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Akula, Shyam K.;
Marciano, Jack H.;
Lim, Youngshin;
Exposito-Alonso, David;
Hylton, Norma K.;
Hwang, Grace H.;
Neil, Jennifer E.;
Dominado, Nicole;
Bunton-Stasyshyn, Rosie K.;
Song, Janet H. T.;
Talukdar, Maya;
Schmid, Aloisia;
Teboul, Lydia;
Mo, Alisa;
Shin, Taehwan;
Finander, Benjamin;
Beck, Samantha G.;
Yeh, Rebecca C.;
Otani, Aoi;
Qian, Xuyu;
DeGennaro, Ellen M.;
Alkuraya, Fowzan S.;
Maddirevula, Sateesh;
Cascino, Gregory D.;
[...]
TMEM161B regulates cerebral cortical gyration, Sonic Hedgehog signaling, and ciliary structure in the developing central nervous system
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- Medientyp: E-Artikel
- Titel: TMEM161B regulates cerebral cortical gyration, Sonic Hedgehog signaling, and ciliary structure in the developing central nervous system
- Beteiligte: Akula, Shyam K.; Marciano, Jack H.; Lim, Youngshin; Exposito-Alonso, David; Hylton, Norma K.; Hwang, Grace H.; Neil, Jennifer E.; Dominado, Nicole; Bunton-Stasyshyn, Rosie K.; Song, Janet H. T.; Talukdar, Maya; Schmid, Aloisia; Teboul, Lydia; Mo, Alisa; Shin, Taehwan; Finander, Benjamin; Beck, Samantha G.; Yeh, Rebecca C.; Otani, Aoi; Qian, Xuyu; DeGennaro, Ellen M.; Alkuraya, Fowzan S.; Maddirevula, Sateesh; Cascino, Gregory D.; [...]
- Erschienen: Proceedings of the National Academy of Sciences, 2023
- Erschienen in: Proceedings of the National Academy of Sciences
- Sprache: Englisch
- DOI: 10.1073/pnas.2209964120
- ISSN: 0027-8424; 1091-6490
- Entstehung:
- Anmerkungen:
- Beschreibung: <jats:p> Sonic hedgehog signaling regulates processes of embryonic development across multiple tissues, yet factors regulating context-specific Shh signaling remain poorly understood. Exome sequencing of families with polymicrogyria (disordered cortical folding) revealed multiple individuals with biallelic deleterious variants in <jats:italic>TMEM161B</jats:italic> , which encodes a multi-pass transmembrane protein of unknown function. <jats:italic>Tmem161b</jats:italic> null mice demonstrated holoprosencephaly, craniofacial midline defects, eye defects, and spinal cord patterning changes consistent with impaired Shh signaling, but were without limb defects, suggesting a CNS-specific role of Tmem161b. <jats:italic>Tmem161b</jats:italic> depletion impaired the response to Smoothened activation in vitro and disrupted cortical histogenesis in vivo in both mouse and ferret models, including leading to abnormal gyration in the ferret model. Tmem161b localizes non-exclusively to the primary cilium, and scanning electron microscopy revealed shortened, dysmorphic, and ballooned ventricular zone cilia in the <jats:italic>Tmem161b</jats:italic> null mouse, suggesting that the Shh-related phenotypes may reflect ciliary dysfunction. Our data identify <jats:italic>TMEM161B</jats:italic> as a regulator of cerebral cortical gyration, as involved in primary ciliary structure, as a regulator of Shh signaling, and further implicate Shh signaling in human gyral development. </jats:p>
- Zugangsstatus: Freier Zugang