Family-based GWAS for dental class I malocclusion and clefts

Family-based GWAS for dental class I malocclusion and clefts

Individuals born with cleft lip and/or palate who receive corrective surgery regularly have abnormal growth in the midface region such that they exhibit premaxillary hypoplasia. However, there are also genetic contributions to craniofacial morphology in the midface region, so although these individu...

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Bibliographic Details
Published in:BMC oral health Vol. 24; no. 1; pp. 665 - 5
Main Authors: Bezamat, Mariana, Carver, Chelsea E, Vieira, Alexandre R
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 07-06-2024
BioMed Central
BMC
Subjects:
Adolescent
Adult
Analysis
Child
Class I malocclusion
Cleft lip
Cleft Lip - genetics
Cleft lip/palate
Cleft palate
Cleft Palate - genetics
Cohort Studies
Craniofacial growth
Dental caries
Dental occlusion
Diagnosis
Family
Female
Females
Genes
Genetic aspects
Genetic Markers
Genetic variation
Genome-wide association studies
Genome-Wide Association Study
Genomes
Genomics
Genotype
Genotype & phenotype
Genotyping
GWAS
Humans
Hypoplasia
Linkage Disequilibrium - genetics
Male
Malocclusion
Malocclusion, Angle Class I - genetics
Methods
Multifactorial Inheritance - genetics
Orofacial clefts
Phenotype
Phenotypes
Polygenic inheritance
Polymorphism, Single Nucleotide
Single nucleotide polymorphisms
Single-nucleotide polymorphism
Young Adult
Philippines
Cleft palate
Class I malocclusion
Cleft lip
GWAS
Genetic variation
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Description
Summary:Individuals born with cleft lip and/or palate who receive corrective surgery regularly have abnormal growth in the midface region such that they exhibit premaxillary hypoplasia. However, there are also genetic contributions to craniofacial morphology in the midface region, so although these individuals appear to have Class III skeletal discrepancy, their molar relationship may be Class I. Past genome-wide association studies (GWASs) on skeletal Class II and III malocclusion suggested that multiple genetic markers contribute to these phenotypes via a multifactorial inheritance model, but research has yet to examine the genetic markers associated with dental Class I malocclusion. Thus, our goal was to conduct a family based GWAS to identify genes across the genome that are associated with Class I malocclusion, as defined by molar relations, in humans with and without clefts. Our cohort consisted of 739 individuals from 47 Filipino families originally recruited in 2006 to investigate the genetic basis of orofacial clefts. All individuals supplied blood samples for DNA extraction and genotyping, and a 5,766 single nucleotide polymorphism (SNP) custom panel was used for the analyses. We performed a transmission disequilibrium test for participants with and without clefts to identify genetic contributors potentially involved with Class I malocclusion. In the total cohort, 13 SNPs had associations that reached the genomic control threshold (p < 0.005), while five SNPs were associated with Class I in the cohort of participants without clefts, including four associations that were identified in the total cohort. The associations for the SNPs ABCA4 rs952499, SOX1-OT rs726455, and RORA rs877228 are of particular interest, as past research found associations between these genes and various craniofacial phenotypes, including cleft lip and/or palate. These findings support the multifactorial inheritance model for dental Class I malocclusion and suggest a common genetic basis for different aspects of craniofacial development.
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ISSN:1472-6831
1472-6831
DOI:10.1186/s12903-024-04444-x