4-Dimensional light-sheet microscopy to elucidate shear stress modulation of cardiac trabeculation
Juhyun Lee, … , Rongsong Li, Tzung K. Hsiai
Juhyun Lee, … , Rongsong Li, Tzung K. Hsiai
Published March 28, 2016
Citation Information: J Clin Invest. 2016;126(5):1679-1690. https://doi.org/10.1172/JCI83496.
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4-Dimensional light-sheet microscopy to elucidate shear stress modulation of cardiac trabeculation

Abstract

Hemodynamic shear forces are intimately linked with cardiac development, during which trabeculae form a network of branching outgrowths from the myocardium. Mutations that alter Notch signaling also result in trabeculation defects. Here, we assessed whether shear stress modulates trabeculation to influence contractile function. Specifically, we acquired 4D (3D + time) images with light sheets by selective plane illumination microscopy (SPIM) for rapid scanning and deep axial penetration during zebrafish morphogenesis. Reduction of blood viscosity via gata1a morpholino oligonucleotides (MO) reduced shear stress, resulting in downregulation of Notch signaling and attenuation of trabeculation. Arrest of cardiomyocyte contraction either by troponin T type 2a (tnnt2a) MO or in weak atriumm58 (wea) mutants resulted in reduced shear stress and downregulation of Notch signaling and trabeculation. Integrating 4D SPIM imaging with synchronization algorithm demonstrated that coinjection of neuregulin1 mRNA with gata1 MO rescued trabeculation to restore contractile function in association with upregulation of Notch-related genes. Crossbreeding of Tg(flk:mCherry) fish, which allows visualization of the vascular system with the Tg(tp1:gfp) Notch reporter line, revealed that shear stress–mediated Notch activation localizes to the endocardium. Deleting endocardium via the clochesk4 mutants downregulated Notch signaling, resulting in nontrabeculated ventricle. Subjecting endothelial cells to pulsatile flow in the presence of the ADAM10 inhibitor corroborated shear stress–activated Notch signaling to modulate trabeculation.

Authors

Juhyun Lee, Peng Fei, René R. Sevag Packard, Hanul Kang, Hao Xu, Kyung In Baek, Nelson Jen, Junjie Chen, Hilary Yen, C.-C. Jay Kuo, Neil C. Chi, Chih-Ming Ho, Rongsong Li, Tzung K. Hsiai

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Figure 7

3D quantification of myocardium from the trabecular ridges.

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3D quantification of myocardium from the trabecular ridges. (A) Transgen...
(A) Transgenic cardiac myosin light chain–labeled GFP Tg(cmlc:gfp) lines were visualized by SPIM imaging. Myocardium from trabecular ridges was highlighted in violet and the outside layer in magenta. (B) gata1a MO and tnnt2a MO significantly reduced myocardium volume from trabecular ridges (μm3) at 75 hpf and 100 hpf, respectively. The tnnt2a MO had a stronger effect than the gata1a MO (t test, *P < 0.05, n = 5). Coinjection of Nrg1 mRNA with gata1a MO showed a trend toward restoring the trabecular myocardial volume as compared with the WT. Scale bars: 50 μm. Original magnification, ×10.