Sema3a maintains normal heart rhythm through sympathetic innervation patterning

[1]  Wei Zhang,et al.  Mice with the R176Q cardiac ryanodine receptor mutation exhibit catecholamine-induced ventricular tachycardia and cardiomyopathy , 2006, Proceedings of the National Academy of Sciences.

[2]  P. Clopton,et al.  Increased Cardiac Adenylyl Cyclase Expression Is Associated With Increased Survival After Myocardial Infarction , 2006, Circulation.

[3]  B. Bruneau,et al.  The Homeodomain Transcription Factor Irx5 Establishes the Mouse Cardiac Ventricular Repolarization Gradient , 2005, Cell.

[4]  R. Robinson,et al.  Cardiac ion channel expression and regulation: the role of innervation. , 2004, Journal of molecular and cellular cardiology.

[5]  J. Nerbonne,et al.  Heterogeneous expression of repolarizing, voltage‐gated K+ currents in adult mouse ventricles , 2004, The Journal of physiology.

[6]  D. Ginty,et al.  A Neurotrophin Signaling Cascade Coordinates Sympathetic Neuron Development through Differential Control of TrkA Trafficking and Retrograde Signaling , 2004, Cell.

[7]  J. Epstein,et al.  PlexinD1 and semaphorin signaling are required in endothelial cells for cardiovascular development. , 2004, Developmental cell.

[8]  W. Giles,et al.  Nkx2-5 Pathways and Congenital Heart Disease Loss of Ventricular Myocyte Lineage Specification Leads to Progressive Cardiomyopathy and Complete Heart Block , 2004, Cell.

[9]  Shi-Xian Deng,et al.  Protection from Cardiac Arrhythmia Through Ryanodine Receptor-Stabilizing Protein Calstabin2 , 2004, Science.

[10]  H. Okano,et al.  Endothelin-1 regulates cardiac sympathetic innervation in the rodent heart by controlling nerve growth factor expression. , 2004, The Journal of clinical investigation.

[11]  D. Tanelian,et al.  Semaphorin3A Inhibits Nerve Growth Factor-Induced Sprouting of Nociceptive Afferents in Adult Rat Spinal Cord , 2004, The Journal of Neuroscience.

[12]  Bernd Fritzsch,et al.  Neuropilin-1 conveys semaphorin and VEGF signaling during neural and cardiovascular development. , 2003, Developmental cell.

[13]  A. Gramolini,et al.  Ankyrin-B mutation causes type 4 long-QT cardiac arrhythmia and sudden cardiac death , 2003, Nature.

[14]  S. Saba,et al.  Autonomic Blockade Unmasks Maturational Differences in Rate‐Dependent Atrioventricular Nodal Conduction and Facilitation in the Mouse , 2003, Journal of cardiovascular electrophysiology.

[15]  V. Shusterman,et al.  Strain-specific patterns of autonomic nervous system activity and heart failure susceptibility in mice. , 2002, American journal of physiology. Heart and circulatory physiology.

[16]  T. Yagi,et al.  Requirement of neuropilin 1-mediated Sema3A signals in patterning of the sympathetic nervous system. , 2002, Development.

[17]  J. Ross,et al.  A Defect in the Kv Channel-Interacting Protein 2 (KChIP2) Gene Leads to a Complete Loss of I to and Confers Susceptibility to Ventricular Tachycardia , 2001, Cell.

[18]  M. Rosen,et al.  Long-term electrophysiological effects of regional cardiac sympathetic denervation of the neonatal dog. , 2001, Cardiovascular research.

[19]  M. Fishbein,et al.  Sudden, unexpected death in cardiac transplant recipients: an autopsy study. , 2001, The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation.

[20]  T A Denton,et al.  Relationship between regional cardiac hyperinnervation and ventricular arrhythmia. , 2000, Circulation.

[21]  M. Fishbein,et al.  Nerve sprouting and sudden cardiac death. , 2000, Circulation research.

[22]  W. Snider,et al.  The Transmembrane Protein Semaphorin 6A Repels Embryonic Sympathetic Axons , 2000, The Journal of Neuroscience.

[23]  F. Rice,et al.  Development of Sensory Neurons in the Absence of NGF/TrkA Signaling In Vivo , 2000, Neuron.

[24]  M. Sheppard,et al.  Localisation and quantitation of autonomic innervation in the porcine heart I: conduction system , 1999, Journal of anatomy.

[25]  D. Roden,et al.  Replacement by homologous recombination of the minK gene with lacZ reveals restriction of minK expression to the mouse cardiac conduction system. , 1999, Circulation research.

[26]  M. Hansson,et al.  Increased immunoexpression of atrial natriuretic peptide in the heart conduction system of the rat after cardiac sympathectomy. , 1998, Journal of molecular and cellular cardiology.

[27]  M. A. Barry,et al.  Semaphorin III can repulse and inhibit adult sensory afferents in vivo , 1997, Nature Medicine.

[28]  T. Yagi,et al.  Neuropilin–Semaphorin III/D-Mediated Chemorepulsive Signals Play a Crucial Role in Peripheral Nerve Projection in Mice , 1997, Neuron.

[29]  T. Yagi,et al.  Disruption of Semaphorin III/D Gene Causes Severe Abnormality in Peripheral Nerve Projection , 1997, Neuron.

[30]  M. Chin,et al.  Heterogeneous sympathetic innervation in German shepherd dogs with inherited ventricular arrhythmia and sudden cardiac death. , 1997, Circulation.

[31]  Jeffrey A. Golden,et al.  Semaphorin III is needed for normal patterning and growth of nerves, bones and heart , 1996, Nature.

[32]  A. Malliani,et al.  Heart rate variability. Standards of measurement, physiological interpretation, and clinical use , 1996 .

[33]  G. Breithardt,et al.  Heart rate variability: standards of measurement, physiological interpretation and clinical use. Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology. , 1996 .

[34]  W. Snider,et al.  The guidance molecule Semaphorin III is expressed in regions of spinal cord and periphery avoided by growing sensory axons , 1995, The Journal of comparative neurology.

[35]  R. Adams,et al.  Murine semaphorin D/collapsin is a member of a diverse gene family and creates domains inhibitory for axonal extension , 1995, Neuron.

[36]  D. Zipes,et al.  Efferent Sympathetic and Vagal Innervation of the Canine Right Ventricle , 1994, Circulation.

[37]  M. Yacoub,et al.  Innervation of the human cardiac conduction system. A quantitative immunohistochemical and histochemical study. , 1994, Circulation.

[38]  R. Anderson,et al.  Innervation of the human cardiac conduction system at birth. , 1993, British heart journal.

[39]  P. Schwartz,et al.  Development of cardiac innervation, ventricular fibrillation, and sudden infant death syndrome. , 1992, The American journal of physiology.

[40]  J. Gulick,et al.  Isolation and characterization of the mouse cardiac myosin heavy chain genes. , 1991, The Journal of biological chemistry.

[41]  Capelle,et al.  Dispersion of refractoriness in canine ventricular myocardium. Effects of sympathetic stimulation. , 1991, Circulation research.

[42]  P B Corr,et al.  Mechanisms underlying early and delayed afterdepolarizations induced by catecholamines. , 1990, The American journal of physiology.

[43]  T. Maeda,et al.  Visualization of detailed acetylcholinesterase fiber and neuron staining in rat brain by a sensitive histochemical procedure. , 1986, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[44]  W. C. Randall,et al.  Patterns of Sympathetic Nerve Projections onto the Canine Heart , 1968, Circulation research.

[45]  D. Bernstein,et al.  Effect of targeted deletions of beta1- and beta2-adrenergic-receptor subtypes on heart rate variability. , 2006, American journal of physiology. Heart and circulatory physiology.

[46]  D. Bernstein,et al.  Effect of targeted deletions of β1- and β2-adrenergic-receptor subtypes on heart rate variability , 2006 .

[47]  Julie H. Campbell,et al.  The Conduction System , 1986 .