We surveyed the expression of 557 cancer-related genes in 15 cases of well-differentiated OSCC by cDNA microarray analysis. To identify potential biomarkers for lymph node metastasis, all microarray data were compared by the MannWhitney test and the significance analysis of microarrays between OSCCs with and those without lymph node metastasis. The tissues of OSCCs with lymph node metastasis exhibited increased expression levels of MMP-1, MMP-3, uPA, integrin-␣3, paxillin, tenascin C and IL-6 transcripts. All of these genes were included in common clusters on the Cluster/TreeView analysis, implying that functional gene groups of proteolytic enzymes and integrin-related molecules are involved in cervical lymph node metastasis. The results of RTQ-PCR for differentially expressed genes were in accord with those of cDNA microarray analyses, suggesting that the data obtained by microarray gene expression analyses were valid. Consistent with cooperative expression patterns, immunohistochemical analyses demonstrated that products of MMP-1, MMP-3 and uPA were colocalized to components of the neoplastic stroma, particularly mononuclear inflammatory cells with well-developed eosinophilic cytoplasm. Our results suggest that expression levels of molecules involved in tissue remodeling and cell-ECM adhesion, especially MMP-1 and integrin-␣3, can provide an accurate biomarker system for predicting the risk of cervical lymph node metastasis in OSCC.
The localization and biosynthesis of basement membrane-type heparan sulfate proteoglycan (HSPG), known as perlecan, were studied in ameloblastomas using surgical tissue sections and cells in primary culture to demonstrate the existence of extracellular matrix (ECM) molecules in the intercellular space of epithelial tissue. HSPG was immunolocalized in the intercellular spaces of stellate reticulum-like cells and small vacuolar structures between basal cells in tumor cell nests as well as in myxofibrous stroma. By means of in-situ hybridization, mRNA signals for the HSPG core were intensely demonstrated in the cytoplasm of basal and parabasal cells of parenchyma. Furthermore, the in-vitro biosynthesis of HSPG core protein by ameloblastoma cells was confirmed using immunofluorescence, immunoprecipitation, and reverse-transcriptase polymerase chain reaction (RT-PCR). The results indicated that ameloblastoma cells synthesize HSPG and deposit it in their intercellular space. The intercellular HSPG might act as a carrier for transport of nutrients to tumor cells within ameloblastomatous foci.
Background and PurposeSinus lift (SL) using cultured autogenous periosteal cells (CAPCs) combined with autogenous bone and platelet‐rich plasma (PRP) was performed to evaluate the effect of cell administration on bone regeneration, by using high‐resolution three‐dimensional computed tomography (CT).Materials and Methods
SL with autogenous bone and PRP plus CAPC [CAPC(+)SL] was performed in 23 patients. A piece of periosteum taken from the mandible was cultured in M199 medium with 10% fetal bovine serum (FBS) for 6 weeks. As control, 16 patients received SL with autogenous bone and PRP [CAPC(−)SL]. Three‐dimensional CT imaging was performed before and 4 months and 1 year after SL, and stratification was performed based on CT numbers (HUs) corresponding to soft tissue and cancellous or cortical bone.ResultsThe augmented bone in CAPC(+)SL revealed an increase in HUs corresponding to cancellous bone as well as a decrease in HUs corresponding to grafted cortical bone. In addition, HUs corresponding to cancellous bone in the graft bed were increased in CAPC(+)SL but were decreased in CAPC(−)SL. Insertion torque during implant placement was significantly higher in CAPC(+)SL.ConclusionBy promoting bone anabolic activity both in augmented bone and graft bed, CAPCs are expected to aid primary fixation and osseointegration of implants in clinical applications.
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