Rare loss-of-function variants in FLNB cause non-syndromic orofacial clefts

Orofacial clefts (OFCs) are the most common congenital craniofacial disorders, of which the etiology is closely related to rare coding variants. Filamin B (FLNB) is an actin-binding protein implicated in bone formation. FLNB mutations have been identified in several types of syndromic OFCs and previ...

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Published in:Journal of genetics and genomics 2024-02, Vol.51 (2), p.222-229
Main Authors: Huang, Wenbin, Zhang, Shiying, Lin, Jiuxiang, Ding, Yi, Jiang, Nan, Zhang, Jieni, Zhao, Huaxiang, Chen, Feng
Format: Article
Language:English
Subjects:
Actin filament
Animals
Brain - abnormalities
Cleft Lip - genetics
Cleft palate
Cleft Palate - genetics
Filamin B
Filamins - genetics
FLNB
Humans
Knockout mouse
Loss-of-function mutation
Mammals
Mice
Mutation
Orofacial clefts
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cited_by cdi_FETCH-LOGICAL-c3112-fca9564d0ad5ff2cf1066170fccd6418e3ae938a7002a97d26a4941f5cd50a8f3
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container_end_page 229
container_issue 2
container_start_page 222
container_title Journal of genetics and genomics
container_volume 51
creator Huang, Wenbin
Zhang, Shiying
Lin, Jiuxiang
Ding, Yi
Jiang, Nan
Zhang, Jieni
Zhao, Huaxiang
Chen, Feng
description Orofacial clefts (OFCs) are the most common congenital craniofacial disorders, of which the etiology is closely related to rare coding variants. Filamin B (FLNB) is an actin-binding protein implicated in bone formation. FLNB mutations have been identified in several types of syndromic OFCs and previous studies suggest a role of FLNB in the onset of non-syndromic OFCs (NSOFCs). Here, we report two rare heterozygous variants (p.P441T and p.G565R) in FLNB in two unrelated hereditary families with NSOFCs. Bioinformatics analysis suggests that both variants may disrupt the function of FLNB. In mammalian cells, p.P441T and p.G565R variants are less potent to induce cell stretches than wild type FLNB, suggesting that they are loss-of-function mutations. Immunohistochemistry analysis demonstrates that FLNB is abundantly expressed during palatal development. Importantly, Flnb−/− embryos display cleft palates and previously defined skeletal defects. Taken together, our findings reveal that FLNB is required for development of palates in mice and FLNB is a bona fide causal gene for NSOFCs in humans.
doi_str_mv 10.1016/j.jgg.2023.03.012
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Filamin B (FLNB) is an actin-binding protein implicated in bone formation. FLNB mutations have been identified in several types of syndromic OFCs and previous studies suggest a role of FLNB in the onset of non-syndromic OFCs (NSOFCs). Here, we report two rare heterozygous variants (p.P441T and p.G565R) in FLNB in two unrelated hereditary families with NSOFCs. Bioinformatics analysis suggests that both variants may disrupt the function of FLNB. In mammalian cells, p.P441T and p.G565R variants are less potent to induce cell stretches than wild type FLNB, suggesting that they are loss-of-function mutations. Immunohistochemistry analysis demonstrates that FLNB is abundantly expressed during palatal development. Importantly, Flnb−/− embryos display cleft palates and previously defined skeletal defects. 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subjects Actin filament
Animals
Brain - abnormalities
Cleft Lip - genetics
Cleft palate
Cleft Palate - genetics
Filamin B
Filamins - genetics
FLNB
Humans
Knockout mouse
Loss-of-function mutation
Mammals
Mice
Mutation
Orofacial clefts
title Rare loss-of-function variants in FLNB cause non-syndromic orofacial clefts
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