Abstract
During zebrafish development, the left-right (LR) asymmetric signals are first established around the Kupffer vesicle (KV), a ciliated organ generating directional fluid flow. Then, LR asymmetry is conveyed and stabilized in the lateral plate mesoderm. Although numerous molecules and signaling pathways are involved in controlling LR asymmetry, mechanistic difference and concordance between different organs during LR patterning are poorly understood. Here we show that RA signaling regulates laterality decisions at two stages in zebrafish. Before the 2-somite stage (2So), inhibition of RA signaling leads to randomized visceral laterality through bilateral expression of nodal/spaw in the lateral plate mesoderm, which is mediated by increases in cilia length and defective directional fluid flow in KV. Fgf8 is required for the regulation of cilia length by RA signaling. Blockage of RA signaling before 2So also leads to mild defects of heart laterality, which become much more severe through perturbation of cardiac bmp4 asymmetry when RA signaling is blocked after 2So. At this stage, visceral laterality and the left-sided Nodal remain unaffected. These findings suggest that RA signaling controls visceral laterality through the left-sided Nodal signal before 2So, and regulates heart laterality through cardiac bmp4 mainly after 2So, first identifying sequential control and concordance of visceral and heart laterality.
Highlights
During vertebrate development, left-right (LR)2 asymmetry is evident both in heart and visceral organs such as liver, pancreas, and gut
When we incubated gutGFP transgenic zebrafish embryos with the pan-retinoic acid receptor antagonist BMS-189453 (BMS453) [30, 31], we found that inhibition of Retinoic acid (RA) signaling affected exocrine pancreas differentiation, and led to LR defects of visceral organs
To further investigate the regulatory stage of RA signaling on visceral laterality, effects of BMS453 treatment on the LR patterning of visceral organs were analyzed using the 2CLIP transgenic line with liver and pancreas clearly labeled [32]
Summary
Left-right (LR)2 asymmetry is evident both in heart and visceral organs such as liver, pancreas, and gut. To study the role of RA signaling in controlling heart laterality as well as concordance of heart and visceral organs during LR patterning in zebrafish, effects of BMS453 treatment on heart laterality were analyzed using Tg(cmlc2:GFP) transgenic embryos [36].
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