dHAND and eHAND are related basic helix-loop-helix (bHLH) transcription factors that are expressed in mesodermal and neural crest-derived structures of the developing heart. In contrast to their homogeneous expression during avian cardiogenesis, during mouse heart development we show that dHAND and eHAND are expressed in a complementary fashion and are restricted to segments of the heart tube fated to form the right and left ventricles, respectively. dHAND and eHAND represent the earliest cardiac chamber-specific transcription factors yet identified. Targeted gene deletion of dHAND in mouse embryos resulted in embryonic lethality at embryonic day 10.5 from heart failure. Our description of the cardiac phenotype of dHAND mutant embryos is the first demonstration of a single gene controlling the formation of the mesodermally derived right ventricle and the neural crest-derived aortic arches and reveals a novel cardiogenic subprogramme for right ventricular development.
Microdeletions of chromosome 22q11 are the most common genetic defects associated with cardiac and craniofacial anomalies in humans. A screen for mouse genes dependent on dHAND, a transcription factor implicated in neural crest development, identified Ufd1, which maps to human 22q11 and encodes a protein involved in degradation of ubiquitinated proteins. Mouse Ufd1 was specifically expressed in most tissues affected in patients with 22q11 deletion syndrome. The human UFD1L gene was deleted in all 182 patients studied with 22q11 deletion, and a smaller deletion of approximately 20 kilobases that removed exons 1 to 3 of UFD1L was found in one individual with features typical of 22q11 deletion syndrome. These data suggest that UFD1L haploinsufficiency contributes to the congenital heart and craniofacial defects seen in 22q11 deletion.
dHAND and eHAND are basic helix-loop-helix transcription factors that play critical roles in cardiac development. The HAND genes have a complementary left-right cardiac asymmetry of expression with dHAND predominantly on the right side and eHAND on the left side of the looped heart tube. Here we show that although eHAND is asymmetrically expressed along the anterior-posterior and dorsal-ventral embryonic axes, it is symmetrically expressed along the left-right axis at early stages of embryonic and cardiac development. After cardiac looping, dHAND and eHAND are expressed in the right (pulmonary) and left (systemic) ventricles, respectively. The left-right (LR) sidedness of dHAND and eHAND expression is demonstrated to be anatomically reversed in situs inversus (inv/inv) mouse embryos; however, dHAND expression persists in the pulmonary ventricle and eHAND in the systemic ventricle regardless of anatomic position, indicating chamber specificity of expression. Previously we showed that dHAND-null mice fail to form a right-sided pulmonary ventricle. Here mice homozygous for the dHAND and inv mutations are demonstrated to have only a right-sided ventricle which is morphologically a left (systemic) ventricle. These data suggest that the HAND genes are involved in development of segments of the heart tube which give rise to specific chambers of the heart during cardiogenesis, rather than controlling the direction of cardiac looping by interpreting the cascade of LR embryonic signals.
Myocardial necrosis, usually called infarction, occurs in different patterns. A common form is necrosis of one segment of the left ventricle, i.e., anterior, septal, lateral or posterior. This regional infarction is consistently associated with an acute occlusive thrombosis of the artery supply that region. Diffuse necrosis involving the whole circumference, usually the subendocardial zone, of the ventricle is not consistently associated with thrombi. Occlusive thrombi identified in post-mortem coronary arterio-grams have been reconstructed in their entirety from serial sections at 150 micron intervals. Most occlusive thrombi were found to be associated with a dissection track into the intima at an atheromatous plaque. The break into the plaque usually extended over several millimeters, often in spirals, so that a mass of thrombus within the plaque compressed the original lumen. Previous accounts of plaque rupture or cracking greatly underestimated the magnitude of the dissection of blood into the intima.
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