Gas1 is a modifier for holoprosencephaly and genetically interacts with sonic hedgehog
Maisa Seppala, … , Paul T. Sharpe, Martyn T. Cobourne
Maisa Seppala, … , Paul T. Sharpe, Martyn T. Cobourne
Published June 1, 2007
Citation Information: J Clin Invest. 2007;117(6):1575-1584. https://doi.org/10.1172/JCI32032.
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Gas1 is a modifier for holoprosencephaly and genetically interacts with sonic hedgehog

Abstract

Holoprosencephaly (HPE) is a clinically heterogeneous developmental anomaly affecting the CNS and face, in which the embryonic forebrain fails to divide into distinct halves. Numerous genetic loci and environmental factors are implicated in HPE, but mutation in the sonic hedgehog (Shh) gene is an established cause in both humans and mice. As growth arrest–specific 1 (Gas1) encodes a membrane glycoprotein previously identified as a Shh antagonist in the somite, we analyzed the craniofacial phenotype of mice harboring a targeted Gas1 deletion. Gas1–/– mice exhibited microform HPE, including midfacial hypoplasia, premaxillary incisor fusion, and cleft palate, in addition to severe ear defects; however, gross integrity of the forebrain remained intact. These defects were associated with partial loss of Shh signaling in cells at a distance from the source of transcription, suggesting that Gas1 can potentiate hedgehog signaling in the early face. Loss of a single Shh allele in a Gas1–/– background significantly exacerbated the midline craniofacial phenotype, providing genetic evidence that Shh and Gas1 interact. As human GAS1 maps to chromosome 9q21.3–q22, a region previously associated with nonsyndromic cleft palate and congenital deafness, our results establish GAS1 as a potential locus for several human craniofacial malformations.

Authors

Maisa Seppala, Michael J. Depew, David C. Martinelli, Chen-Ming Fan, Paul T. Sharpe, Martyn T. Cobourne

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Figure 7

Demonstration of a genetic interaction between Gas1 and Shh.

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Demonstration of a genetic interaction between Gas1 and Shh. ...
(AD) Comparison of Gas1+/–Shh+/–, Gas1–/–Shh+/+, and 2 Gas1–/–Shh+/– perinatal skulls. The left 3 mice were littermates. (A) Norma basalis. The black line aligns the skulls, which were photographed at the same magnification. (B) Norma lateralis. (C) Dentaries of Gas1+/–Shh+/–, Gas1–/–Shh+/+, and Gas1–/–Shh+/– perinates. Notably, the Gas1–/–Shh+/– perinates, in addition to midline fusion and a single incisor, exhibited what appears to be a duplicated proximal dentary that includes a secondary cartilage-containing condylar process (black arrows) and an alveolus containing an ectopic molar (green arrow). White arrowhead indicates truncation and proximal bifurcation of Meckel’s cartilage. Original magnification, ×4. (D) Calvaria of Gas1+/–Shh+/–, Gas1–/–Shh+/+, and Gas1–/–Shh+/– skulls. Black arrowheads highlight the loss of a patent coronal suture in the calvarium of the Gas1–/–Shh+/– skull. (E) Histological sections of the developing ectopic molar (red arrow) and dentary. MC, Meckel’s cartilage; oc, otic capsule. (F) Comparison of WT and Gas1–/–Shh+/– middle ears. Outlined in the WT image are styloid process (green), stapes (orange), incus (yellow), and malleus (purple). Yellow arrows highlight the vestigial stapes; green arrows indicate the ectopic preotic pillar running from the neurocranial base to the otic capsule; red arrows indicate persistent cartilage of the ala temporalis; blue arrows indicate changes at the squamosal; black arrows indicate the ectopic condyles; dotted yellow line denotes axis of symmetry. Original magnification, ×2.