OBJECTIVE: To investigate the clinical characteristics and genetic etiology of a Chinese pedigree affected with Hereditary dentin dysplasia type II (DD-II) due to variant of dentin sialophosphoprotein (DSPP) gene. METHODS: A child diagnosed with DD- II at the Third Clinical Division of Peking University Hospital of Stomatology in December 2021 and her family members were selected as study subjects. Clinical data were retrospectively analyzed. Saliva samples were collected from the proband, her parents and sister for genomic DNA extraction. Whole exome sequencing (WES) was carried out. Candidate variant was verified by Sanger sequencing and TOPO-TA cloning sequencing. The candidate variant was also subjected to bioinformatics analysis using Mutation Taster v2021. Secondary and tertiary structures of the wild-type and variant DSPP proteins were predicted with psipred v4.0 and PyMOL v2.3 software, respectively. The pathogenicity of the variant was classified based on the guidelines from American College of Medical Genetics and Genomics (ACMG). This study was approved by the Medical Ethics Committee of Peking University Hospital of Stomatology (Ethics No.: PKUSSIRB-202162021). RESULTS: The proband and her mother and sister had all exhibited typical clinical manifestations of hereditary DD-II. The primary dentition of the proband displayed yellowish brown discoloration, wear, and obliteration in the chamber and root canal, while the permanent teeth of the proband's sister and mother appeared nearly normal in both color and appearance, though with obliteration in the chamber and root canal. Her father showed normal dentition. WES identified a heterozygous c.1915_1918delAAGT, p.(Lys639Glnfs*674) frameshift variant in the DSPP gene. Sanger sequencing and TOPO-TA cloning sequencing confirmed the presence of this variant in the proband, the proband's sister, and the mother, while the proband's father was negative for the variant, indicating an autosomal dominant inheritance pattern. The variant was predicted to be pathogenic by Mutation Taster v2021. Prediction of the secondary structure of the DSPP protein showed that the variant has changed it from coil to helix. The tertiary structure prediction of the DSPP protein showed change of the spatial structure of the variant DSPP, with the loops in the variant region replaced by helices at multiple sites. Based on the guidelines from the ACMG, the variant was classified as pathogenic (PVS1+PM2_Supporting+PP1+PP4). CONCLUSION Phenotypic analysis and genetic testing of this family has clarified the clinical diagnosis of hereditary DD- II. The c.1915_1918delAAGT variant probably underlay the pathogenesis of DD-II in this family. Above results have expanded the phenotypic spectrum of the disease and may contribute to further clinical and genetic research on this disease.
Humans ; Pedigree ; Female ; Extracellular Matrix Proteins/chemistry* ; Male ; Sialoglycoproteins/chemistry* ; Dentin Dysplasia/genetics* ; Asian People/genetics* ; Phosphoproteins/chemistry* ; Child ; Mutation ; China ; Exome Sequencing ; Adult ; East Asian People

A splicing mutation in VPS4B can cause dentin dysplasia type I (DD-I), a hereditary autosomal-dominant disorder characterized by rootless teeth, the etiology of which is genetically heterogeneous. In our study, dental follicle cells (DFCs) were isolated and cultured from a patient with DD-I and compared with those from an age-matched, healthy control. In a previous study, this DD-I patient was confirmed to have a loss-of-function splicing mutation in VPS4B (IVS7 + 46C > G). The results from this study showed that the isolated DFCs were vimentin-positive and CK14-negative, indicating that the isolated cells were derived from the mesenchyme. DFCs harboring the VPS4B mutation had a significantly higher proliferation rate from day 3 to day 8 than control DFCs, indicating that VPS4B is involved in cell proliferation. The cells were then replenished with osteogenic medium to investigate how the VPS4B mutation affected osteogenic differentiation. Induction of osteogenesis, detected by alizarin red and alkaline phosphatase staining in vitro, was decreased in the DFCs from the DD-I patient compared to the control DFCs. Furthermore, we also found that the VPS4B mutation in the DD-I patient downregulated the expression of osteoblast-related genes, such as ALP, BSP, OCN, RUNX2, and their encoded proteins. These outcomes confirmed that the DD-I-associated VPS4B mutation could decrease the capacity of DFCs to differentiate during the mineralization process and may also impair physiological root formation and bone remodeling. This might provide valuable insights and implications for exploring the pathological mechanisms underlying DD-I root development.
ATPases Associated with Diverse Cellular Activities ; genetics ; Case-Control Studies ; Cell Differentiation ; genetics ; Cells, Cultured ; Dental Sac ; cytology ; Dentin Dysplasia ; genetics ; pathology ; physiopathology ; Endosomal Sorting Complexes Required for Transport ; genetics ; Humans ; Mutation ; genetics ; Osteogenesis ; genetics ; RNA Splicing ; genetics