AI Article Synopsis
- HMM is a lethal genetic mutation in Japanese quail that leads to severe limb malformations, characterized by polydactyly and abnormal digit development.
- The limb buds of affected embryos exhibit a significant decrease in sonic hedgehog (SHH) signaling, with a lack of polarizing activity and dysfunctional response to normal SHH signals.
- High levels of GLI3A protein and nuclear localization of GLI3 indicate that the regulatory mechanism of GLI3 is disrupted, suggesting a unique genetic cause of these limb abnormalities.
Article Abstract
Hereditary Multiple Malformation (HMM) is a naturally occurring, autosomal recessive, homozygous lethal mutation found in Japanese quail. Homozygote embryos () show polydactyly similar to and mutants. Here we characterize the molecular profile of the limb bud and identify the cellular mechanisms that cause its polydactyly. The limb bud shows a severe lack of sonic hedgehog (SHH) signaling, and the autopod has 4 to 11 unidentifiable digits with syn-, poly-, and brachydactyly. The Zone of Polarizing Activity (ZPA) of the limb bud does not show polarizing activity regardless of the presence of SHH protein, indicating that either the secretion pathway of SHH is defective or the SHH protein is dysfunctional. Furthermore, mesenchymal cells in the limb bud do not respond to ZPA transplanted from the normal limb bud, suggesting that signal transduction downstream of SHH is also defective. Since primary cilia are present in the limb bud, the causal gene must be different from and . In the limb bud, a high amount of GLI3A protein is expressed and GLI3 protein is localized to the nucleus. Our results suggest that the regulatory mechanism of GLI3 is disorganized in the limb bud.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5187386 | PMC |
| http://dx.doi.org/10.3389/fcell.2016.00149 | DOI Listing |
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