Structural characteristics of the deciduous teeth of Tibetan miniature pigs / 南方医科大学学报

OBJECTIVE@#To explore the histological structure of the deciduous teeth and the tooth germs of Tibetan miniature pigs for studies of dental tissue diseases and tooth regeneration.@*METHODS@#The structure of the deciduous teeth of Tibetan miniature pigs was observed by X-ray. The ultrastructure of the enamel and dentin of deciduous teeth was characterized by scanning electron microscopy. The jaws and teeth were three-dimensionally reconstructed using Mimics software based on Micro-CT scanning of the deciduous teeth. Image J software was used to calculate the gray value and the mineralization density of the deciduous teeth. Hisotological structure of the tooth germ and the pulp tissue of Tibetan miniature pigs was observed using HE staining.@*RESULTS@#The deciduous teeth of Tibetan miniature pigs were composed of enamel, dentin and medullary pulp tissue. The permanent tooth germ were formed during the deciduous dentition. The enamel and dentin ultrastructure of deciduous teeth were consistent with that of human deciduous teeth. The enamel and dentin mineralization densities were 2.47±0.09 g/cm and 1.72±0.07 g/cm, respectively. The pathological structures of tooth germ and pulp tissue were similar to those of human teeth, and the pulp tissue of the deciduous teeth was in an undifferentiated state.@*CONCLUSIONS@#The deciduous teeth of Tibetan miniature pig have similar anatomy, ultrastructure and histopathological structure to human teeth and can serve as a good animal model for studying human dental tissue diseases and the mechanisms of tooth regeneration.

Whole exome sequencing identifies an AMBN missense mutation causing severe autosomal-dominant amelogenesis imperfecta and dentin disorders / 国际口腔科学杂志·英文版

Tooth development is a complex process that involves precise and time-dependent orchestration of multiple genetic, molecular, and cellular interactions. Ameloblastin (AMBN, also named "amelin" or "sheathlin") is the second most abundant enamel matrix protein known to have a key role in amelogenesis. Amelogenesis imperfecta (AI [MIM: 104500]) refers to a genetically and phenotypically heterogeneous group of conditions characterized by inherited developmental enamel defects. The hereditary dentin disorders comprise a variety of autosomal-dominant genetic symptoms characterized by abnormal dentin structure affecting either the primary or both the primary and secondary teeth. The vital role of Ambn in amelogenesis has been confirmed experimentally using mouse models. Only two cases have been reported of mutations of AMBN associated with non-syndromic human AI. However, no AMBN missense mutations have been reported to be associated with both human AI and dentin disorders. We recruited one kindred with autosomal-dominant amelogenesis imperfecta (ADAI) and dentinogenesis imperfecta/dysplasia characterized by generalized severe enamel and dentin defects. Whole exome sequencing of the proband identified a novel heterozygous C-T point mutation at nucleotide position 1069 of the AMBN gene, causing a Pro to Ser mutation at the conserved amino acid position 357 of the protein. Exfoliated third molar teeth from the affected family members were found to have enamel and dentin of lower mineral density than control teeth, with thinner and easily fractured enamel, short and thick roots, and pulp obliteration. This study demonstrates, for the first time, that an AMBN missense mutation causes non-syndromic human AI and dentin disorders.

Effec ts of hypoxic preconditioning on learning and memory in mice with cerebral sichemia-reperfu-sion injury and underlyin g mechanisms / 中华行为医学与脑科学杂志

Objective To investigate the effects of hypoxic preconditioning on learning and memory and the possible protective mechanism in mice with cerebral ischemia-reperfusion injury.Methods Healthy adult male Kunming mice were randomly divided into five groups by Random number table:normal group( N group),hypoxic preconditioning group (HPC group),sham operation group (C group),ischemia-reperfusion group(O group),hypoxic preconditioning and ischemia-reperfusion group(HPC+O group).HPC+O group were given hypoxic preconditioning before 24h of ischemia-reperfusion.The escape latency was detected by Morris water maze and the neuron apoptosis of CA 1 area of hippocampal was determined by immunofluores-cence techniqueR.e sults The escape latency in HPC+O group on the second,third and fourth day of MWM was (39.92±4.52)s,(30.98±2.44)s,(19.69±4.27)s,and significantly lower than that in O group((54.35± 3.66)s,(46.31±4.81)s,(36.81±3.86)s).Mice in HPC+O spent longer time in the target quadrant than that in O group((36.44±5.33)%and(24.5±2.59)%,respectively, P<0.05).Immunofluorescence showed that the apoptotic ration of nerve cells in hippocampal CA 1 was significantly lower than that in O group ( 11.7 ± 0.14 and 1.35±0.14, P<0.05).Conclusion Hypoxic preconditioning can increase hippocampal CA1 neurons hypoxia tolerance of ischemia reperfusion injury in mice,and reduce the incidence of neural cell apoptosis.