4D Atlas of the Mouse Embryo for Precise Morphological Staging

Overview

Journal Development

Specialty Biology

Date 2015 Oct 22

PMID 26487781

Citations 30

Authors

Michael D Wong

Matthijs C van Eede

Shoshana Spring

Stefan Jevtic

Julia C Boughner

Jason P Lerch

R Mark Henkelman

Affiliations

Soon will be listed here.

Abstract

After more than a century of research, the mouse remains the gold-standard model system, for it recapitulates human development and disease and is quickly and highly tractable to genetic manipulations. Fundamental to the power and success of using a mouse model is the ability to stage embryonic mouse development accurately. Past staging systems were limited by the technologies of the day, such that only surface features, visible with a light microscope, could be recognized and used to define stages. With the advent of high-throughput 3D imaging tools that capture embryo morphology in microscopic detail, we now present the first 4D atlas staging system for mouse embryonic development using optical projection tomography and image registration methods. By tracking 3D trajectories of every anatomical point in the mouse embryo from E11.5 to E14.0, we established the first 4D atlas compiled from ex vivo 3D mouse embryo reference images. The resulting 4D atlas comprises 51 interpolated 3D images in this gestational range, resulting in a temporal resolution of 72 min. From this 4D atlas, any mouse embryo image can be subsequently compared and staged at the global, voxel and/or structural level. Assigning an embryonic stage to each point in anatomy allows for unprecedented quantitative analysis of developmental asynchrony among different anatomical structures in the same mouse embryo. This comprehensive developmental data set offers developmental biologists a new, powerful staging system that can identify and compare differences in developmental timing in wild-type embryos and shows promise for localizing deviations in mutant development.

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References

Sharpe J, Ahlgren U, Perry P, Hill B, Ross A, Hecksher-Sorensen J . Optical projection tomography as a tool for 3D microscopy and gene expression studies. Science. 2002; 296(5567):541-5. DOI: 10.1126/science.1068206. View

Pluim J, Maintz J, Viergever M . Mutual-information-based registration of medical images: a survey. IEEE Trans Med Imaging. 2003; 22(8):986-1004. DOI: 10.1109/TMI.2003.815867. View

Michos O, Panman L, Vintersten K, Beier K, Zeller R, Zuniga A . Gremlin-mediated BMP antagonism induces the epithelial-mesenchymal feedback signaling controlling metanephric kidney and limb organogenesis. Development. 2004; 131(14):3401-10. DOI: 10.1242/dev.01251. View

Kovacevic N, Henderson J, Chan E, Lifshitz N, Bishop J, Evans A . A three-dimensional MRI atlas of the mouse brain with estimates of the average and variability. Cereb Cortex. 2004; 15(5):639-45. DOI: 10.1093/cercor/bhh165. View

Walls J, Coultas L, Rossant J, Henkelman R . Three-dimensional analysis of vascular development in the mouse embryo. PLoS One. 2008; 3(8):e2853. PMC: 2478714. DOI: 10.1371/journal.pone.0002853. View

Metscher B . MicroCT for developmental biology: a versatile tool for high-contrast 3D imaging at histological resolutions. Dev Dyn. 2009; 238(3):632-40. DOI: 10.1002/dvdy.21857. View

Metscher B . MicroCT for comparative morphology: simple staining methods allow high-contrast 3D imaging of diverse non-mineralized animal tissues. BMC Physiol. 2009; 9:11. PMC: 2717911. DOI: 10.1186/1472-6793-9-11. View

Degenhardt K, Wright A, Horng D, Padmanabhan A, Epstein J . Rapid 3D phenotyping of cardiovascular development in mouse embryos by micro-CT with iodine staining. Circ Cardiovasc Imaging. 2010; 3(3):314-22. PMC: 3059892. DOI: 10.1161/CIRCIMAGING.109.918482. View

Boehm B, Rautschka M, Quintana L, Raspopovic J, Jan Z, Sharpe J . A landmark-free morphometric staging system for the mouse limb bud. Development. 2011; 138(6):1227-34. PMC: 3042875. DOI: 10.1242/dev.057547. View

10.

Wong M, Dorr A, Walls J, Lerch J, Henkelman R . A novel 3D mouse embryo atlas based on micro-CT. Development. 2012; 139(17):3248-56. PMC: 6514304. DOI: 10.1242/dev.082016. View

11.

Adams D, Baldock R, Bhattacharya S, Copp A, Dickinson M, Greene N . Bloomsbury report on mouse embryo phenotyping: recommendations from the IMPC workshop on embryonic lethal screening. Dis Model Mech. 2013; 6(3):571-9. PMC: 3634642. DOI: 10.1242/dmm.011833. View

12.

Wong M, Dazai J, Walls J, Gale N, Henkelman R . Design and implementation of a custom built optical projection tomography system. PLoS One. 2013; 8(9):e73491. PMC: 3762719. DOI: 10.1371/journal.pone.0073491. View

13.

Wong M, Maezawa Y, Lerch J, Henkelman R . Automated pipeline for anatomical phenotyping of mouse embryos using micro-CT. Development. 2014; 141(12):2533-41. PMC: 4050698. DOI: 10.1242/dev.107722. View

14.

Szulc K, Lerch J, Nieman B, Bartelle B, Friedel M, Suero-Abreu G . 4D MEMRI atlas of neonatal FVB/N mouse brain development. Neuroimage. 2015; 118:49-62. PMC: 4554969. DOI: 10.1016/j.neuroimage.2015.05.029. View