Your search keyword '"Wakimoto, Hiroko"' showing total 375 results

1. Tbx5 maintains atrial identity in postnatal cardiomyocytes by regulating an atrial-specific enhancer network

Author

Sweat, Mason E., Cao, Yangpo, Zhang, Xiaoran, Burnicka-Turek, Ozanna, Perez-Cervantes, Carlos, Kulandaisamy, Arulsamy, Lu, Fujian, Keating, Erin M., Akerberg, Brynn N., Ma, Qing, Wakimoto, Hiroko, Gorham, Joshua M., Hill, Lauren D., Song, Mi Kyoung, Trembley, Michael A., Wang, Peizhe, Gianeselli, Matteo, Prondzynski, Maksymilian, Bortolin, Raul H., Bezzerides, Vassilios J., Chen, Kaifu, Seidman, Jonathan G., Seidman, Christine E., Moskowitz, Ivan P., and Pu, William T.

Published

2023

2. Increased endothelial sclerostin caused by elevated DSCAM mediates multiple trisomy 21 phenotypes

Author

McKean, David M., Zhang, Qi, Narayan, Priyanka, Morton, Sarah U., Strohmenger, Viktoria, Tang, Vi T., McAllister, Sophie, Sharma, Ananya, Quiat, Daniel, Reichar, Daniel, DeLaughter, Daniel M., Wakimoto, Hiroko, Gorham, Joshua M., Brown, Kemar, McDonough, Barbara, Willcox, Jon A., Jang, Min Young, DePalma, Steven R., Ward, Tarsha, Kim, Richard, Cleveland, John D., Seidman, J.G., and Seidman, Christine E.

Subjects

RNA sequencing -- Analysis, Down syndrome -- Risk factors -- Development and progression, Cell adhesion molecules -- Physiological aspects -- Health aspects, Phenotype -- Analysis, Health care industry

Abstract

Trisomy 21 (T21), a recurrent aneuploidy occurring in 1:800 births, predisposes to congenital heart disease (CHD) and multiple extracardiac phenotypes. Despite a definitive genetic etiology, the mechanisms by which T21 perturbs development and homeostasis remain poorly understood. We compared the transcriptome of CHD tissues from 49 patients with T21 and 226 with euploid CHD (eCHD). We resolved cell lineages that misexpressed T21 transcripts by cardiac single-nucleus RNA sequencing and RNA in situ hybridization. Compared with eCHD samples, T21 samples had increased chr21 gene expression; 11-fold-greater levels (P = 1.2 x [10.sup.8]) of SOST (chr17), encoding the Wnt inhibitor sclerostin; and 1.4-fold-higher levels (P = 8.7 x [10.sup.-8]) of the SOST transcriptional activator ZNF467 (chr7). Euploid and T21 cardiac endothelial cells coexpressed SOST and ZNF467; however, T21 endothelial cells expressed 6.9-fold more SOST than euploid endothelial cells (P = 2.7 x [10.sup.-27]). Wnt pathway genes were downregulated in T21 endothelial cells. Expression of DSCAM, residing within the chr21 CHD critical region, correlated with SOST(P = 1.9 x [10.sup.-5]) and ZNF467 (P = 2.9 x [10.sup.-4]). Deletion of DSCAM from T21 endothelial cells derived from human induced pluripotent stem cells diminished sclerostin secretion. As Wnt signaling is critical for atrioventricular canal formation, bone health, and pulmonary vascular homeostasis, we concluded that T21-mediated increased sclerostin levels would inappropriately inhibit Wnt activities and promote Down syndrome phenotypes. These findings imply therapeutic potential for anti-sclerostin antibodies in T21., Introduction Trisomy 21 (T21), the most common genetic cause of syndromic congenital heart disease (CHD), is diagnosed in approximately 5,000 newborns in the US annually. Almost half of affected infants [...]

Published

2024

3. Inhibition of miR-199a-3p in a murine hypertrophic cardiomyopathy (HCM) model attenuates fibrotic remodeling

Author

Zalivina, Irina, Barwari, Temo, Yin, Xiaoke, Langley, Sarah R., Barallobre-Barreiro, Javier, Wakimoto, Hiroko, Zampetaki, Anna, Mayr, Manuel, Avkiran, Metin, and Eminaga, Seda

Published

2023

4. Efficient in vivo genome editing prevents hypertrophic cardiomyopathy in mice

Author

Reichart, Daniel, Newby, Gregory A., Wakimoto, Hiroko, Lun, Mingyue, Gorham, Joshua M., Curran, Justin J., Raguram, Aditya, DeLaughter, Daniel M., Conner, David A., Marsiglia, Júlia D. C., Kohli, Sajeev, Chmatal, Lukas, Page, David C., Zabaleta, Nerea, Vandenberghe, Luk, Liu, David R., Seidman, Jonathan G., and Seidman, Christine

Published

2023

5. Photodynamic augmentation of oncolytic virus therapy for central nervous system malignancies

Author

Shimizu, Kazuhide, Kahramanian, Andranik, Jabbar, Muzammil Arif Din Abdul, Turna Demir, Fatma, Gokyer, Dilan, Uthamacumaran, Abicumaran, Rajan, Anant, Saad, Mohammad Ahsan, Gorham, Joshua, Wakimoto, Hiroko, Martuza, Robert L., Rabkin, Samuel D., Hasan, Tayyaba, and Wakimoto, Hiroaki

Published

2023

6. Loss of epigenetic information as a cause of mammalian aging

Author

Yang, Jae-Hyun, Hayano, Motoshi, Griffin, Patrick T., Amorim, João A., Bonkowski, Michael S., Apostolides, John K., Salfati, Elias L., Blanchette, Marco, Munding, Elizabeth M., Bhakta, Mital, Chew, Yap Ching, Guo, Wei, Yang, Xiaojing, Maybury-Lewis, Sun, Tian, Xiao, Ross, Jaime M., Coppotelli, Giuseppe, Meer, Margarita V., Rogers-Hammond, Ryan, Vera, Daniel L., Lu, Yuancheng Ryan, Pippin, Jeffrey W., Creswell, Michael L., Dou, Zhixun, Xu, Caiyue, Mitchell, Sarah J., Das, Abhirup, O’Connell, Brendan L., Thakur, Sachin, Kane, Alice E., Su, Qiao, Mohri, Yasuaki, Nishimura, Emi K., Schaevitz, Laura, Garg, Neha, Balta, Ana-Maria, Rego, Meghan A., Gregory-Ksander, Meredith, Jakobs, Tatjana C., Zhong, Lei, Wakimoto, Hiroko, El Andari, Jihad, Grimm, Dirk, Mostoslavsky, Raul, Wagers, Amy J., Tsubota, Kazuo, Bonasera, Stephen J., Palmeira, Carlos M., Seidman, Jonathan G., Seidman, Christine E., Wolf, Norman S., Kreiling, Jill A., Sedivy, John M., Murphy, George F., Green, Richard E., Garcia, Benjamin A., Berger, Shelley L., Oberdoerffer, Philipp, Shankland, Stuart J., Gladyshev, Vadim N., Ksander, Bruce R., Pfenning, Andreas R., Rajman, Luis A., and Sinclair, David A.

Published

2023

7. Author Correction: Tbx5 maintains atrial identity in postnatal cardiomyocytes by regulating an atrial-specific enhancer network

Author

Sweat, Mason E., Cao, Yangpo, Zhang, Xiaoran, Burnicka-Turek, Ozanna, Perez-Cervantes, Carlos, Kulandaisamy, Arulsamy, Lu, Fujian, Keating, Erin M., Akerberg, Brynn N., Ma, Qing, Wakimoto, Hiroko, Gorham, Joshua M., Hill, Lauren D., Song, Mi Kyoung, Trembley, Michael A., Wang, Peizhe, Gianeselli, Matteo, Prondzynski, Maksymilian, Bortolin, Raul H., Bezzerides, Vassilios J., Chen, Kaifu, Seidman, Jonathan G., Seidman, Christine E., Moskowitz, Ivan P., and Pu, William T.

Published

2023

8. Macrophages Facilitate Electrical Conduction in the Heart

Author

Hulsmans, Maarten, Clauss, Sebastian, Xiao, Ling, Aguirre, Aaron D, King, Kevin R, Hanley, Alan, Hucker, William J, Wülfers, Eike M, Seemann, Gunnar, Courties, Gabriel, Iwamoto, Yoshiko, Sun, Yuan, Savol, Andrej J, Sager, Hendrik B, Lavine, Kory J, Fishbein, Gregory A, Capen, Diane E, Da Silva, Nicolas, Miquerol, Lucile, Wakimoto, Hiroko, Seidman, Christine E, Seidman, Jonathan G, Sadreyev, Ruslan I, Naxerova, Kamila, Mitchell, Richard N, Brown, Dennis, Libby, Peter, Weissleder, Ralph, Swirski, Filip K, Kohl, Peter, Vinegoni, Claudio, Milan, David J, Ellinor, Patrick T, and Nahrendorf, Matthias

Subjects

Heart Disease, Cardiovascular, Aetiology, 2.1 Biological and endogenous factors, Animals, Connexin 43, Female, Heart Atria, Heart Conduction System, Humans, Macrophages, Male, Mice, Mice, Inbred C57BL, Middle Aged, Myocytes, Cardiac, atrioventricular node, computational modeling, connexin 43, electrical conduction, gap junctions, heart, macrophages, optogenetics, single-cell RNA-sequencing, tissue clearing, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Organ-specific functions of tissue-resident macrophages in the steady-state heart are unknown. Here, we show that cardiac macrophages facilitate electrical conduction through the distal atrioventricular node, where conducting cells densely intersperse with elongated macrophages expressing connexin 43. When coupled to spontaneously beating cardiomyocytes via connexin-43-containing gap junctions, cardiac macrophages have a negative resting membrane potential and depolarize in synchrony with cardiomyocytes. Conversely, macrophages render the resting membrane potential of cardiomyocytes more positive and, according to computational modeling, accelerate their repolarization. Photostimulation of channelrhodopsin-2-expressing macrophages improves atrioventricular conduction, whereas conditional deletion of connexin 43 in macrophages and congenital lack of macrophages delay atrioventricular conduction. In the Cd11bDTR mouse, macrophage ablation induces progressive atrioventricular block. These observations implicate macrophages in normal and aberrant cardiac conduction.

Published

2017

9. Loss of epigenetic information as a cause of mammalian aging

Author

Yang, Jae-Hyun, primary, Hayano, Motoshi, additional, Griffin, Patrick T., additional, Amorim, João A., additional, Bonkowski, Michael S., additional, Apostolides, John K., additional, Salfati, Elias L., additional, Blanchette, Marco, additional, Munding, Elizabeth M., additional, Bhakta, Mital, additional, Chew, Yap Ching, additional, Guo, Wei, additional, Yang, Xiaojing, additional, Maybury-Lewis, Sun, additional, Tian, Xiao, additional, Ross, Jaime M., additional, Coppotelli, Giuseppe, additional, Meer, Margarita V., additional, Rogers-Hammond, Ryan, additional, Vera, Daniel L., additional, Lu, Yuancheng Ryan, additional, Pippin, Jeffrey W., additional, Creswell, Michael L., additional, Dou, Zhixun, additional, Xu, Caiyue, additional, Mitchell, Sarah J., additional, Das, Abhirup, additional, O’Connell, Brendan L., additional, Thakur, Sachin, additional, Kane, Alice E., additional, Su, Qiao, additional, Mohri, Yasuaki, additional, Nishimura, Emi K., additional, Schaevitz, Laura, additional, Garg, Neha, additional, Balta, Ana-Maria, additional, Rego, Meghan A., additional, Gregory-Ksander, Meredith, additional, Jakobs, Tatjana C., additional, Zhong, Lei, additional, Wakimoto, Hiroko, additional, El Andari, Jihad, additional, Grimm, Dirk, additional, Mostoslavsky, Raul, additional, Wagers, Amy J., additional, Tsubota, Kazuo, additional, Bonasera, Stephen J., additional, Palmeira, Carlos M., additional, Seidman, Jonathan G., additional, Seidman, Christine E., additional, Wolf, Norman S., additional, Kreiling, Jill A., additional, Sedivy, John M., additional, Murphy, George F., additional, Green, Richard E., additional, Garcia, Benjamin A., additional, Berger, Shelley L., additional, Oberdoerffer, Philipp, additional, Shankland, Stuart J., additional, Gladyshev, Vadim N., additional, Ksander, Bruce R., additional, Pfenning, Andreas R., additional, Rajman, Luis A., additional, and Sinclair, David A., additional

Published

2024

10. 助産師が行う父親支援の実態と実施状況・認識に関連する要因

Author

TAGUCHI, Miyui, primary and WAKIMOTO, Hiroko, additional

Published

2024

11. Single-Cell Resolution of Temporal Gene Expression during Heart Development

Author

DeLaughter, Daniel M, Bick, Alexander G, Wakimoto, Hiroko, McKean, David, Gorham, Joshua M, Kathiriya, Irfan S, Hinson, John T, Homsy, Jason, Gray, Jesse, Pu, William, Bruneau, Benoit G, Seidman, JG, and Seidman, Christine E

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Stem Cell Research - Nonembryonic - Non-Human, Pediatric, Congenital Structural Anomalies, Stem Cell Research, Heart Disease, Cardiovascular, Aetiology, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Underpinning research, Animals, Cell Differentiation, Cell Lineage, Endothelial Cells, Fibroblasts, Gene Expression Profiling, Gene Expression Regulation, Developmental, Haploinsufficiency, Heart, Heart Atria, Heart Ventricles, Homeobox Protein Nkx-2.5, Humans, Mice, Myocytes, Cardiac, Sequence Analysis, RNA, Single-Cell Analysis, Time Factors, Transcriptome, ECM, Nkx2.5, RNA-seq, atria, cardiogenesis, cardiomyocyte maturation, heart, single cell, ventricle, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology

Abstract

Activation of complex molecular programs in specific cell lineages governs mammalian heart development, from a primordial linear tube to a four-chamber organ. To characterize lineage-specific, spatiotemporal developmental programs, we performed single-cell RNA sequencing of >1,200 murine cells isolated at seven time points spanning embryonic day 9.5 (primordial heart tube) to postnatal day 21 (mature heart). Using unbiased transcriptional data, we classified cardiomyocytes, endothelial cells, and fibroblast-enriched cells, thus identifying markers for temporal and chamber-specific developmental programs. By harnessing these datasets, we defined developmental ages of human and mouse pluripotent stem-cell-derived cardiomyocytes and characterized lineage-specific maturation defects in hearts of mice with heterozygous mutations in Nkx2.5 that cause human heart malformations. This spatiotemporal transcriptome analysis of heart development reveals lineage-specific gene programs underlying normal cardiac development and congenital heart disease.

Published

2016

12. Cells of the adult human heart

Author

Litviňuková, Monika, Talavera-López, Carlos, Maatz, Henrike, Reichart, Daniel, Worth, Catherine L., Lindberg, Eric L., Kanda, Masatoshi, Polanski, Krzysztof, Heinig, Matthias, Lee, Michael, Nadelmann, Emily R., Roberts, Kenny, Tuck, Liz, Fasouli, Eirini S., DeLaughter, Daniel M., McDonough, Barbara, Wakimoto, Hiroko, Gorham, Joshua M., Samari, Sara, Mahbubani, Krishnaa T., Saeb-Parsy, Kourosh, Patone, Giannino, Boyle, Joseph J., Zhang, Hongbo, Zhang, Hao, Viveiros, Anissa, Oudit, Gavin Y., Bayraktar, Omer Ali, Seidman, J. G., Seidman, Christine E., Noseda, Michela, Hubner, Norbert, and Teichmann, Sarah A.

Published

2020

13. De novo mutations in congenital heart disease with neurodevelopmental and other congenital anomalies

Author

Homsy, Jason, Zaidi, Samir, Shen, Yufeng, Ware, James S, Samocha, Kaitlin E, Karczewski, Konrad J, DePalma, Steven R, McKean, David, Wakimoto, Hiroko, Gorham, Josh, Jin, Sheng Chih, Deanfield, John, Giardini, Alessandro, Porter, George A, Kim, Richard, Bilguvar, Kaya, López-Giráldez, Francesc, Tikhonova, Irina, Mane, Shrikant, Romano-Adesman, Angela, Qi, Hongjian, Vardarajan, Badri, Ma, Lijiang, Daly, Mark, Roberts, Amy E, Russell, Mark W, Mital, Seema, Newburger, Jane W, Gaynor, J William, Breitbart, Roger E, Iossifov, Ivan, Ronemus, Michael, Sanders, Stephan J, Kaltman, Jonathan R, Seidman, Jonathan G, Brueckner, Martina, Gelb, Bruce D, Goldmuntz, Elizabeth, Lifton, Richard P, Seidman, Christine E, and Chung, Wendy K

Subjects

Congenital Structural Anomalies, Genetics, Pediatric, Heart Disease, Cardiovascular, Brain, Child, Congenital Abnormalities, Exome, Heart Defects, Congenital, Humans, Mutation, Nervous System Malformations, Neurogenesis, Prognosis, RNA Splicing, RNA Splicing Factors, RNA, Messenger, RNA-Binding Proteins, Repressor Proteins, Transcription, Genetic, General Science & Technology

Abstract

Congenital heart disease (CHD) patients have an increased prevalence of extracardiac congenital anomalies (CAs) and risk of neurodevelopmental disabilities (NDDs). Exome sequencing of 1213 CHD parent-offspring trios identified an excess of protein-damaging de novo mutations, especially in genes highly expressed in the developing heart and brain. These mutations accounted for 20% of patients with CHD, NDD, and CA but only 2% of patients with isolated CHD. Mutations altered genes involved in morphogenesis, chromatin modification, and transcriptional regulation, including multiple mutations in RBFOX2, a regulator of mRNA splicing. Genes mutated in other cohorts examined for NDD were enriched in CHD cases, particularly those with coexisting NDD. These findings reveal shared genetic contributions to CHD, NDD, and CA and provide opportunities for improved prognostic assessment and early therapeutic intervention in CHD patients.

Published

2015

14. 5′RNA-Seq identifies Fhl1 as a genetic modifier in cardiomyopathy

Author

Christodoulou, Danos C, Wakimoto, Hiroko, Onoue, Kenji, Eminaga, Seda, Gorham, Joshua M, DePalma, Steve R, Herman, Daniel S, Teekakirikul, Polakit, Conner, David A, McKean, David M, Domenighetti, Andrea A, Aboukhalil, Anton, Chang, Stephen, Srivastava, Gyan, McDonough, Barbara, De Jager, Philip L, Chen, Ju, Bulyk, Martha L, Muehlschlegel, Jochen D, Seidman, Christine E, and Seidman, JG

Subjects

Heart Disease, Genetics, Human Genome, Cardiovascular, Biotechnology, 2.1 Biological and endogenous factors, Aetiology, 5' Flanking Region, Animals, Cardiomyopathy, Dilated, Cells, Cultured, Codon, Initiator, Female, Humans, Intracellular Signaling Peptides and Proteins, LIM Domain Proteins, Male, Mice, Mice, 129 Strain, Muscle Proteins, Mutation, Missense, Myocardium, Myocytes, Cardiac, Myosin Heavy Chains, Sequence Analysis, RNA, Transcriptome, Medical and Health Sciences, Immunology

Abstract

The transcriptome is subject to multiple changes during pathogenesis, including the use of alternate 5' start-sites that can affect transcription levels and output. Current RNA sequencing techniques can assess mRNA levels, but do not robustly detect changes in 5' start-site use. Here, we developed a transcriptome sequencing strategy that detects genome-wide changes in start-site usage (5'RNA-Seq) and applied this methodology to identify regulatory events that occur in hypertrophic cardiomyopathy (HCM). Compared with transcripts from WT mice, 92 genes had altered start-site usage in a mouse model of HCM, including four-and-a-half LIM domains protein 1 (Fhl1). HCM-induced altered transcriptional regulation of Fhl1 resulted in robust myocyte expression of a distinct protein isoform, a response that was conserved in humans with genetic or acquired cardiomyopathies. Genetic ablation of Fhl1 in HCM mice was deleterious, which suggests that Fhl1 transcriptional changes provide salutary effects on stressed myocytes in this disease. Because Fhl1 is a chromosome X-encoded gene, stress-induced changes in its transcription may contribute to gender differences in the clinical severity of HCM. Our findings indicate that 5'RNA-Seq has the potential to identify genome-wide changes in 5' start-site usage that are associated with pathogenic phenotypes.

Published

2014

15. De novo mutations in histone-modifying genes in congenital heart disease.

Author

Zaidi, Samir, Choi, Murim, Wakimoto, Hiroko, Ma, Lijiang, Jiang, Jianming, Overton, John, Romano-Adesman, Angela, Bjornson, Robert, Breitbart, Roger, Brown, Kerry, Carriero, Nicholas, Cheung, Yee, Deanfield, John, DePalma, Steve, Fakhro, Khalid, Glessner, Joseph, Hakonarson, Hakon, Italia, Michael, Kaltman, Jonathan, Kaski, Juan, Kim, Richard, Kline, Jennie, Lee, Teresa, Leipzig, Jeremy, Lopez, Alexander, Mane, Shrikant, Mitchell, Laura, Newburger, Jane, Parfenov, Michael, Peer, Itsik, Porter, George, Roberts, Amy, Sachidanandam, Ravi, Subramanian, Sailakshmi, Tikhonova, Irina, Wang, Wei, Warburton, Dorothy, White, Peter, Williams, Ismee, Zhao, Hongyu, Seidman, Jonathan, Brueckner, Martina, Chung, Wendy, Gelb, Bruce, Goldmuntz, Elizabeth, Seidman, Christine, Lifton, Richard, Seiden, Howard, State, Matthew, and Sanders, Stephan

Subjects

Adult, Case-Control Studies, Child, Chromatin, DNA Mutational Analysis, Enhancer Elements, Genetic, Exome, Female, Genes, Developmental, Heart Diseases, Histones, Humans, Lysine, Male, Methylation, Mutation, Odds Ratio, Promoter Regions, Genetic

Abstract

Congenital heart disease (CHD) is the most frequent birth defect, affecting 0.8% of live births. Many cases occur sporadically and impair reproductive fitness, suggesting a role for de novo mutations. Here we compare the incidence of de novo mutations in 362 severe CHD cases and 264 controls by analysing exome sequencing of parent-offspring trios. CHD cases show a significant excess of protein-altering de novo mutations in genes expressed in the developing heart, with an odds ratio of 7.5 for damaging (premature termination, frameshift, splice site) mutations. Similar odds ratios are seen across the main classes of severe CHD. We find a marked excess of de novo mutations in genes involved in the production, removal or reading of histone 3 lysine 4 (H3K4) methylation, or ubiquitination of H2BK120, which is required for H3K4 methylation. There are also two de novo mutations in SMAD2, which regulates H3K27 methylation in the embryonic left-right organizer. The combination of both activating (H3K4 methylation) and inactivating (H3K27 methylation) chromatin marks characterizes poised promoters and enhancers, which regulate expression of key developmental genes. These findings implicate de novo point mutations in several hundreds of genes that collectively contribute to approximately 10% of severe CHD.

Published

2013

16. Cardiovascular homeostasis dependence on MICU2, a regulatory subunit of the mitochondrial calcium uniporter

Author

Bick, Alexander G., Wakimoto, Hiroko, Kamer, Kimberli J., Sancak, Yasemin, Goldberger, Olga, Axelsson, Anna, DeLaughter, Daniel M., Gorham, Joshua M., Mootha, Vamsi K., Seidman, J. G., and Seidman, Christine E.

Published

2017

17. Efficacy of autologous dermal sheath cup cell transplantation in male and female pattern hair loss: A Single‐Arm, Multi‐Center, phase III equivalent clinical study

Author

Harada, Kazutoshi, primary, Ohyama, Manabu, additional, Niiyama, Shiro, additional, Irisawa, Ryokichi, additional, Mae, Kenichiro, additional, Mori, Miho, additional, Wakimoto, Hiroko, additional, Kinoshita‐Ise, Misaki, additional, Fukuyama, Masahiro, additional, Hayakawa, Reina, additional, Takagi, Masaya, additional, Yamazaki, Masako, additional, Miyoshi, Mami, additional, Nishikawa, Saori, additional, Sato, Seiji, additional, Nakazawa, Yosuke, additional, Sugimoto, Takaki, additional, Ogo, Masashi, additional, and Tsuboi, Ryoji, additional

Published

2023

18. Abstract EC.07: Tbx5 Maintains Atrial Identity By Regulating An Atrial Enhancer Network

Author

Sweat, Mason E, primary, Cao, Yangpo, additional, Zhang, Xiaoran, additional, Burnicka-Turek, Ozanna, additional, Perez-Cervantes, Carlos, additional, Akerberg, Brynn, additional, Ma, Qing, additional, Wakimoto, Hiroko, additional, Gorham, Josh, additional, Song, Mi-Kyoung, additional, Trembley, Michael, additional, Wang, Peizhe, additional, Lu, Fujian, additional, GIANESELLI, MATTEO, additional, Prondzynski, Maksymilian K, additional, Bortolin, Raul, additional, Seidman, Jonathan G, additional, Seidman, Christine E, additional, Moskowitz, Ivan, additional, and Pu, William T, additional

Published

2023

19. Status and issues related to accepting children requiring medical care into After-School Daycare ―focus on risk management systems―

Author

Nitta, Misato and Wakimoto, Hiroko

Published

2022

20. Myosin Sequestration Regulates Sarcomere Function, Cardiomyocyte Energetics, and Metabolism, Informing the Pathogenesis of Hypertrophic Cardiomyopathy

Author

Toepfer, Christopher N., Garfinkel, Amanda C., Venturini, Gabriela, Wakimoto, Hiroko, Repetti, Giuliana, Alamo, Lorenzo, Sharma, Arun, Agarwal, Radhika, Ewoldt, Jourdan F., Cloonan, Paige, Letendre, Justin, Lun, Mingyue, Olivotto, Iacopo, Colan, Steve, Ashley, Euan, Jacoby, Daniel, Michels, Michelle, Redwood, Charles S., Watkins, Hugh C., Day, Sharlene M., Staples, James F., Padrón, Raúl, Chopra, Anant, Ho, Carolyn Y., Chen, Christopher S., Pereira, Alexandre C., Seidman, Jonathan G., and Seidman, Christine E.

Published

2020

21. Tbx5 maintains atrial identity by regulating an atrial enhancer network

Author

Sweat, Mason E, primary, Cao, Yangpo, additional, Zhang, Xiaoran, additional, Burnicka-Turek, Ozanna, additional, Perez-Cervantes, Carlos, additional, Akerberg, Brynn N., additional, Ma, Qing, additional, Wakimoto, Hiroko, additional, Gorham, Joshua M., additional, Song, Mi Kyoung, additional, Trembley, Michael A., additional, Wang, Peizhe, additional, Lu, Fujian, additional, Gianeselli, Matteo, additional, Prondzynski, Maksymilian, additional, Bortolin, Raul H., additional, Seidman, Jonathan G, additional, Seidman, Christine, additional, Moskowitz, Ivan P, additional, and Pu, William T, additional

Published

2023

22. Prevalence and Clinical Consequences of Multiple Pathogenic Variants in Dilated Cardiomyopathy

Author

Stroeks, Sophie L.V.M., primary, Lunde, Ida G., additional, Hellebrekers, Debby M.E.I., additional, Claes, Godelieve R.F., additional, Wakimoto, Hiroko, additional, Gorham, Joshua, additional, Krapels, Ingrid P.C., additional, Vanhoutte, Els K., additional, van den Wijngaard, Arthur, additional, Henkens, Michiel T.H.M., additional, Raafs, Anne G., additional, Sikking, Maurits A., additional, Broers, Jos L.V., additional, Nabben, Miranda, additional, Jones, Elizabeth A.V., additional, Heymans, Stephane R.B., additional, Brunner, Han G., additional, and Verdonschot, Job A.J., additional

Published

2023

23. Prevalence and Clinical Consequences of Multiple Pathogenic Variants in Dilated Cardiomyopathy

Author

Stroeks, S.L.V.M., Lunde, I.G., Hellebrekers, D.M.E., Claes, G.R., Wakimoto, Hiroko, Gorham, Joshua, Brunner, H.G., Verdonschot, J.A.J., Stroeks, S.L.V.M., Lunde, I.G., Hellebrekers, D.M.E., Claes, G.R., Wakimoto, Hiroko, Gorham, Joshua, Brunner, H.G., and Verdonschot, J.A.J.

Abstract

Item does not contain fulltext

Published

2023

24. A small-molecule inhibitor of sarcomere contractility suppresses hypertrophic cardiomyopathy in mice

Author

Green, Eric M., Wakimoto, Hiroko, Anderson, Robert L., Evanchik, Marc J., Gorham, Joshua M., Harrison, Brooke C., Henze, Marcus, Kawas, Raja, Oslob, Johan D., Rodriguez, Hector M., Song, Yonghong, Wan, William, Leinwand, Leslie A., Spudich, James A., McDowell, Robert S., Seidman, J. G., and Seidman, Christine E.

Published

2016

25. Yin Yang 1 Suppresses Dilated Cardiomyopathy and Cardiac Fibrosis Through Regulation of Bmp7 and Ctgf

Author

Tan, Chia Yee, Wong, Jing Xuan, Chan, Pui Shi, Tan, Hansen, Liao, Dan, Chen, Weiming, Tan, Lek Wen, Ackers-Johnson, Matthew, Wakimoto, Hiroko, Seidman, Jonathan G., Seidman, Christine E., Lunde, Ida Gjervold, Zhu, Feng, Hu, Qidong, Bian, Jinsong, Wang, Jiong-Wei, Foo, Roger S., and Jiang, Jianming

Published

2019

26. Genetic Variants Associated With Cancer Therapy–Induced Cardiomyopathy

Author

Garcia-Pavia, Pablo, Kim, Yuri, Restrepo-Cordoba, Maria Alejandra, Lunde, Ida G., Wakimoto, Hiroko, Smith, Amanda M., Toepfer, Christopher N., Getz, Kelly, Gorham, Joshua, Patel, Parth, Ito, Kaoru, Willcox, Jonathan A., Arany, Zoltan, Li, Jian, Owens, Anjali T., Govind, Risha, Nuñez, Beatriz, Mazaika, Erica, Bayes-Genis, Antoni, Walsh, Roddy, Finkelman, Brian, Lupon, Josep, Whiffin, Nicola, Serrano, Isabel, Midwinter, William, Wilk, Alicja, Bardaji, Alfredo, Ingold, Nathan, Buchan, Rachel, Tayal, Upasana, Pascual-Figal, Domingo A., de Marvao, Antonio, Ahmad, Mian, Garcia-Pinilla, Jose Manuel, Pantazis, Antonis, Dominguez, Fernando, John Baksi, A., O’Regan, Declan P., Rosen, Stuart D., Prasad, Sanjay K., Lara-Pezzi, Enrique, Provencio, Mariano, Lyon, Alexander R., Alonso-Pulpon, Luis, Cook, Stuart A., DePalma, Steven R., Barton, Paul J.R., Aplenc, Richard, Seidman, Jonathan G., Ky, Bonnie, Ware, James S., and Seidman, Christine E.

Published

2019

27. Myc targeted CDK18 promotes ATR and homologous recombination to mediate PARP inhibitor resistance in glioblastoma

Author

Ning, Jian-Fang, Stanciu, Monica, Humphrey, Melissa R., Gorham, Joshua, Wakimoto, Hiroko, Nishihara, Reiko, Lees, Jacqueline, Zou, Lee, Martuza, Robert L., Wakimoto, Hiroaki, and Rabkin, Samuel D.

Published

2019

28. IL-11 is a crucial determinant of cardiovascular fibrosis

Author

Schafer, Sebastian, Viswanathan, Sivakumar, Widjaja, Anissa A., Lim, Wei-Wen, Moreno-Moral, Aida, DeLaughter, Daniel M., Ng, Benjamin, Patone, Giannino, Chow, Kingsley, Khin, Ester, Tan, Jessie, Chothani, Sonia P., Ye, Lei, Rackham, Owen J. L., Ko, Nicole S. J., Sahib, Norliza E., Pua, Chee Jian, Zhen, Nicole T. G., Xie, Chen, Wang, Mao, Maatz, Henrike, Lim, Shiqi, Saar, Kathrin, Blachut, Susanne, Petretto, Enrico, Schmidt, Sabine, Putoczki, Tracy, Guimares-Camboa, Nuno, Wakimoto, Hiroko, van Heesch, Sebastiaan, Sigmundsson, Kristmundur, Lim, See L., Soon, Jia L., Chao, Victor T. T., Chua, Yeow L., Tan, Teing E., Evans, Sylvia M., Loh, Yee J., Jamal, Muhammad H., Ong, Kim K., Chua, Kim C., Ong, Boon-Hean, Chakaramakkil, Mathew J., Seidman, Jonathan G., Seidman, Christine E., Hubner, Norbert, Sin, Kenny Y. K., and Cook, Stuart A.

Subjects

Interleukins -- Health aspects, Cardiovascular diseases -- Physiological aspects, Fibrosis -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Sebastian Schafer [1, 2]; Sivakumar Viswanathan [2]; Anissa A. Widjaja [2]; Wei-Wen Lim [1]; Aida Moreno-Moral [2]; Daniel M. DeLaughter [3]; Benjamin Ng [1]; Giannino Patone [4]; Kingsley Chow [...]

Published

2017

29. Cardiac myosin binding protein C regulates postnatal myocyte cytokinesis

Author

Jiang, Jianming, Burgon, Patrick G., Wakimoto, Hiroko, Onoue, Kenji, Gorham, Joshua M., O’Meara, Caitlin C., Fomovsky, Gregory, McConnell, Bradley K., Lee, Richard T., Seidman, J. G., and Seidman, Christine E.

Published

2015

30. Pathogenesis of Cardiomyopathy Caused by Variants in ALPK3 , an Essential Pseudokinase in the Cardiomyocyte Nucleus and Sarcomere

Author

Agarwal, Radhika, primary, Wakimoto, Hiroko, additional, Paulo, Joao A., additional, Zhang, Qi, additional, Reichart, Daniel, additional, Toepfer, Christopher, additional, Sharma, Arun, additional, Tai, Angela C., additional, Lun, Mingyue, additional, Gorham, Joshua, additional, DePalma, Steven R., additional, Gygi, Steven P., additional, Seidman, J.G., additional, and Seidman, Christine E., additional

Published

2022

31. Histone deacetylase inhibitors enhance oncolytic herpes simplex virus therapy for malignant meningioma

Author

Kawamura, Yoichiro, primary, Hua, Lingyang, additional, Gurtner, Alessandra, additional, Wong, Ego, additional, Kiyokawa, Juri, additional, Shah, Nadia, additional, Gorham, Joshua, additional, Wakimoto, Hiroko, additional, Rabkin, Samuel D., additional, Martuza, Robert L., additional, and Wakimoto, Hiroaki, additional

Published

2022

32. Pathogenic variants damage cell composition and single cell transcription in cardiomyopathies

Author

Reichart, Daniel, primary, Lindberg, Eric L., additional, Maatz, Henrike, additional, Miranda, Antonio M. A., additional, Viveiros, Anissa, additional, Shvetsov, Nikolay, additional, Gärtner, Anna, additional, Nadelmann, Emily R., additional, Lee, Michael, additional, Kanemaru, Kazumasa, additional, Ruiz-Orera, Jorge, additional, Strohmenger, Viktoria, additional, DeLaughter, Daniel M., additional, Patone, Giannino, additional, Zhang, Hao, additional, Woehler, Andrew, additional, Lippert, Christoph, additional, Kim, Yuri, additional, Adami, Eleonora, additional, Gorham, Joshua M., additional, Barnett, Sam N., additional, Brown, Kemar, additional, Buchan, Rachel J., additional, Chowdhury, Rasheda A., additional, Constantinou, Chrystalla, additional, Cranley, James, additional, Felkin, Leanne E., additional, Fox, Henrik, additional, Ghauri, Ahla, additional, Gummert, Jan, additional, Kanda, Masatoshi, additional, Li, Ruoyan, additional, Mach, Lukas, additional, McDonough, Barbara, additional, Samari, Sara, additional, Shahriaran, Farnoush, additional, Yapp, Clarence, additional, Stanasiuk, Caroline, additional, Theotokis, Pantazis I., additional, Theis, Fabian J., additional, van den Bogaerdt, Antoon, additional, Wakimoto, Hiroko, additional, Ware, James S., additional, Worth, Catherine L., additional, Barton, Paul J. R., additional, Lee, Young-Ae, additional, Teichmann, Sarah A., additional, Milting, Hendrik, additional, Noseda, Michela, additional, Oudit, Gavin Y., additional, Heinig, Matthias, additional, Seidman, Jonathan G., additional, Hubner, Norbert, additional, and Seidman, Christine E., additional

Published

2022

33. Ablation of lysophosphatidic acid receptor 1 attenuates hypertrophic cardiomyopathy in a mouse model

Author

Axelsson Raja, Anna, primary, Wakimoto, Hiroko, additional, DeLaughter, Daniel M., additional, Reichart, Daniel, additional, Gorham, Joshua, additional, Conner, David A., additional, Lun, Mingyue, additional, Probst, Clemens K., additional, Sakai, Norihiko, additional, Knipe, Rachel S., additional, Montesi, Sydney B., additional, Shea, Barry, additional, Adam, Leonard P., additional, Leinwand, Leslie A., additional, Wan, William, additional, Choi, Esther Sue, additional, Lindberg, Eric L., additional, Patone, Giannino, additional, Noseda, Michela, additional, Hübner, Norbert, additional, Seidman, Christine E., additional, Tager, Andrew M., additional, Seidman, J. G., additional, and Ho, Carolyn Y., additional

Published

2022

34. Allele-Specific Silencing of Mutant Myh6 Transcripts in Mice Suppresses Hypertrophic Cardiomyopathy

Author

Jiang, Jianming, Wakimoto, Hiroko, Seidman, J. G., and Seidman, Christine E.

Published

2013

35. Abstract 19355: BET Bromodomain Proteins Are Critical Regulators of Molecular Reprogramming in Genetic Dilated Cardiomyopathy

Author

Burke, Michael A, Wakimoto, Hiroko, Gorham, Joshua M, DePalma, Steven R, Conner, David A, Jiao, Zhe, Qi, Jun, Seidman, Jonathan G, Bradner, James E, Brown, Jonathan D, Haldar, Saptarsi M, and Seidman, Christine E

Published

2017

36. Reduced expression of the ATP2A2 gene in vemurafenib‐induced keratoacanthoma‐like papules in a melanoma patient

Author

Wakimoto, Hiroko, Harada, Kazutoshi, Arai, Takashi, Maeda, Tatsuo, Irisawa, Ryokichi, and Tsuboi, Ryoji

Published

2017

37. Cardiomyocyte-enriched protein CIP protects against pathophysiological stresses and regulates cardiac homeostasis

Author

Huang, Zhan-Peng, Kataoka, Masaharu, Chen, Jinghai, Wu, Gengze, Ding, Jian, Nie, Mao, Lin, Zhiqiang, Liu, Jianming, Hu, Xiaoyun, Ma, Lixin, Zhou, Bin, Wakimoto, Hiroko, Zeng, Chunyu, Kyselovic, Jan, Deng, Zhong-Liang, Seidman, Christine E., Seidman, J.G., Pu, William T., and Wang, Da-Zhi

Subjects

Heart diseases -- Genetic aspects -- Development and progression, Gene mutations -- Health aspects, Gene expression -- Health aspects, Cardiomyopathy -- Genetic aspects -- Development and progression, Health care industry

Abstract

Cardiomyopathy is a common human disorder that is characterized by contractile dysfunction and cardiac remodeling. Genetic mutations and altered expression of genes encoding many signaling molecules and contractile proteins are associated with cardiomyopathy; however, how cardiomyocytes sense pathophysiological stresses in order to then modulate cardiac remodeling remains poorly understood. Here, we have described a regulator in the heart that harmonizes the progression of cardiac hypertrophy and dilation. We determined that expression of the myocyte-enriched protein cardiac ISL1- interacting protein (CIP, also known as MLIP) is reduced in patients with dilated cardiomyopathy. As CIP is highly conserved between human and mouse, we evaluated the effects of CIP deficiency on cardiac remodeling in mice. Deletion of the CIP-encoding gene accelerated progress from hypertrophy to heart failure in several cardiomyopathy models. Conversely, transgenic and AAV-mediated CIP overexpression prevented pathologic remodeling and preserved cardiac function. CIP deficiency combined with lamin A/C deletion resulted in severe dilated cardiomyopathy and cardiac dysfunction in the absence of stress. Transcriptome analyses of CIP-deficient hearts revealed that the p53- and FOXO1-mediated gene networks related to homeostasis are disturbed upon pressure overload stress. Moreover, FOXO1 overexpression suppressed stress-induced cardiomyocyte hypertrophy in CIP-deficient cardiomyocytes. Our studies identify CIP as a key regulator of cardiomyopathy that has potential as a therapeutic target to attenuate heart failure progression., Introduction Cardiovascular diseases continue to be leading causes of death and disability. Despite this alarming fact, there is a lack of effectual treatment, and the molecular mechanisms underlying these devastating [...]

Published

2015

38. Genetic and environmental risk factors in congenital heart disease functionally converge in protein networks driving heart development

Author

Lage, Kasper, Greenway, Steven C., Rosenfeld, Jill A., Wakimoto, Hiroko, Gorham, Joshua M., Segrè, Ayellet V., Roberts, Amy E., Smoot, Leslie B., Pu, William T., Pereira, Alexandre C., Mesquita, Sonia M., Tommerup, Niels, Brunak, Søren, Ballif, Blake C., Shaffer, Lisa G., Donahoe, Patricia K., Daly, Mark J., Seidman, Jonathan G., Seidman, Christine E., and Larsen, Lars A.

Published

2012

39. Heterogeneous myocyte enhancer factor-2 (Mef2) activation in myocytes predicts focal scarring in hypertrophic cardiomyopathy

Author

Konno, Tetsuo, Chen, Dan, Wang, Libin, Wakimoto, Hiroko, Teekakirikul, Polakit, Nayor, Matthew, Kawana, Masataka, Eminaga, Seda, Gorham, Joshua M., Pandya, Kumar, Smithies, Oliver, Naya, Francisco J., Olson, Eric N., Seidman, J. G., and Seidman, Christine E.

Published

2010

40. Current Status and Issues in the Hygienic Management of Toys for Infants at Nurseries

Author

YOSHIKAWA, Hiromi, primary, WAKIMOTO, Hiroko, additional, and YANO, Hisako, additional

Published

2022

41. Recognition of Current Situation and Issues in Establishing a System to Accept Children Requiring Medical Care into After-School Daycare—From Interviews with 5 Nurses—

Author

Nitta, Misato, primary and Wakimoto, Hiroko, additional

Published

2022

42. A case of huge Merkel cell carcinoma at the left lower eyelid successfully treated with radiation monotherapy

Author

SESHIMO, Harutaka, primary, IRISAWA, Ryokichi, additional, MAE, Kenichirou, additional, WAKIMOTO, Hiroko, additional, MIYAZAKI, Yasuhiro, additional, MIKAMI, Ryuji, additional, and HARADA, Kazutoshi, additional

Published

2022

43. HEART DISEASE: A small-molecule inhibitor of sarcomere contractility suppresses hypertrophic cardiomyopathy in mice

Author

Green, Eric M., Wakimoto, Hiroko, Anderson, Robert L., Evanchik, Marc J., Gorham, Joshua M., Harrison, Brooke C., Henze, Marcus, Kawas, Raja, Oslob, Johan D., Rodriguez, Hector M., Song, Yonghong, Wan, William, Leinwand, Leslie A., Spudich, James A., McDowell, Robert S., Seidman, J. G., and Seidman, Christine E.

Published

2016

44. Slow progressive conduction and contraction defects in loss of Nkx2-5 mice after cardiomyocyte terminal differentiation

Author

Takeda, Morihiko, Briggs, Laura E, Wakimoto, Hiroko, Marks, Melissa H, Warren, Sonisha A, Lu, Jonathan T, Weinberg, Ellen O, Robertson, Keith D, Chien, Kenneth R, and Kasahara, Hideko

Published

2009

45. Mouse Model of Human Congenital Heart Disease: Progressive Atrioventricular Block Induced by a Heterozygous Nkx2-5 Homeodomain Missense Mutation

Author

Chowdhury, Rajib, Ashraf, Hassan, Melanson, Michelle, Tanada, Yohei, Nguyen, Minh, Silberbach, Michael, Wakimoto, Hiroko, Benson, D. Woodrow, Anderson, Robert H., and Kasahara, Hideko

Published

2015

46. Pathogenesis of Cardiomyopathy Caused by Variants in , an Essential Pseudokinase in the Cardiomyocyte Nucleus and Sarcomere.

Author

Agarwal, Radhika, Wakimoto, Hiroko, Paulo, Joao A., Zhang, Qi, Reichart, Daniel, Toepfer, Christopher, Sharma, Arun, Tai, Angela C., Lun, Mingyue, Gorham, Joshua, DePalma, Steven R., Gygi, Steven P., Seidman, J.G., and Seidman, Christine E.

Subjects

*NUCLEAR membranes, *PROTEIN kinases, *CARDIOMYOPATHIES, *SEQUENCE alignment, *CATALYTIC activity, *SYMPTOMS

Abstract

Background: ALPK3 encodes α-kinase 3, a muscle-specific protein of unknown function. ALPK3 loss-of-function variants cause cardiomyopathy with distinctive clinical manifestations in both children and adults, but the molecular functions of ALPK3 remain poorly understood.Methods: We explored the putative kinase activity of ALPK3 and the consequences of damaging variants using isogenic human induced pluripotent stem cell-derived cardiomyocytes, mice, and human patient tissues.Results: Multiple sequence alignment of all human α-kinase domains and their orthologs revealed 4 conserved residues that were variant only in ALPK3, demonstrating evolutionary divergence of the ALPK3 α-kinase domain sequence. Phosphoproteomic evaluation of both ALPK3 kinase domain inhibition and overexpression failed to detect significant changes in catalytic activity, establishing ALPK3 as a pseudokinase. Investigations into alternative functions revealed that ALPK3 colocalized with myomesin proteins (MYOM1, MYOM2) at both the nuclear envelope and the sarcomere M-band. ALPK3 loss-of-function variants caused myomesin proteins to mislocalize and also dysregulated several additional M-band proteins involved in sarcomere protein turnover, which ultimately impaired cardiomyocyte structure and function.Conclusions: ALPK3 is an essential cardiac pseudokinase that inserts in the nuclear envelope and the sarcomere M-band. Loss of ALPK3 causes mislocalization of myomesins, critical force-buffering proteins in cardiomyocytes, and also dysregulates M-band proteins necessary for sarcomere protein turnover. We conclude that ALPK3 cardiomyopathy induces ventricular dilatation caused by insufficient myomesin-mediated force buffering and hypertrophy by impairment of sarcomere proteostasis. [ABSTRACT FROM AUTHOR]

Published

2022

47. LAMP2 Cardiomyopathy: Consequences of Impaired Autophagy in the Heart

Author

Alcalai, Ronny, primary, Arad, Michael, additional, Wakimoto, Hiroko, additional, Yadin, Dor, additional, Gorham, Joshua, additional, Wang, Libin, additional, Burns, Elia, additional, Maron, Barry J., additional, Roberts, William C., additional, Konno, Tetsuo, additional, Conner, David A., additional, Perez‐Atayde, Antonio R., additional, Seidman, Jon G., additional, and Seidman, Christine E., additional

Published

2021

48. Activation of multiple signaling pathways causes developmental defects in mice with a Noonan syndrome--associated Sos1 mutation

Author

Chen, Peng-Chieh, Wakimoto, Hiroko, Conner, David, Araki, Toshiyuki, Yuan, Tao, Roberts, Amy, Seidman, Christine E., Bronson, Roderick, Neel, Benjamin G., Seidman, Jonathan G., and Kucherlapati, Raju

Subjects

Gene mutations -- Identification and classification, Noonan syndrome -- Genetic aspects -- Care and treatment, Cellular signal transduction -- Genetic aspects, Health care industry

Abstract

Noonan syndrome (NS) is an autosomal dominant genetic disorder characterized by short stature, unique facial features, and congenital heart disease. About 10%-15% of individuals with NS have mutations in son of sevenless 1 (SOS1), which encodes a RAS and RAC guanine nucleotide exchange factor (GEF). To understand the role of SOS1 in the pathogenesis of NS, we generated mice with the NS-associated Sos1E846K gain-offunction mutation. Both heterozygous and homozygous mutant mice showed many NS-associated phenotypes, including growth delay, distinctive facial dysmorphia, hematologic abnormalities, and cardiac defects. We found that the Ras/MAPK pathway as well as Rac and Stat3 were activated in the mutant hearts. These data provide in vivo molecular and cellular evidence that Sos1 is a GEF for Rac under physiological conditions and suggest that Rac and Stat3 activation might contribute to NS phenotypes. Furthermore, prenatal administration of a MEK inhibitor ameliorated the embryonic lethality, cardiac defects, and NS features of the homozygous mutant mice, demonstrating that this signaling pathway might represent a promising therapeutic target for NS., Introduction Noonan syndrome (NS), estimated to affect 1 out of 1,000-2,500 newborns, is characterized by variable developmental delay, short stature, characteristic facial features, congenital heart disease (CHD), and predisposition to [...]

Published

2010

49. Cardiac fibrosis in mice with hypertrophic cardiomyopathy is mediated by non-myocyte proliferation and requires Tgf-β

Author

Teekakirikul, Polakit, Eminaga, Seda, Toka, Okan, Alcalai, Ronny, Wang, Libin, Wakimoto, Hiroko, Nayor, Matthew, Konno, Tetsuo, Gorham, Joshua M., Wolf, Cordula M., Kim, Jae B., Schmitt, Joachim P., Molkentin, Jefferey D., Norris, Russell A., Tager, Andrew M., Hoffman, Stanley R., Markwald, Roger R., Seidman, Christine E., and Seidman, Jonathan G.

Subjects

Gene expression -- Research -- Usage -- Genetic aspects -- Physiological aspects, Cardiomyopathy, Hypertrophic -- Risk factors -- Genetic aspects -- Research -- Care and treatment, Fibrosis -- Genetic aspects -- Risk factors -- Care and treatment -- Research, Immunohistochemistry -- Usage -- Research -- Physiological aspects, Transforming growth factors -- Physiological aspects -- Genetic aspects -- Research -- Usage, Health care industry

Abstract

Mutations in sarcomere protein genes can cause hypertrophic cardiomyopathy (HCM), a disorder characterized by myocyte enlargement, fibrosis, and impaired ventricular relaxation. Here, we demonstrate that sarcomere protein gene mutations activate proliferative and profibrotic signals in non-myocyte cells to produce pathologic remodeling in HCM. Gene expression analyses of non-myocyte cells isolated from HCM mouse hearts showed increased levels of RNAs encoding cell-cycle proteins, Tgf- β, periostin, and other profibrotic proteins. Markedly increased BrdU labeling, Ki67 antigen expression, and periostin immunohistochemistry in the fibrotic regions of HCM hearts confirmed the transcriptional profiling data. Genetic ablation of periostin in HCM mice reduced but did not extinguish non-myocyte proliferation and fibrosis. In contrast, administration of Tgf-β-neutralizing antibodies abrogated non-myocyte proliferation and fibrosis. Chronic administration of the angiotensin II type 1 receptor antagonist losartan to mutation-positive, hypertrophy-negative (prehypertrophic) mice prevented the emergence of hypertrophy, non-myocyte proliferation, and fibrosis. Losartan treatment did not reverse pathologic remodeling of established HCM but did reduce non-myocyte proliferation. These data define non-myocyte activation of Tgf-β signaling as a pivotal mechanism for increased fibrosis in HCM and a potentially important factor contributing to diastolic dysfunction and heart failure. Preemptive pharmacologic inhibition of Tgf-β signals warrants study in human patients with sarcomere gene mutations., Introduction Dominant mutations in sarcomere protein genes cause hypertrophic cardiomyopathy (HCM), a primary myocardial disorder characterized by myocyte enlargement, increased myocardial fibrosis, and impaired ventricular relaxation that predisposes patients to [...]

Published

2010

50. Exercise ECG mapping employing an electrode array sheet

Author

Uto, Sadahito, Kobayashi, Fumitaka, Wakimoto, Hiroko, Magjarevic, Ratko, editor, Dössel, Olaf, editor, and Schlegel, Wolfgang C., editor

Published

2009