353 research outputs found
Periostin and cancer
Periostin is a secreted protein that shares a structural homology to the axon guidance protein fasciclin I (FAS1) in insects and was originally named as osteoblast-specific factor-2 (Osf2). Periostin is particularly highly homologus to ßig-h3, which promotes cell adhesion and spreading of fibroblasts. It has recently been reported that Periostin was frequently overexpressed in various types of human cancers. Although the detailed function of Periostin is still unclear, Periostin-integrin interaction through FAS1 domain is thought to be involved in tumor development. In addition, Periostin stimulates metastatic growth by promoting cancer cell survival, invasion and angiogenesis. Therefore, Periostin can be a useful marker to predict the behavior of cancer. This review summarizes the recent understanding of Periostin roles in tumor development and speculates on the usefulness of Periostin as a therapeutic and diagnostic target for cancer
A Case Report of Lipid-Rich Carcinoma of the Breast Including Histological Characteristics and Intrinsic Subtype Profile
A 57-year-old Japanese woman with schizophrenia, who had received long-term treatment with neuroleptics, noticed a painless, pea-sized lump in her right breast. She was admitted to our hospital and a malignant tumor was diagnosed. The patient underwent a conservative radical mastectomy (Patey's operation). The excised tumor measured 2.0 × 1.2 × 1.1 cm in diameter, and its cut surface was grayish-white. Histologically, tumor cells with clear to foamy cytoplasm were invariably Oil Red O-positive and periodic acid Schiff-negative with or without diastase digestion. The tumor was diagnosed as a lipid-rich carcinoma accompanied by an in situ component. Neuroleptics increase serum prolactin levels by interfering with dopaminergic inhibition of prolactin secretion. Immunohistochemical analysis revealed that, although prolactin was not detected, the tumor cells expressed prolactin receptor, indicating prolactin as the genesis of this neoplasm. In immunohistochemical intrinsic subtype analysis, the tumor was negative for estrogen receptor, progesterone receptor, human epidermal growth factor receptor 1 and 2, and basal cytokeratins (CK5, CK6, and CK14), indicating an unclassified (all-marker negative) subtype. Axillary lymph nodes were free of metastasis (stage I), and the patient has been well for 20 years without any evidence of recurrence
New dimeric flavans from gambir, an extract of Uncaria gambir
Three new dimeric flavans, catechin-(4 alpha -> 8)-ent-epicatechin (7), gambirflavan D1 (8), and gambirflavan D2 (9), were isolated from gambir (an extract from the leaves and young twigs of Uncaria gambir), and their structures were determined based on spectroscopic and chemical data.</p
Theory of Josephson current on a lattice model of grain boundary in -wave superconductors
Identifying the origins of suppression of the critical current at grain
boundaries of high-critical-temperature superconductors, such as cuprates and
iron-based superconductors, is a crucial issue to be solved for future
applications with polycrystalline materials.
Although the dominant factor of current suppression might arise during
material fabrication and/or processing, investigating it due to an internal
phase change of the pair potential is an important issue in understanding the
threshold of the critical current.
In this paper, we study the Josephson current on a symmetric [001]-tilt grain
boundary (GB) of a -wave superconductor on a lattice model.
In addition to the suppression of the maximum Josephson current associated
with the internal phase change of the -wave pair potential which has been
predicted in continuum models, we find a unique phase interference effect due
to folding of the Fermi surface in the lattice model.
In particular, the resultant maximum Josephson current at low-tilting-angle
regions tends to be suppressed more than that in preexisting theories.
Because similar suppressions of the critical current at GBs have been
reported in several experimental works, the present model can serve as a guide
to clarify the complicated transport mechanism in GBs
IFITM1 Promotes Invasion of HNSCC Cells
Purpose: Head and neck squamous cell carcinoma (HNSCC), one of the most common types of human cancer, show persistent invasion that frequently leads to local recurrence and distant lymphatic metastasis. However, molecular mechanisms associated with invasion of HNSCC remain poorly understood. We identified Interferon-induced transmembrane protein 1 (IFITM1) as a candidate gene for promoting the invasion of HNSCC by comparing the gene expression profiles between parent and a highly invasive clone. Therefore, we examined the role of IFITM1 in the invasion of HNSCC.
Experimental Design: IFITM1 expression was examined in HNSCC cell lines and cases by RT-PCR and immunohistochemistry. IFITM1 overexpressing and knockdown cells were generated, and the invasiveness of these cells was examined by in vitro invasion assay. Gene expression profiling of HNSCC cells overexpressing IFITM1 versus control cells was examined by microarray.
Results: HNSCC cells expressed IFITM1 mRNA at higher levels, while normal cells did not express. By immunohistochemistry, IFITM1 expression was observed in early invasive HNSCC and invasive HNSCC. Interestingly, IFITM1 was expressed at the invasive front of early invasive HNSCC, and higher expression of IFITM1 was found in invasive HNSCC. In fact, IFITM1 overexpression promoted and IFITM1 knockdown suppressed the invasion of HNSCC cells in vitro. Gene expression profiling of HNSCC cells overexpressing IFITM1 versus control cells revealed that several genes including matrix metalloproteinase were up-regulated in IFITM1 overexpressing cells.
Conclusion: Our findings suggest that IFITM1 plays an important role for the invasion at the early stage of HNSCC progression, and that IFITM1 can be a therapeutic target for HNSCC
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