[HTML][HTML] Growth and function of the embryonic heart depend upon the cardiac-specific L-type calcium channel α1 subunit
W Rottbauer, K Baker, ZG Wo, MAPK Mohideen… - Developmental cell, 2001 - cell.com
W Rottbauer, K Baker, ZG Wo, MAPK Mohideen, HF Cantiello, MC Fishman
Developmental cell, 2001•cell.comThe heart must function from the moment of its embryonic assembly, but the molecular
underpinnings of the first heart beat are not known, nor whether function determines form at
this early stage. Here, we find by positional cloning that the embryonic lethal island beat (isl)
mutation in zebrafish disrupts the α1C L-type calcium channel subunit (C-LTCC). The isl
atrium is relatively normal in size, and individual cells contract chaotically, in a pattern
resembling atrial fibrillation. The ventricle is completely silent. Unlike another mutation with a …
underpinnings of the first heart beat are not known, nor whether function determines form at
this early stage. Here, we find by positional cloning that the embryonic lethal island beat (isl)
mutation in zebrafish disrupts the α1C L-type calcium channel subunit (C-LTCC). The isl
atrium is relatively normal in size, and individual cells contract chaotically, in a pattern
resembling atrial fibrillation. The ventricle is completely silent. Unlike another mutation with a …
Abstract
The heart must function from the moment of its embryonic assembly, but the molecular underpinnings of the first heart beat are not known, nor whether function determines form at this early stage. Here, we find by positional cloning that the embryonic lethal island beat (isl) mutation in zebrafish disrupts the α1C L-type calcium channel subunit (C-LTCC). The isl atrium is relatively normal in size, and individual cells contract chaotically, in a pattern resembling atrial fibrillation. The ventricle is completely silent. Unlike another mutation with a silent ventricle, isl fails to acquire the normal number of myocytes. Thus, calcium signaling via C-LTCC can regulate heart growth independently of contraction, and plays distinctive roles in fashioning both form and function of the two developing chambers.
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