La Trobe

Delineating the roles of Grhl2 in craniofacial development through tissue-specific conditional deletion and epistasis approaches in mouse

journal contribution
posted on 2024-12-19, 02:28 authored by Michael De VriesMichael De Vries, HG Owens, MR Carpinelli, D Partridge, A Kersbergen, KD Sutherland, A Auden, PJ Anderson, SM Jane, Sebastian DworkinSebastian Dworkin

Background: The highly conserved Grainyhead-like (Grhl) family of transcription factors play critical roles in the development of the neural tube and craniofacial skeleton. In particular, deletion of family member Grainyhead-like 2 (Grhl2) leads to mid-gestational embryonic lethality, maxillary clefting, abdominoschisis, and both cranial and caudal neural tube closure defects. These highly pleiotropic and systemic defects suggest that Grhl2 plays numerous critical developmental roles to ensure correct morphogenesis and patterning.

Results: Here, using four separate Cre-lox conditional deletion models, as well as one genetic epistasis approach (Grhl2+/−;Edn1+/− double heterozygous mice) we have investigated tissue-specific roles of Grhl2 in embryonic development, with a particular focus on the craniofacial skeleton. We find that loss of Grhl2 in the pharyngeal epithelium (using the ShhCre driver) leads to low-penetrance micrognathia, whereas deletion of Grhl2 within the ectoderm of the pharynx (NestinCre) leads to small, albeit significant, differences in the proximal-distal elongation of both the maxilla and mandible. Loss of Grhl2 in endoderm (Sox17-2aiCre) resulted in noticeable lung defects and a single instance of secondary palatal clefting, although formation of other endoderm-derived organs such as the stomach, bladder and intestines was not affected. Lastly, deletion of Grhl2 in cells of the neural crest (Wnt1Cre) did not lead to any discernible defects in craniofacial development, and similarly, our epistasis approach did not detect any phenotypic consequences of loss of a single allele of both Grhl2 and Edn1.

Conclusion: Taken together, our study identifies a pharyngeal-epithelium intrinsic, non-cell-autonomous role for Grhl2 in the patterning and formation of the craniofacial skeleton, as well as an endoderm-specific role for Grhl2 in the formation and establishment of the mammalian lung.

Funding

Unravelling the holistic genetic control of vertebrate development

Australian Research Council

Find out more...

National Health and Medical Research Council, Grant/Award Number: GNT1063837

History

Publication Date

2021-08-01

Journal

Developmental Dynamics

Volume

250

Issue

8

Pagination

19p. (p. 1191-1209)

Publisher

Wiley

ISSN

1058-8388

Rights Statement

© 2021 American Association of Anatomists.