into cardiomyocytes, and also have capacity to secrete angiogenic factors. Adipose-derived stem cells (ASCs) obtained from fat tissues are expected to be a new cell source for ASC sheet therapies. Administration of angiotensin II receptor blockers (ARBs) is a standard therapy for heart failure after MI. However, it is not known whether ARBs affect the cell sheet therapy. This study aimed to examine ameliorating effects of ASC sheets on heart failure and remodeling after MI, and how pretreatment with ARBs prior to the creation of MI and ASC sheet transplantation modifies the effects of ASC sheets., Methods: ASCs were isolated from fat tissues of wild-type rats, and ASC sheets were engineered on temperature-responsive dishes. In in vitro studies using cultured cells, mRNA levels of vascular endothelial growth factor (VEGF) in ASCs were determined by RT-PCR in the presence of angiotensin II and/or an ARB, irbesartan, under normoxia and hypoxia; mRNA and protein levels of angiotensin II receptor type 1a (AT1aR), type 1b (AT1bR) and type 2 (AT2R) were also determined by RT-PCR and western blotting. In in vivo studies using a rat MI model, effects of transplanted ASC sheets and/or irbesartan on cardiac functions and remodeling after MI were evaluated by echocardiography, histological analysis and molecular biological techniques., Results: In the in vitro studies, ASCs expressed higher levels of VEGF mRNA under hypoxia. They also expressed mRNA and protein of AT1aR but not AT1bR or AT2R. Under normoxia, angiotensin II increased the level of VEGF mRNA in ASCs, which was abolished by irbesartan. Under hypoxia, irbesartan reduced the level of VEGF mRNA in ASCs regardless of whether angiotensin II was present or not. In the in vivo studies, ASC sheets improved cardiac functions after MI, leading to decreased interstitial fibrosis and increased capillary density in border zones. These effects of ASC sheets were abolished by oral administration of irbesartan before MI and their transplantation., Conclusions: ASC sheets ameliorated cardiac dysfunctions and remodeling after MI via increasing VEGF expression, which was abolished by pretreatment with irbesartan before the creation of MI and transplantation.

Published

2018

45. Protective Effects of Topiroxostat on an Ischemia-Reperfusion Model of Rat Hearts.

Author

Tanno S, Yamamoto K, Kurata Y, Adachi M, Inoue Y, Otani N, Mishima M, Yamamoto Y, Kuwabara M, Ogino K, Miake J, Ninomiya H, Shirayoshi Y, Okada F, Yamamoto K, and Hisatome I

Subjects

Allopurinol pharmacology, Allopurinol therapeutic use, Animals, Arrhythmias, Cardiac drug therapy, Nitriles pharmacology, Protective Agents pharmacology, Protective Agents therapeutic use, Pyridines pharmacology, Rats, Reactive Oxygen Species metabolism, Thiobarbituric Acid Reactive Substances metabolism, Ventricular Dysfunction, Left prevention & control, Xanthine Dehydrogenase antagonists & inhibitors, Myocardial Reperfusion Injury drug therapy, Nitriles therapeutic use, Pyridines therapeutic use

Abstract

Background: Ischemia/reperfusion (I/R) injury triggers cardiac dysfunctions via creating reactive oxygen species (ROS). Because xanthine oxidase (XO) is one of the major enzymes that generate ROS, inhibition of XO is expected to suppress ROS-induced I/R injury. However, it remains unclear whether XO inhibition really yields cardioprotection during I/R. The protective effects of the XO inhibitors, topiroxostat and allopurinol, on cardiac I/R injury were evaluated.Methods and Results:Using isolated rat hearts, ventricular functions, occurrence of arrhythmias, XO activities and thiobarbituric acid reactive substances (TBARS) productions and myocardial levels of adenine nucleotides before and after I/R, and cardiomyocyte death markers during reperfusion, were evaluated. Topiroxostat prevented left ventricular dysfunctions and facilitated recovery from arrhythmias during I/R. Allopurinol and the antioxidant, N-acetylcysteine (NAC), exhibited similar effects at higher concentrations. Topiroxostat inhibited myocardial XO activities and TBARS productions after I/R. I/R decreased myocardial levels of ATP, ADP and AMP, but increased that of xanthine. While topiroxostat, allopurinol or NAC did not change myocardial levels of ATP, ADP or AMP after I/R, all of the agents decreased the level of xanthine. They also decreased releases of CPK and LDH during reperfusion., Conclusions: Topiroxostat showed protective effects against I/R injury with higher potency than allopurinol or NAC. It dramatically inhibited XO activity and TBARS production, suggesting suppression of ROS generation.

Published

2018

46. Restoration of mutant hERG stability by inhibition of HDAC6.

Author

Li P, Kurata Y, Endang M, Ninomiya H, Higaki K, Taufiq F, Morikawa K, Shirayoshi Y, Horie M, and Hisatome I

Subjects

Acetylation drug effects, Animals, ERG1 Potassium Channel chemistry, HEK293 Cells, Histone Deacetylase Inhibitors pharmacology, Humans, Lysine metabolism, Mice, Myocytes, Cardiac drug effects, Myocytes, Cardiac metabolism, Protein Processing, Post-Translational drug effects, Protein Transport drug effects, Proteolysis drug effects, Ubiquitination drug effects, ERG1 Potassium Channel metabolism, Histone Deacetylase 6 metabolism, Mutant Proteins metabolism

Abstract

The human ether-a-go-go-related gene (hERG) encodes the α subunit of a rapidly activating delayed-rectifier potassium (I Kr ) channel. Mutations of the hERG cause long QT syndrome type 2 (LQT2). Acetylation of lysine residues occurs in a subset of non-histone proteins and this modification is controlled by both histone acetyltransferases and deacetylases (HDACs). The aim of this study was to clarify effects of HDAC(s) on wild-type (WT) and mutant hERG proteins. WThERG and two trafficking-defective mutants (G601S and R752W) were transiently expressed in HEK293 cells, which were treated with a pan-HDAC inhibitor Trichostatin A (TSA) or an isoform-selective HDAC6 inhibitor Tubastatin A (TBA). Both TSA and TBA increased protein levels of WThERG and induced expression of mature forms of the two mutants. Immunoprecipitation showed an interaction between HDAC6 and immature forms of hERG. Coexpression of HDAC6 decreased acetylation and, reciprocally, increased ubiquitination of hERG, resulting in its decreased expression. siRNA against HDAC6, as well as TBA, exerted opposite effects. Immunochemistry revealed that HDAC6 knockdown increased expression of the WThERG and two mutants both in the endoplasmic reticulum and on the cell surface. Electrophysiology showed that HDAC6 knockdown or TBA treatment increased the hERG channel current corresponding to the rapidly activating delayed-rectifier potassium current (I Kr ) in HEK293 cells stably expressing the WT or mutants. Three lysine residues (K116, K495 and K757) of hERG were predicted to be acetylated. Substitution of these lysine residues with arginine eliminated HDAC6 effects. In HL-1 mouse cardiomyocytes, TBA enhanced endogenous ERG expression, increased I Kr , and shortened action potential duration. These results indicate that hERG is a substrate of HDAC6. HDAC6 inhibition induced acetylation of hERG which counteracted ubiquitination leading its stabilization. HDAC6 inhibition may be a novel therapeutic option for LQT2., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

47. Isolation and characterization of ventricular-like cells derived from NKX2-5 eGFP/w and MLC2v mCherry/w double knock-in human pluripotent stem cells.

Author

Yamauchi K, Li J, Morikawa K, Liu L, Shirayoshi Y, Nakatsuji N, Elliott DA, Hisatome I, and Suemori H

Subjects

Cardiac Myosins genetics, Cell Differentiation physiology, Cell Separation methods, Cells, Cultured, Gene Knock-In Techniques, Genes, Reporter genetics, Heart Ventricles metabolism, Homeobox Protein Nkx-2.5 genetics, Humans, Myocytes, Cardiac metabolism, Myosin Light Chains genetics, Pluripotent Stem Cells metabolism, Tissue Engineering methods, Batch Cell Culture Techniques methods, Cardiac Myosins metabolism, Cell Tracking methods, Heart Ventricles cytology, Homeobox Protein Nkx-2.5 metabolism, Myocytes, Cardiac cytology, Myosin Light Chains metabolism, Pluripotent Stem Cells cytology

Abstract

Human pluripotent stem cell (hPSC)-derived cardiomyocytes (CMs) are a promising source for cell transplantation into the damaged heart, which has limited regenerative ability. Many methods have been developed to obtain large amounts of functional CMs from hPSCs for therapeutic applications. However, during the differentiation process, a mixed population of various cardiac cells, including ventricular, atrial, and pacemaker cells, is generated, which hampers the proper functional analysis and evaluation of cell properties. Here, we established NKX2-5 eGFP/w and MLC2v mCherry/w hPSC double knock-ins that allow for labeling, tracing, purification, and analysis of the development of ventricular cells from early to late stages. As with the endogenous transcriptional activities of these genes, MLC2v-mCherry expression following NKX2-5-eGFP expression was observed under previously established culture conditions, which mimic the in vivo cardiac developmental process. Patch-clamp and microelectrode array electrophysiological analyses showed that the NKX2-5 and MLC2v double-positive cells possess ventricular-like properties. The results demonstrate that the NKX2-5 eGFP/w and MLC2v mCherry/w hPSCs provide a powerful model system to capture region-specific cardiac differentiation from early to late stages. Our study would facilitate subtype-specific cardiac development and functional analysis using the hPSC-derived sources., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

48. Molecular mechanisms underlying the pilsicainide-induced stabilization of hERG proteins in transfected mammalian cells.

Author

Onohara T, Hisatome I, Kurata Y, Li P, Notsu T, Morikawa K, Otani N, Yoshida A, Iitsuka K, Kato M, Miake J, Ninomiya H, Higaki K, Shirayoshi Y, Nishihara T, Itoh T, Nakamura Y, and Nishimura M

Abstract

Background: Pilsicainide, classified as a relatively selective Na + channel blocker, also has an inhibitory action on the rapidly-activating delayed-rectifier K + current ( I Kr ) through human ether-a-go-go-related gene (hERG) channels. We studied the effects of chronic exposure to pilsicainide on the expression of wild-type (WT) hERG proteins and WT-hERG channel currents, as well as on the expression of mutant hERG proteins, in a heterologous expression system., Methods: HEK293 cells stably expressing WT or mutant hERG proteins were subjected to Western blotting, immunofluorescence microscopy and patch-clamp experiments., Results: Acute exposure to pilsicainide at 0.03-10 μM influenced neither the expression of WT-hERG proteins nor WT-hERG channel currents. Chronic treatment with 0.03-10 μM pilsicainide for 48 h, however, increased the expression of WT-hERG proteins and channel currents in a concentration-dependent manner. Chronic treatment with 3 μM pilsicainide for 48 h delayed degradation of WT-hERG proteins and increased the channels expressed on the plasma membrane. A cell membrane-impermeant pilsicainide derivative did not influence the expression of WT-hERG, indicating that pilsicainide stabilized the protein inside the cell. Pilsicainide did not influence phosphorylation of Akt (protein kinase B) or expression of heat shock protein families such as HSF-1, hsp70 and hsp90. E4031, a chemical chaperone for hERG, abolished the pilsicainide effect on hERG. Chronic treatment with pilsicainide could also increase the protein expression of trafficking-defective mutant hERG, G601S and R752W., Conclusions: Pilsicainide penetrates the plasma membrane, stabilizes WT-hERG proteins by acting as a chemical chaperone, and enhances WT-hERG channel currents. This mechanism could also be applicable to modulations of certain mutant-hERG proteins.

Published

2017

49. Tbx18-positive cells differentiated from murine ES cells serve as proepicardial progenitors to give rise to vascular smooth muscle cells and fibroblasts.

Author

Ikeda N, Nakazawa N, Kurata Y, Yaura H, Taufiq F, Minato H, Yoshida A, Ninomiya H, Nakayama Y, Kuwabara M, Shirayoshi Y, and Hisatome I

Subjects

Animals, Biomarkers, Embryonic Stem Cells metabolism, Fluorescent Antibody Technique, Gene Expression, Gene Knock-In Techniques, Gene Order, Gene Targeting, Genes, Reporter, Genetic Vectors genetics, Mice, Microscopy, Fluorescence, Muscle, Smooth, Vascular cytology, Pericardium metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Recombinant Fusion Proteins genetics, T-Box Domain Proteins genetics, Cell Differentiation genetics, Embryonic Stem Cells cytology, Fibroblasts cytology, Fibroblasts metabolism, Myocytes, Smooth Muscle cytology, Myocytes, Smooth Muscle metabolism, Pericardium cytology, T-Box Domain Proteins metabolism

Abstract

Proepicardium (PE) cells generate cardiac fibroblasts, smooth muscle cells (SMCs) and endothelial cells that form coronary arteries. T-box18 (Tbx18) is a well-known marker of PE cells and epicardium. We examined whether Tbx18-positive cells differentiated from murine embryonic stem (ES) cells serve as PE progenitors to give rise to vascular SMCs and fibroblasts. To collect Tbx18-positive cells, we established Tbx18-EGFP knock-in mouse ES cells using the CRISPR/Cas9 system. We harvested the Tbx18-EGFP-positive cells on day 8, 10 and 14 after the initiation of differentiation; Tbx18 mRNA was enriched on day 8 to 14 and Snai2 mRNA was enriched on day 8 and 10, indicating successful collection of Tbx18-positive cells. Tbx18-EGFP-positive cells expressed the PE marker WT1 on day 8 and 10. They also expressed the SMC marker Acta2 and fibroblast markers Thy1 and Fsp1 on day 8 to 14, but did not express the endothelial cell marker PECAM or the cardiac cell marker CD166 or Myh7. In conclusion, Tbx18-positive cells represent a part of PE cells in the initial phase of differentiation and subsequently include SMCs as well as fibroblasts. These results indicate that Tbx18-positive cells serve as a PE progenitor to supply a variety of cells that contribute to the formation of coronary arteries.

Published

2017

50. M3 Muscarinic Receptor Signaling Stabilizes a Novel Mutant Human Ether-a-Go-Go-Related Gene Channel Protein via Phosphorylation of Heat Shock Factor 1 in Transfected Cells.

Author

Mahati E, Li P, Kurata Y, Maharani N, Ikeda N, Sakata S, Ogura K, Miake J, Aiba T, Shimizu W, Nakasone N, Ninomiya H, Higaki K, Yamamoto K, Nakai A, Shirayoshi Y, and Hisatome I

Subjects

Adolescent, DNA-Binding Proteins genetics, HEK293 Cells, Heat Shock Transcription Factors, Humans, Male, Phosphorylation genetics, Protein Stability, Receptor, Muscarinic M3 genetics, Transcription Factors genetics, Transfection, DNA-Binding Proteins metabolism, ERG1 Potassium Channel genetics, ERG1 Potassium Channel metabolism, Long QT Syndrome genetics, Long QT Syndrome metabolism, Mutation, Receptor, Muscarinic M3 metabolism, Signal Transduction, Transcription Factors metabolism

Abstract

Background: Long QT syndrome 2 (LQT2) is caused by mutations in the human ether-a-go-go-related gene (hERG). Most of its mutations give rise to unstable hERG proteins degraded by the proteasome. Recently, carbachol was reported to stabilize the wild-type hERG-FLAG via activation of the muscarinic type 3 receptor (M3-mAChR). Its action on mutant hERG-FLAG, however, remains uninvestigated.Methods and Results:A novel mutant hERG-FLAG carried 2 mutations: an amino acid substitution G572S and an in-frame insertion D1037_V1038insGD. When expressed in HEK293 cells, this mutant hERG-FLAG was degraded by the proteasome and failed to be transported to the cell surface. Carbachol restored stability of the mutant hERG-FLAG and facilitated cell-surface expression. Carbachol activated PKC, augmented phosphorylation of heat shock factor 1 (HSF1) and enhanced expression of heat shock proteins (hsps), hsp70 and hsp90. Both a M3-mAChR antagonist, 4-DAMP, and a PKC inhibitor, bisindolylmaleimide, abolished carbachol-induced stabilization of the mutant hERG-FLAG., Conclusions: M3-mAChR activation leads to enhancement of hsp expression via PKC-dependent phosphorylation of HSF1, thereby stabilizing the mutant hERG-FLAG protein. Thus, M3-mAChR activators may have a therapeutic value for patients with LQT2. (Circ J 2016; 80: 2443-2452).

Published

2016