Intramyocardially Transplanted Neonatal Cardiomyocytes (NCMs) Show Structural and Electrophysiological Maturation and Integration and Dose-Dependently Stabilize Function of Infarcted Rat Hearts

Cardiac cell replacement therapy is a promising therapy to improve cardiac function in heart failure. Persistence, structural and functional maturation, and integration of transplanted cardiomyocytes into recipients' hearts are crucial for a safe and efficient replacement of lost cells. We stud...

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Published in	Cell transplantation Vol. 26; no. 1; pp. 157 - 170
Main Authors	Maass, Martina, Krausgrill, Benjamin, Eschrig, Simon, Kaluschke, Tobias, Urban, Katja, Peinkofer, Gabriel, Plenge, Tobias G., Oeckenpöhler, Simon, Raths, Martin, Ladage, Dennis, Halbach, Marcel, Hescheler, Jürgen, Müller-Ehmsen, Jochen
Format	Journal Article
Language	English
Published	Los Angeles, CA SAGE Publications 01.01.2017 Sage Publications Ltd SAGE Publishing
Subjects	Animals Animals, Newborn Cardiac function Cardiac Output - physiology Cardiomyocytes Catheters Cell number Cerebral infarction Connexin 43 Connexin 43 - metabolism Coronary artery disease Cytology Echocardiography Electrophysiology Gap junctions Heart diseases Heart transplantation Histology Integration Ischemia Myocardial infarction Myocardial Infarction - metabolism Myocardial Infarction - physiopathology Myocardial Infarction - therapy Myocardium Myocytes, Cardiac - cytology Myocytes, Cardiac - transplantation Neonates Phenotypes Polymerase chain reaction Rats Real-Time Polymerase Chain Reaction Stroke Volume - physiology Structure-function relationships Syngeneic grafts Ventricle Cell replacement therapy Echocardiography Pressure–volume catheterization Myocardial infarction (MI) Neonatal cardiomyocytes (NCMs)
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Abstract	Cardiac cell replacement therapy is a promising therapy to improve cardiac function in heart failure. Persistence, structural and functional maturation, and integration of transplanted cardiomyocytes into recipients' hearts are crucial for a safe and efficient replacement of lost cells. We studied histology, electrophysiology, and quantity of intramyocardially transplanted rat neonatal cardiomyocytes (NCMs) and performed a detailed functional study with repeated invasive (pressure–volume catheter) and noninvasive (echocardiography) analyses of infarcted female rat hearts including pharmacological stress before and 3 weeks after intramyocardial injection of 5 × 106 (low NCM) or 25 × 106 (high NCM) syngeneic male NCMs or medium as placebo (Ctrl). Quantitative real-time polymerase chain reaction (PCR) for Y-chromosome confirmed a fivefold higher persisting male cell number in high NCM versus low NCM after 3 weeks. Sharp electrode measurements within viable slices of recipient hearts demonstrated that transplanted NCMs integrate into host myocardium and mature to an almost adult phenotype, which might be facilitated through gap junctions between host myocardium and transplanted NCMs as indicated by connexin43 in histology. Ejection fraction of recipient hearts was severely impaired after ligation of left anterior descending (LAD; pressure–volume catheter: 39.2 ± 3.6%, echocardiography: 39.9 ± 1.4%). Repeated analyses revealed a significant further decline within 3 weeks in Ctrl and a dose-dependent stabilization in cell-treated groups. Consistently, stabilized cardiac function/morphology in cell-treated groups was seen in stroke volume, cardiac output, ventricle length, and wall thickness. Our findings confirm that cardiac cell replacement is a promising therapy for ischemic heart disease since immature cardiomyocytes persist, integrate, and mature after intramyocardial transplantation, and they dose-dependently stabilize cardiac function after myocardial infarction.
AbstractList	Cardiac cell replacement therapy is a promising therapy to improve cardiac function in heart failure. Persistence, structural and functional maturation, and integration of transplanted cardiomyocytes into recipients' hearts are crucial for a safe and efficient replacement of lost cells. We studied histology, electrophysiology, and quantity of intramyocardially transplanted rat neonatal cardiomyocytes (NCMs) and performed a detailed functional study with repeated invasive (pressure–volume catheter) and noninvasive (echocardiography) analyses of infarcted female rat hearts including pharmacological stress before and 3 weeks after intramyocardial injection of 5 × 10 6 (low NCM) or 25 × 10 6 (high NCM) syngeneic male NCMs or medium as placebo (Ctrl). Quantitative real-time polymerase chain reaction (PCR) for Y-chromosome confirmed a fivefold higher persisting male cell number in high NCM versus low NCM after 3 weeks. Sharp electrode measurements within viable slices of recipient hearts demonstrated that transplanted NCMs integrate into host myocardium and mature to an almost adult phenotype, which might be facilitated through gap junctions between host myocardium and transplanted NCMs as indicated by connexin43 in histology. Ejection fraction of recipient hearts was severely impaired after ligation of left anterior descending (LAD; pressure–volume catheter: 39.2 ± 3.6%, echocardiography: 39.9 ± 1.4%). Repeated analyses revealed a significant further decline within 3 weeks in Ctrl and a dose-dependent stabilization in cell-treated groups. Consistently, stabilized cardiac function/morphology in cell-treated groups was seen in stroke volume, cardiac output, ventricle length, and wall thickness. Our findings confirm that cardiac cell replacement is a promising therapy for ischemic heart disease since immature cardiomyocytes persist, integrate, and mature after intramyocardial transplantation, and they dose-dependently stabilize cardiac function after myocardial infarction. Cardiac cell replacement therapy is a promising therapy to improve cardiac function in heart failure. Persistence, structural and functional maturation, and integration of transplanted cardiomyocytes into recipients' hearts are crucial for a safe and efficient replacement of lost cells. We studied histology, electrophysiology, and quantity of intramyocardially transplanted rat neonatal cardiomyocytes (NCMs) and performed a detailed functional study with repeated invasive (pressure-volume catheter) and noninvasive (echocardiography) analyses of infarcted female rat hearts including pharmacological stress before and 3 weeks after intramyocardial injection of 5 × 106 (low NCM) or 25 × 106 (high NCM) syngeneic male NCMs or medium as placebo (Ctrl). Quantitative real-time polymerase chain reaction (PCR) for Y-chromosome confirmed a fivefold higher persisting male cell number in high NCM versus low NCM after 3 weeks. Sharp electrode measurements within viable slices of recipient hearts demonstrated that transplanted NCMs integrate into host myocardium and mature to an almost adult phenotype, which might be facilitated through gap junctions between host myocardium and transplanted NCMs as indicated by connexin43 in histology. Ejection fraction of recipient hearts was severely impaired after ligation of left anterior descending (LAD; pressure-volume catheter: 39.2 ± 3.6%, echocardiography: 39.9 ± 1.4%). Repeated analyses revealed a significant further decline within 3 weeks in Ctrl and a dose-dependent stabilization in cell-treated groups. Consistently, stabilized cardiac function/morphology in cell-treated groups was seen in stroke volume, cardiac output, ventricle length, and wall thickness. Our findings confirm that cardiac cell replacement is a promising therapy for ischemic heart disease since immature cardiomyocytes persist, integrate, and mature after intramyocardial transplantation, and they dose-dependently stabilize cardiac function after myocardial infarction. Cardiac cell replacement therapy is a promising therapy to improve cardiac function in heart failure. Persistence, structural and functional maturation, and integration of transplanted cardiomyocytes into recipients' hearts are crucial for a safe and efficient replacement of lost cells. We studied histology, electrophysiology, and quantity of intramyocardially transplanted rat neonatal cardiomyocytes (NCMs) and performed a detailed functional study with repeated invasive (pressure–volume catheter) and noninvasive (echocardiography) analyses of infarcted female rat hearts including pharmacological stress before and 3 weeks after intramyocardial injection of 5 × 10 6 (low NCM) or 25 × 10 6 (high NCM) syngeneic male NCMs or medium as placebo (Ctrl). Quantitative real-time polymerase chain reaction (PCR) for Y-chromosome confirmed a fivefold higher persisting male cell number in high NCM versus low NCM after 3 weeks. Sharp electrode measurements within viable slices of recipient hearts demonstrated that transplanted NCMs integrate into host myocardium and mature to an almost adult phenotype, which might be facilitated through gap junctions between host myocardium and transplanted NCMs as indicated by connexin43 in histology. Ejection fraction of recipient hearts was severely impaired after ligation of left anterior descending (LAD; pressure–volume catheter: 39.2 ± 3.6%, echocardiography: 39.9 ± 1.4%). Repeated analyses revealed a significant further decline within 3 weeks in Ctrl and a dose-dependent stabilization in cell-treated groups. Consistently, stabilized cardiac function/morphology in cell-treated groups was seen in stroke volume, cardiac output, ventricle length, and wall thickness. Our findings confirm that cardiac cell replacement is a promising therapy for ischemic heart disease since immature cardiomyocytes persist, integrate, and mature after intramyocardial transplantation, and they dose-dependently stabilize cardiac function after myocardial infarction.
Author	Plenge, Tobias G. Kaluschke, Tobias Peinkofer, Gabriel Eschrig, Simon Hescheler, Jürgen Oeckenpöhler, Simon Krausgrill, Benjamin Ladage, Dennis Müller-Ehmsen, Jochen Urban, Katja Maass, Martina Raths, Martin Halbach, Marcel
AuthorAffiliation	Institute of Neurophysiology, University of Cologne, Cologne, Germany 2 Department of Internal Medicine 3, Asklepios Hospital Altona, Hamburg, Germany Department of Internal Medicine III, University Hospital of Cologne, Cologne, Germany
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CitedBy_id	crossref_primary_10_1113_JP273098 crossref_primary_10_1093_cvr_cvz179 crossref_primary_10_1016_j_jmst_2022_11_002 crossref_primary_10_1186_s13287_020_02089_5 crossref_primary_10_1016_j_biomaterials_2019_03_023 crossref_primary_10_1038_s41598_019_49653_5
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Snippet	Cardiac cell replacement therapy is a promising therapy to improve cardiac function in heart failure. Persistence, structural and functional maturation, and...
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SubjectTerms	Animals Animals, Newborn Cardiac function Cardiac Output - physiology Cardiomyocytes Catheters Cell number Cerebral infarction Connexin 43 Connexin 43 - metabolism Coronary artery disease Cytology Echocardiography Electrophysiology Gap junctions Heart diseases Heart transplantation Histology Integration Ischemia Myocardial infarction Myocardial Infarction - metabolism Myocardial Infarction - physiopathology Myocardial Infarction - therapy Myocardium Myocytes, Cardiac - cytology Myocytes, Cardiac - transplantation Neonates Phenotypes Polymerase chain reaction Rats Real-Time Polymerase Chain Reaction Stroke Volume - physiology Structure-function relationships Syngeneic grafts Ventricle
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Title	Intramyocardially Transplanted Neonatal Cardiomyocytes (NCMs) Show Structural and Electrophysiological Maturation and Integration and Dose-Dependently Stabilize Function of Infarcted Rat Hearts
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