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20 results on '"Akazawa, Hiroshi"'

1. Angiotensin II Peptide Vaccine Protects Ischemic Brain Through Reducing Oxidative Stress.

Author

Kouji Wakayama, Munehisa Shimamura, Jun-ichi Suzuki, Ryo Watanabe, Hiroshi Koriyama, Hiroshi Akazawa, Hironori Nakagami, Hideki Mochizuki, Mitsuaki Isobe, Ryuichi Morishita, Wakayama, Kouji, Shimamura, Munehisa, Suzuki, Jun-Ichi, Watanabe, Ryo, Koriyama, Hiroshi, Akazawa, Hiroshi, Nakagami, Hironori, Mochizuki, Hideki, Isobe, Mitsuaki, and Morishita, Ryuichi

Published
2017
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3. Agonist-Independent Constitutive Activity of Angiotensin II Receptor Promotes Cardiac Remodeling in Mice.

Author

Yasuda, Noritaka, Akazawa, Hiroshi, Ito, Kaoru, Shimizu, Ippei, Kudo-Sakamoto, Yoko, Yabumoto, Chizuru, Yano, Masamichi, Yamamoto, Rie, Ozasa, Yukako, Minamino, Tohru, Naito, Atsuhiko T., Oka, Toru, Shiojima, Ichiro, Tamura, Kouichi, Umemura, Satoshi, Nemer, Mona, and Komuro, Issei

Abstract

The article focuses on the study that explains the role of angiotensin II (Ang II)-independent Ang II type 1 receptor activation in the development of cardiac remodeling. Spontaneous systolic dysfunction, chamber dilatation, and severe interstitial fibrosis are presented to be observed from angiotensinogen-knockout mice hearts. Treatment with candesartan, an inverse agonist for the AT1 receptor is described to prevent the progression of cardiac remodeling.

Published
2012
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4. Ryanodine receptor type 2 is required for the development of pressure overload-induced cardiac hypertrophy.

Author

Yunzeng Zou, Yanyan Liang, Hui Gong, Ning Zhou, Hong Ma, Aili Guan, Aijun Sun, Ping Wang, Yuhong Niu, Hong Jiang, Takano, Hiroyuki, Toko, Haruhiro, Atsushi Yao, Takeshima, Hiroshi, Akazawa, Hiroshi, Shiojima, Ichiro, Yuqi Wang, Komuro, Issei, Junbo Ge, and Zou, Yunzeng

Abstract

Ryanodine receptor type 2 (RyR-2) mediates Ca(2+) release from sarcoplasmic reticulum and contributes to myocardial contractile function. However, the role of RyR-2 in the development of cardiac hypertrophy is not completely understood. Here, mice with or without reduction of RyR-2 gene (RyR-2(+/-) and wild-type, respectively) were analyzed. At baseline, there was no difference in morphology of cardiomyocyte and heart and cardiac contractility between RyR-2(+/-) and wild-type mice, although Ca(2+) release from sarcoplasmic reticulum was impaired in isolated RyR-2(+/-) cardiomyocytes. During a 3-week period of pressure overload, which was induced by constriction of transverse aorta, isolated RyR-2(+/-) cardiomyocytes displayed more reduction of Ca(2+) transient amplitude, rate of an increase in intracellular Ca(2+) concentration during systole, and percentile of fractional shortening, and hearts of RyR-2(+/-) mice displayed less compensated hypertrophy, fibrosis, and contractility; more apoptosis with less autophagy of cardiomyocytes; and similar decrease of angiogenesis as compared with wild-type ones. Moreover, constriction of transverse aorta-induced increases in the activation of calcineurin, extracellular signal-regulated protein kinases, and protein kinase B/Akt but not that of Ca(2+)/calmodulin-dependent protein kinase II, and its downstream targets in the heart of wild-type mice were abolished in the RyR-2(+/-) one, suggesting that RyR-2 is a regulator of calcineurin, extracellular signal-regulated protein kinases, and Akt but not of calmodulin-dependent protein kinase II activation during pressure overload. Taken together, our data indicate that RyR-2 contributes to the development of cardiac hypertrophy and adaptation of cardiac function during pressure overload through regulation of the sarcoplasmic reticulum Ca(2+) release; activation of calcineurin, extracellular signal-regulated protein kinases, and Akt; and cardiomyocyte survival. [ABSTRACT FROM AUTHOR]

Published
2011
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5. Promotion of CHIP-Mediated p53 Degradation Protects the Heart From Ischemic Injury.

Author

Naito, Atsuhiko T., Okada, Sho, Minamino, Tohru, Iwanaga, Koji, Mei-Lan Liu, Sumida, Tomokazu, Nomura, Seitaro, Sahara, Naruhiko, Mizoroki, Tatsuya, Takashima, Akihiko, Akazawa, Hiroshi, Nagai, Toshio, Shiojima, Ichiro, and Komuro, Issei

Subjects
TUMOR suppressor proteins, P53 protein, MYOCARDIAL infarction, HEART disease research, CARDIOMYOPATHIES
Abstract

The article discusses a study which investigated the molecular mechanisms of tumor suppression protein p53 accumulation in the heart following myocardial infarction. The researchers discovered that carboxyl terminus of Hsp70-interacting protein (CHIP) is an endogenous p53 antagonist in the heart through expression screening. It was also found that p53 accumulation in the heart after myocardial infarction was caused by downregulation of CHIP.

Published
2010
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11. Impact of Pathogenic FBN1 Variant Types on the Progression of Aortic Disease in Patients With Marfan Syndrome.

Author

Takeda, Norifumi, Inuzuka, Ryo, Maemura, Sonoko, Morita, Hiroyuki, Nawata, Kan, Fujita, Daishi, Taniguchi, Yuki, Yamauchi, Haruo, Yagi, Hiroki, Kato, Masayoshi, Nishimura, Hiroshi, Hirata, Yoichiro, Ikeda, Yuichi, Kumagai, Hidetoshi, Amiya, Eisuke, Hara, Hironori, Fujiwara, Takayuki, Akazawa, Hiroshi, Suzuki, Jun-ichi, and Imai, Yasushi

Abstract

Supplemental Digital Content is available in the text. Background: Marfan syndrome can cause life-threatening aortic complications. We investigated the relationship between FBN1 genotype and severe aortopathy (aortic root replacement, type A dissections, and related death). Methods: We evaluated 248 patients with pathogenic or likely pathogenic FBN1 variants. The variants were classified as haploinsufficient type (HI, n=93) or dominant-negative type (DN, n=155) based on their location and predicted amino acid alterations, and we examined the effects of the FBN1 genotype on severe aortic events (aortic root replacement, type A dissections, and related death). Results: The cumulative event-free probability was significantly lower in the HI group than in the DN group (adjusted hazard ratio, 2.1; 95% confidence interval, 1.4 -3.2; P<0.001). Male patients were at a greater than two-fold increased risk in both genotypes. In addition, after identifying deleterious variants among DN patients, we found that those with variants affecting or creating Cysteine residues and in-frame Deletion variants in exons 25–36 and 43–49 (DN-CD group) had a 6.3-fold higher risk compared with DN-nonCD patients (P<0.0001), which was comparable to or more deleterious than HI patients (P=0.062). Furthermore, DN-CD + HI patients had larger aortic root Z-scores than DN-nonCD patients (P<0.05 for <20 years; P<0.01 for 20–40 years), and males under 20 years old were more likely to develop aneurysms with higher rate of change in Z-score than females (P<0.001 in males; P=0.24 in females). Conclusions: DN-CD+HI patients should be monitored more carefully than DN-nonCD patients for rapid development of aortic root aneurysms. [ABSTRACT FROM AUTHOR]

Published
2018
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12. Abstract 195.

Author

Kanda, Masato, Nagai, Toshio, Takahashi, Toshinao, Liu, Mei Lan, Kondou, Naomichi, Naito, Atushiko T, Akazawa, Hiroshi, Kobayashi, Yoshio, and Komuro, Issei

Published
2012

13. Three-Dimensional Visualization of Hypoxia-Induced Pulmonary Vascular Remodeling in Mice.

Author

Fujiwara T, Takeda N, Hara H, Ishii S, Numata G, Tokiwa H, Maemura S, Suzuki T, Takiguchi H, Kubota Y, Seo K, Sakata A, Nomura S, Hatano M, Ueda K, Harada M, Toko H, Takimoto E, Akazawa H, Nishimura S, and Komuro I

Subjects
Animals, Hypertension, Pulmonary physiopathology, Lung Diseases physiopathology, Mice, Hypertension, Pulmonary diagnostic imaging, Imaging, Three-Dimensional methods, Lung Diseases diagnostic imaging, Vascular Remodeling physiology
Published
2021
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14. Transethnic Meta-Analysis of Genome-Wide Association Studies Identifies Three New Loci and Characterizes Population-Specific Differences for Coronary Artery Disease.

Author

Matsunaga H, Ito K, Akiyama M, Takahashi A, Koyama S, Nomura S, Ieki H, Ozaki K, Onouchi Y, Sakaue S, Suna S, Ogishima S, Yamamoto M, Hozawa A, Satoh M, Sasaki M, Yamaji T, Sawada N, Iwasaki M, Tsugane S, Tanaka K, Arisawa K, Ikezaki H, Takashima N, Naito M, Wakai K, Tanaka H, Sakata Y, Morita H, Sakata Y, Matsuda K, Murakami Y, Akazawa H, Kubo M, Kamatani Y, and Komuro I

Subjects
Female, Genome-Wide Association Study, Humans, Japan ethnology, Male, Meta-Analysis as Topic, United Kingdom ethnology, Asian People ethnology, Asian People genetics, Chromosomes, Human genetics, Coronary Artery Disease ethnology, Coronary Artery Disease genetics, Genetic Loci, White People ethnology, White People genetics
Abstract

Background: Genome-wide association studies provided many biological insights into coronary artery disease (CAD), but these studies were mainly performed in Europeans. Genome-wide association studies in diverse populations have the potential to advance our understanding of CAD., Methods: We conducted 2 genome-wide association studies for CAD in the Japanese population, which included 12 494 cases and 28 879 controls and 2808 cases and 7261 controls, respectively. Then, we performed transethnic meta-analysis using the results of the coronary artery disease genome-wide replication and meta-analysis plus the coronary artery disease 1000 Genomes meta-analysis with UK Biobank. We then explored the pathophysiological significance of these novel loci and examined the differences in CAD-susceptibility loci between Japanese and Europeans., Results: We identified 3 new loci on chromosome 1q21 ( CTSS ), 10q26 ( WDR11-FGFR2 ), and 11q22 ( RDX - FDX1 ). Quantitative trait locus analyses suggested the association of CTSS and RDX - FDX1 with atherosclerotic immune cells. Tissue/cell type enrichment analysis showed the involvement of arteries, adrenal glands, and fat tissues in the development of CAD. We next compared the odds ratios of lead variants for myocardial infarction at 76 genome-wide significant loci in the transethnic meta-analysis and a moderate correlation between Japanese and Europeans, where 8 loci showed a difference. Finally, we performed tissue/cell type enrichment analysis using East Asian-frequent and European-frequent variants according to the risk allele frequencies and identified significant enrichment of adrenal glands in the East Asian-frequent group while the enrichment of arteries and fat tissues was found in the European-frequent group. These findings indicate biological differences in CAD susceptibility between Japanese and Europeans., Conclusions: We identified 3 new loci for CAD and highlighted the genetic differences between the Japanese and European populations. Moreover, our transethnic analyses showed both shared and unique genetic architectures between the Japanese and Europeans. While most of the underlying genetic bases for CAD are shared, further analyses in diverse populations will be needed to elucidate variations fully.

Published
2020
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15. Impact of Pathogenic FBN1 Variant Types on the Progression of Aortic Disease in Patients With Marfan Syndrome.

Author

Takeda N, Inuzuka R, Maemura S, Morita H, Nawata K, Fujita D, Taniguchi Y, Yamauchi H, Yagi H, Kato M, Nishimura H, Hirata Y, Ikeda Y, Kumagai H, Amiya E, Hara H, Fujiwara T, Akazawa H, Suzuki JI, Imai Y, Nagai R, Takamoto S, Hirata Y, Ono M, and Komuro I

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Aortic Diseases complications, Aortic Diseases genetics, Child, Child, Preschool, Disease Progression, Female, Genes, Dominant, Haploinsufficiency, Humans, Male, Marfan Syndrome complications, Marfan Syndrome genetics, Middle Aged, Retrospective Studies, Severity of Illness Index, Young Adult, Aortic Diseases pathology, Fibrillin-1 genetics, Genomics methods, Marfan Syndrome pathology, Mutation
Abstract

Background: Marfan syndrome can cause life-threatening aortic complications. We investigated the relationship between FBN1 genotype and severe aortopathy (aortic root replacement, type A dissections, and related death)., Methods: We evaluated 248 patients with pathogenic or likely pathogenic FBN1 variants. The variants were classified as haploinsufficient type (HI, n=93) or dominant-negative type (DN, n=155) based on their location and predicted amino acid alterations, and we examined the effects of the FBN1 genotype on severe aortic events (aortic root replacement, type A dissections, and related death)., Results: The cumulative event-free probability was significantly lower in the HI group than in the DN group (adjusted hazard ratio, 2.1; 95% confidence interval, 1.4 -3.2; P <0.001)., Conclusions: DN-CD+HI patients should be monitored more carefully than DN-nonCD patients for rapid development of aortic root aneurysms., (© 2018 American Heart Association, Inc.)

Published
2018
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16. Angiotensin II Peptide Vaccine Protects Ischemic Brain Through Reducing Oxidative Stress.

Author

Wakayama K, Shimamura M, Suzuki JI, Watanabe R, Koriyama H, Akazawa H, Nakagami H, Mochizuki H, Isobe M, and Morishita R

Subjects
Animals, Antibodies blood, Disease Models, Animal, Male, Rats, Rats, Wistar, Angiotensin II immunology, Antibodies immunology, Brain Ischemia immunology, Brain Ischemia prevention & control, Immunotherapy, Active methods, Infarction, Middle Cerebral Artery immunology, Oxidative Stress immunology, Renin-Angiotensin System immunology, Stroke immunology, Stroke prevention & control, Vaccines, Subunit immunology
Abstract

Background and Purpose: Medication nonadherence is one of major risk factors for the poor outcome in ischemic stroke. Vaccination is expected to solve such a problem because of its long-lasting effects, but its effect on ischemic brain damage is still unknown. Here, we focused on vaccination for renin-angiotensin system and examined the effects of angiotensin II (Ang II) peptide vaccine in permanent middle cerebral artery occlusion model in rats., Methods: Male Wistar rats were exposed to permanent middle cerebral artery occlusion after 3× injections of Ang II peptide vaccine, and the serum or brain level of anti-Ang II antibody was examined. The effects of the vaccine were evaluated by differences in infarction volume, brain renin-angiotensin system components, and markers for neurodegeneration and oxidative stress., Results: Ang II vaccination successfully produced anti-Ang II antibodies in serum without concomitant change in blood pressure. Sufficient production of serum anti-Ang II antibody led to reduction of infarct volume and induced the penetration of anti-Ang II antibody in ischemic hemisphere, with suppressed expression of Ang II type 1 receptor mRNA. Vaccinated rats with sufficient antibody production showed the reduction of Fluoro-Jade B-positive cells, spectrin fragmentation, 4-hydroxynonenal-positive cells, and Nox 2 mRNA expression., Conclusions: Our findings indicate that Ang II vaccination exerts neuroprotective and antioxidative effects in cerebral ischemia, with renin-angiotensin system blockade by penetration of anti-Ang II antibodies into ischemic brain lesion. Ang II peptide vaccination could be a promising approach to treat ischemic stroke., (© 2017 American Heart Association, Inc.)

Published
2017
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17. Wnt/β-Catenin Signaling Contributes to Skeletal Myopathy in Heart Failure via Direct Interaction With Forkhead Box O.

Author

Okada K, Naito AT, Higo T, Nakagawa A, Shibamoto M, Sakai T, Hashimoto A, Kuramoto Y, Sumida T, Nomura S, Ito M, Yamaguchi T, Oka T, Akazawa H, Lee JK, Morimoto S, Sakata Y, Shiojima I, and Komuro I

Subjects
Animals, Cardiomyopathy, Dilated genetics, Cardiomyopathy, Dilated metabolism, Cardiomyopathy, Dilated pathology, Cell Line, Complement C1q metabolism, Disease Models, Animal, Forkhead Box Protein O1, Forkhead Transcription Factors genetics, Mice, Transgenic, Muscle Fatigue, Muscle Fibers, Skeletal metabolism, Muscle Fibers, Skeletal pathology, Muscle, Skeletal pathology, Muscle, Skeletal physiopathology, Muscular Diseases genetics, Muscular Diseases metabolism, Muscular Diseases pathology, Muscular Diseases physiopathology, RNA Interference, Transfection, Cardiomyopathy, Dilated complications, Forkhead Transcription Factors metabolism, Muscle, Skeletal metabolism, Muscular Diseases etiology, Wnt Signaling Pathway, Wnt3A Protein metabolism, beta Catenin metabolism
Abstract

Background: There are changes in the skeletal muscle of patients with chronic heart failure (CHF), such as volume reduction and fiber type shift toward fatigable type IIb fiber. Forkhead box O (FoxO) signaling plays a critical role in the development of skeletal myopathy in CHF, and functional interaction between FoxO and the Wnt signal mediator β-catenin was previously demonstrated. We have recently reported that serum of CHF model mice activates Wnt signaling more potently than serum of control mice and that complement C1q mediates this activation. We, therefore, hypothesized that C1q-induced activation of Wnt signaling plays a critical role in skeletal myopathy via the interaction with FoxO., Methods and Results: Fiber type shift toward fatigable fiber was observed in the skeletal muscle of dilated cardiomyopathy model mice, which was associated with activation of both Wnt and FoxO signaling. Wnt3a protein activated FoxO signaling and induced fiber type shift toward fatigable fiber in C2C12 cells. Wnt3a-induced fiber type shift was inhibited by suppression of FoxO1 activity, whereas Wnt3a-independent fiber type shift was observed by overexpression of constitutively active FoxO1. Serum of dilated cardiomyopathy mice activated both Wnt and FoxO signaling and induced fiber type shift toward fatigable fiber in C2C12 cells. Wnt inhibitor and C1-inhibitor attenuated FoxO activation and fiber type shift both in C2C12 cells and in the skeletal muscle of dilated cardiomyopathy mice., Conclusions: C1q-induced activation of Wnt signaling contributes to fiber type shift toward fatigable fiber in CHF. Wnt signaling may be a novel therapeutic target to prevent skeletal myopathy in CHF., (© 2015 American Heart Association, Inc.)

Published
2015
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18. Cardiac nonmyocytes in the hub of cardiac hypertrophy.

Author

Kamo T, Akazawa H, and Komuro I

Subjects
Animals, Autocrine Communication, Blood Cells pathology, Cell Lineage, Endothelial Cells metabolism, Endothelial Cells pathology, Endothelin-1 physiology, Fibroblasts metabolism, Fibroblasts pathology, Humans, Intercellular Signaling Peptides and Proteins physiology, Macrophages physiology, Mast Cells physiology, Mice, MicroRNAs physiology, Myocytes, Cardiac pathology, Natriuretic Peptides physiology, Paracrine Communication, Cardiomegaly pathology, Myocardium pathology
Abstract

Cardiac hypertrophy is characterized by complex multicellular alterations, such as cardiomyocyte growth, angiogenesis, fibrosis, and inflammation. The heart consists of myocytes and nonmyocytes, such as fibroblasts, vascular cells, and blood cells, and these cells communicate with each other directly or indirectly via a variety of autocrine or paracrine mediators. Accumulating evidence has suggested that nonmyocytes actively participate in the development of cardiac hypertrophy. In this review, recent progress in our understanding of the importance of nonmyocytes as a hub for induction of cardiac hypertrophy is summarized with an emphasis of the contribution of noncontact communication mediated by diffusible factors between cardiomyocytes and nonmyocytes in the heart., (© 2015 American Heart Association, Inc.)

Published
2015
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19. Heat shock transcription factor 1 protects cardiomyocytes from ischemia/reperfusion injury.

Author

Zou Y, Zhu W, Sakamoto M, Qin Y, Akazawa H, Toko H, Mizukami M, Takeda N, Minamino T, Takano H, Nagai T, Nakai A, and Komuro I

Subjects
Animals, Apoptosis, COS Cells, Cell Survival, Cells, Cultured, Cloning, Molecular, Cytoprotection, DNA-Binding Proteins genetics, Electrocardiography, Heat Shock Transcription Factors, Mice, Mice, Transgenic, Myocardial Reperfusion Injury diagnosis, Myocardial Reperfusion Injury enzymology, Myocardium enzymology, Myocardium pathology, Myocytes, Cardiac cytology, Myocytes, Cardiac enzymology, Protein Kinases metabolism, Rats, Rats, Wistar, Transcription Factors, DNA-Binding Proteins physiology, Myocardial Reperfusion Injury pathology, Myocytes, Cardiac pathology
Abstract

Background: Because cardiomyocyte death causes heart failure, it is important to find the molecules that protect cardiomyocytes from death. The death trap is a useful method to identify cell-protective genes., Methods and Results: In this study, we isolated the heat shock transcription factor 1 (HSF1) as a protective molecule by the death trap method. Cell death induced by hydrogen peroxide was prevented by overexpression of HSF1 in COS7 cells. Thermal preconditioning at 42 degrees C for 60 minutes activated HSF1, which played a critical role in survival of cardiomyocytes from oxidative stress. In the heart of transgenic mice overexpressing a constitutively active form of HSF1, ischemia followed by reperfusion-induced ST-segment elevation in ECG was recovered faster, infarct size was smaller, and cardiomyocyte death was less than wild-type mice. Protein kinase B/Akt was more strongly activated, whereas Jun N-terminal kinase and caspase 3 were less activated in transgenic hearts than wild-type ones., Conclusions: These results suggest that HSF1 protects cardiomyocytes from death at least in part through activation of Akt and inactivation of Jun N-terminal kinase and caspase 3.

Published
2003
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20. Leukemia inhibitory factor enhances survival of cardiomyocytes and induces regeneration of myocardium after myocardial infarction.

Author

Zou Y, Takano H, Mizukami M, Akazawa H, Qin Y, Toko H, Sakamoto M, Minamino T, Nagai T, and Komuro I

Subjects
Animals, Bone Marrow Cells drug effects, Cell Count, Cell Death drug effects, Cell Differentiation drug effects, Cell Division drug effects, Cell Survival drug effects, DNA, Complementary administration & dosage, DNA, Complementary genetics, Disease Models, Animal, Gene Transfer Techniques, Genetic Therapy methods, Growth Inhibitors genetics, Growth Inhibitors metabolism, Heart physiology, Heart Function Tests drug effects, Injections, Intramuscular, Leukemia Inhibitory Factor, Lymphokines genetics, Lymphokines metabolism, Male, Mice, Mice, Inbred C57BL, Myocardial Infarction pathology, Myocardium pathology, Myocytes, Cardiac pathology, Neovascularization, Physiologic drug effects, Ventricular Remodeling drug effects, Growth Inhibitors therapeutic use, Heart drug effects, Interleukin-6, Lymphokines therapeutic use, Myocardial Infarction drug therapy, Myocytes, Cardiac drug effects, Regeneration drug effects
Abstract

Background: Myocardial infarction (MI) is a leading cause of cardiac morbidity and mortality in many countries; however, the treatment of MI is still limited., Methods and Results: We demonstrate a novel gene therapy for MI using leukemia inhibitory factor (LIF) cDNA. We injected LIF plasmid DNA into the thigh muscle of mice immediately after inducing MI. Intramuscular injection of LIF cDNA resulted in a marked increase in circulating LIF protein concentrations. Two weeks later, left ventricular remodeling, such as infarct extent and myocardial fibrosis, was markedly attenuated in the LIF cDNA-injected mice compared with vehicle-injected mice. More myocardium was preserved and cardiac function was better in the LIF-treated mice than in the vehicle-injected mice. Injection of LIF cDNA not only prevented the death of cardiomyocytes in the ischemic area but also induced neovascularization in the myocardium. Furthermore, LIF cDNA injection increased the number of cardiomyocytes in cell cycle and enhanced mobilization of bone marrow cells to the heart and their differentiation into cardiomyocytes., Conclusions: The intramuscular injection of LIF cDNA may induce regeneration of myocardium and provide a novel treatment for MI.

Published
2003
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