TMEM161B modulates radial glial scaffolding in neocortical development

Authors :: Lu Wang
Caleb Heffner
Keng loi Vong
Chelsea Barrows
Yoo-Jin Ha
Sangmoon Lee
Pablo Lara-Gonzalez
Ishani Jhamb
Dennis Van Der Meer
Robert Loughnan
Nadine Parker
David Sievert
Swapnil Mittal
Mahmoud Y. Issa
Ole A. Andreassen
Anders Dale
William B. Dobyns
Maha S. Zaki
Stephen A. Murray
Joseph G. Gleeson
Source :: Proceedings of the National Academy of Sciences. 120
Publication Year :: 2023
Publisher :: Proceedings of the National Academy of Sciences, 2023.
Abstract: TMEM161B encodes an evolutionarily conserved widely expressed novel 8-pass transmembrane protein of unknown function in human. Here we identify TMEM161B homozygous hypomorphic missense variants in our recessive polymicrogyria (PMG) cohort. Patients carrying TMEM161B mutations exhibit striking neocortical PMG and intellectual disability. Tmem161b knockout mice fail to develop midline hemispheric cleavage, whereas knock-in of patient mutations and patient-derived brain organoids show defects in apical cell polarity and radial glial scaffolding. We found that TMEM161B modulates actin filopodia, functioning upstream of the Rho-GTPase CDC42. Our data link TMEM161B with human PMG, likely regulating radial glia apical polarity during neocortical development.

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