Shigehisa Akiyama

Prevalence of Specific Genotypes of Porphyromonas gingivalis fimA and Periodontal Health Status

Porphyromonas gingivalis fimA gene encoding fimbrillin, a subunit of fimbriae, has been classified into 5 genotypes (types I to V) based on their nucleotide sequences. Here, we investigated the relationship between the prevalence of these fimA genotypes and periodontal health status in adults. Dental plaque specimens obtained from 380 periodontally healthy adults and 139 periodontitis patients were analyzed by the PCR method. P. gingivalis was detected in 36.8% of the healthy subjects and in 87.1% of the periodontitis patients. Among the P. gingivalis-positive healthy adults, the most prevalent fimA type was type I (76.1%), followed by type V. In contrast, a majority of the periodontitis patients carried type II fimA organisms (66.1%), followed by type IV. The univariate analysis illustrated that periodontitis was associated with the occurrences of type I fimA (OR 0.16), type II (OR 44.44), type III (1.96), type IV (13.87), and type V (1.40). These findings clearly indicate that there are both disease-associated and non-disease-associated strains of P. gingivalis, and that their infectious traits influencing periodontal health status could be differentiated based on the clonal variation of fimA genes.

Oral manifestations of hereditary sensory and autonomic neuropathy type IV: Congenital insensitivity to pain with anhidrosis

OBJECTIVE Hereditary sensory and autonomic neuropathy type IV (congenital insensitivity to pain with anhidrosis) is a rare disorder. In this study, we investigated the oral and dental manifestations associated with hereditary sensory and autonomic neuropathy type IV. STUDY DESIGN Eighteen patients with hereditary sensory and autonomic neuropathy type IV whose ages ranged from 1 year 0 months to 22 years 3 months were examined for oral signs and symptoms of tooth abnormalities, malocclusions, soft tissue disorders, tongue papilla atrophy, and morphologic abnormalities of hands and fingers. RESULTS All 18 patients showed congenital insensitivity to pain and anhidrosis. Oral self-mutilations, such as autoextraction of teeth and severe biting injuries (with resultant scarring) of the finger tips and oral soft tissues (tongue, lip, and buccal mucosa), were found in most patients. In infant patients the condition was typically characterized by decubital ulcers on the ventral surface of the tongue, resulting from trauma of the incisal edge of erupting mandibular primary incisors during sucking or nursing. These ulcers led to several local and systemic problems, such as tongue bleeding, infection, malnutrition, and halitosis. A large number of missing teeth and a high incidence of dental caries were additional characteristic findings. Such oral self-mutilations were found to decrease with age and with the intellectual, social, and/or emotional development of the patients. However, not all of the mutilations were completely eliminated. Two patients had partial dentures to replace missing teeth. CONCLUSIONS Our study suggests that early diagnosis and specific dental management for patients with hereditary sensory and autonomic neuropathy type IV are important for prevention of the characteristic oral and dental problems accompanying this disorder.

Kruppel-like factor 4 regulates matrix metalloproteinase and aggrecanase gene expression in chondrocytes

Kruppel-like factor 4 (KLF4) is a zinc finger transcription factor that plays crucial roles during the development and maintenance of multiple organs. We and others have previously shown that KLF4 is involved in bone modeling and remodeling but roles played by KLF4 during skeletogenesis are still not fully understood. Here, we show that KLF4 is expressed in the epiphyseal growth plate and articular chondrocytes. Most articular chondrocytes expressed KLF4 in embryos but it localized only in a subset of superficial zone cells in postnatal mice. When KLF4 was overexpressed in chondrocytes in vitro, it severely repressed chondrocytic gene expressions. Global gene expression profiling of KLF4-transduced chondrocytes revealed matrix degrading proteinases of the matrix metalloproteinase and disintegrin and metalloproteinase with thrombospondin-1 domain families within the group of upregulated genes. Proteinase induction by KLF4 was alleviated by Trichostatin A treatment suggesting the possible involvement of epigenetic mechanisms on proteinase induction by KLF4. These results indicate the possible involvement of KLF4 in physiological and pathological aspects during cartilage development and maintenance.

Kruppel-Like Factor 4 represses osteoblast differentiation via ciliary Hedgehog signaling

Abstract Primary cilia are appendages observed in most types of cells, and serve as cellular antennae for sensing environmental signals. Evidence is accumulating that correct ciliogenesis and ciliary functions are indispensable for normal skeletal development by regulating signaling pathways important for bone development. However, whether ciliogenesis is regulated by bone‐related factors in osteoblasts is largely unknown. Here we show that Kruppel‐Like Factor 4 (KLF4), which is known to repress osteoblast differentiation, supports the formation and maintenance of cilia in cultured osteoblasts; however, the length of the cilia observed in KLF4‐induced cells were significantly shorter compared to the control cells. Basal Hedgehog signaling was repressed by KLF4. Significantly, activating Hedgehog signaling using a Smoothened agonist significantly rescued osteoblast mineralization and osteoblastic gene expressions. Global gene expression analysis showed that KLF4 induced number of genes including the nuclear receptor, Pregnane X receptor (PXR), and PXR repressed calvarial osteoblast mineralization and repressed Gli1 expression similar as the effect observed by inducing KLF4. Our results implicate that KLF4 plays important roles for maintaining osteoblasts in an immature state by repressing basal activation of the Hedgehog signaling.