A Mostowska1, B Biedziak2, M Zadurska3, A Bogdanowicz4, A Olszewska2, K Cieślińska2, E Firlej2, P P Jagodziński1. 1. Department of Biochemistry and Molecular Biology, Poznan University of Medical Sciences, Poznan, Poland. 2. Division of Facial Malformation, Department of Dental Surgery, Poznan University of Medical Sciences, Poznan, Poland. 3. Department of Orthodontics, Medical University of Warsaw, Warsaw, Poland. 4. Orthodoctic Clinic, Poznan University Hospital of Dentistry and Specialty Medicine, Poznan, Poland.
Abstract
OBJECTIVE: The etiology of tooth agenesis (TA) is multifactorial and still not fully understood. The aim of the study was to test whether variants of GREM2, encoding a bone morphogenetic protein (BMP) antagonist, are associated with the risk of this common dental anomaly in a Polish population. SUBJECTS AND METHODS: Direct sequencing of the GREM2 coding sequence including exon/intron boundaries was performed in 95 patients with both hypodontia and oligodontia. All identified GREM2 variants were then further tested in an independent group of patients (n = 163) and controls (n = 184). RESULTS: The previously described, functional GREM2 mutation (c.226C > G, p.Gln76Glu) was identified in two patients with hypodontia and associated dental anomalies, including taurodontism and microdontia. This mutation generating an allele with increased inhibitory activity was not detected in the control group. The second identified GREM2 variant, c.-1-21C > T (rs11806449), was not associated with the risk TA. The polymorphism allele frequency in both patients and controls was 0.21 (OR = 1.0, 95%CI: 0.76-1.46). The rs11806449 did not correlate either with the overall TA phenotype or hypodontia/oligodontia phenotypes. CONCLUSION: Our study confirmed that GREM2 is a candidate gene for tooth agenesis, which mutations can explain, however, only a small fraction of the genetic contribution to the pathogenesis of this anomaly.
OBJECTIVE: The etiology of tooth agenesis (TA) is multifactorial and still not fully understood. The aim of the study was to test whether variants of GREM2, encoding a bone morphogenetic protein (BMP) antagonist, are associated with the risk of this common dental anomaly in a Polish population. SUBJECTS AND METHODS: Direct sequencing of the GREM2 coding sequence including exon/intron boundaries was performed in 95 patients with both hypodontia and oligodontia. All identified GREM2 variants were then further tested in an independent group of patients (n = 163) and controls (n = 184). RESULTS: The previously described, functional GREM2 mutation (c.226C > G, p.Gln76Glu) was identified in two patients with hypodontia and associated dental anomalies, including taurodontism and microdontia. This mutation generating an allele with increased inhibitory activity was not detected in the control group. The second identified GREM2 variant, c.-1-21C > T (rs11806449), was not associated with the risk TA. The polymorphism allele frequency in both patients and controls was 0.21 (OR = 1.0, 95%CI: 0.76-1.46). The rs11806449 did not correlate either with the overall TA phenotype or hypodontia/oligodontia phenotypes. CONCLUSION: Our study confirmed that GREM2 is a candidate gene for tooth agenesis, which mutations can explain, however, only a small fraction of the genetic contribution to the pathogenesis of this anomaly.
Authors: Robert T Rydze; Bethany K Patton; Shawn M Briley; Hannia Salazar Torralba; Gregory Gipson; Rebecca James; Aleksandar Rajkovic; Thomas Thompson; Stephanie A Pangas Journal: Biol Reprod Date: 2021-11-15 Impact factor: 4.161