生物
颅面
错义突变
遗传学
基因
斑马鱼
基因分型
基因组
多余的
候选基因
突变体
生物信息学
转录组
颅面畸形
突变
表型
作者
Thanakorn Theerapanon,Narin Intarak,Khanti Rattanapornsompong,Sermporn Thaweesapphithak,Kanokwan Sriwattanapong,Sasiprapa Prommanee,Sirinya Kulvitit,Tomislav Škrinjarić,Lakshman Samaranayake,Monnat Pongpanich,Patra Yeetong,Nardtiwa Chaivoravitsakul,Nicole Sirisopit Mehl,Adjima Assawapitaksakul,Chalurmpon Srichomthong,Wanna Chetruengchai,Thantrira Porntaveetus,Vorasuk Shotelersuk
标识
DOI:10.1038/s41467-026-69323-1
摘要
Lobodontia, a rare dental anomaly marked by supernumerary cusps and a single pyramid-shaped molar root, has been previously linked to a variant in the CACNA1S gene without definitive evidence. This study investigates 17 patients with lobodontia from Thai and Croatian families. Microsatellite genotyping defines a 15.4 Mbp critical region encompassing CACNA1S and ASCL5 among Thai families. While genome sequencing confirms the CACNA1S variant only in the Thai patients, all 17 patients harbor the ASCL5 c.274 G > A (p.Glu92Lys) variant, which is absent in 12 unaffected members. Functional studies using CRISPR/Cas9-generated Ascl5 knock-in mutant mice demonstrate the dental anomalies resembling lobodontia in Ascl5Mut/WT, while Ascl5Mut/Mut display severe defects in tooth and jaw development, underscoring the essential role of ASCL5 in craniofacial patterning. Transcriptomic analysis of E17.5 mandibular dental arches reveals differential expression of key craniofacial developmental genes in Ascl5Mut/Mut compared to Ascl5WT/WT, including Dlx1as, and Dlx2. Luciferase assay shows that the p.Glu92Lys ASCL5 impairs DLX2 activation, further supporting the variant’s pathogenicity. This study establishes ASCL5 as the gene responsible for lobodontia, revising its previously understood genetic basis, and highlights its crucial role in craniofacial development. Here the authors report that a missense variant in ASCL5 causes lobodontia, a rare dental anomaly. Genetic analysis and mouse models confirm that the variant disrupts tooth and jaw development, overturning previous theories and defining the genetic basis of this rare condition.
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