News Release

Cells putting on a face

Kyoto University discovers formation of branchial arches modeling facial primordium

Peer-Reviewed Publication

Kyoto University

Neural crest cells for good jaws

image: 

Human ES cells can now be used to induce structures with regionalized maxillary and mandibular primordia through the neural crest cell state, allowing for the recapitulation of jaw development in vitro. (POU3F3+ for maxillary and HAND2+ for mandibular)

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Credit: KyotoU/Mototsugu Eiraku and Yusuke Seto

Kyoto, Japan -- Mother Nature is an artist, but her craft of creating animal faces requires more than a paintbrush and palette. Such highly complex shapes originate from their respective transient neural crest cells

These embryonic pluripotent cells within the facial primordium—the early development form—may be necessary for forming proper facial structures. However, analyzing the molecular mechanisms in such early stages of development poses many technical challenges.

Now, a group of Kyoto University researchers have produced neural crest cell-rich aggregates from human pluripotent stem cells and developed a method to differentiate them in cell populations with a branchial arch-like gene expression pattern. 

"After the cell populations differentiate into precursors of maxillary and mandibular cells in response to external signalling factors, these populations spontaneously form patterns of the facial primordium," explains Yusuke Seto of KyotoU's Institute for Medical and Biological Research.

This cartilage-like structure, reminiscent of Meckels cartilage, is formed locally within the aggregates.

"We aim to establish a model for studying early facial development by using the properties of human pluripotent stem cells to generate in vitro tissue resembling the bronchial arch of the primordial face," adds Ryoma Ogihara, also of the Institute.

Researchers are examining the various developmental processes that cause interspecific and individual differences in facial structure to explain conditions such as craniofacial disorders.

"Using our in vitro model could help us better understand and control signal integration during the fate determination of the branchial arch and cartilage formation in the face and elsewhere. We hope our technology can contribute to the development of cellular materials for new regenerative medicine," adds Mototsugu Eiraku, also of the Institute.

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The paper "In vitro induction of patterned branchial arch-like aggregate from human pluripotent stem cells" appeared on 14 February 2024 in Nature Communications, with doi: 10.1038/s41467-024-45285-0  

About Kyoto University
Kyoto University is one of Japan and Asia's premier research institutions, founded in 1897 and responsible for producing numerous Nobel laureates and winners of other prestigious international prizes. A broad curriculum across the arts and sciences at undergraduate and graduate levels complements several research centers, facilities, and offices around Japan and the world. For more information, please see: http://www.kyoto-u.ac.jp/en


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