Olfactomedin 4 (OLFM4) is highly expressed in gastrointestinal cancers and has an anti-apoptotic function. The roles of OLFM4 in tumor growth and metastasis and how it functions in these processes remain elusive. We investigated the function of OLFM4 in tumor growth and metastasis using B16F10 mouse melanoma cells as an experimental system. Our results showed that OLFM4 had no positive effect on cell viability or cell cycle progression in B16F10 cells. However, it significantly suppressed the tumorigenicity of B16F10 cells, i.e., intradermal primary tumor growth and lung metastasis. OLFM4 also suppressed the migration and invasion of B16F10 cells in vitro. For further insight into the mechanisms underlying OLFM4-mediated suppression of tumor progression, we examined the effect of OLFM4 on the expression of integrin and matrix metalloproteinase (MMP), both of which are involved in tumor progression. Overexpression of OLFM4 clearly reduced the expression levels of integrin α1, integrin α4, integrin α5, integrin α6, and MMP9. Moreover, forced expression of MMP9 attenuated the inhibitory activity of OLFM4 on migration and invasiveness. Our findings provide the experimental evidence that OLFM4 may function as a tumor suppressor and an anti-metastatic gene during tumor progression.
Although the regulation of thyroid stimulating hormone -subunit gene (TSH) has been intensively studied, the functions of transcription factors involved are not fully understood. The authors found that the ؊615/؊516 promoter region of the TSH interacts specifically with nuclear proteins derived from pituitary tissue or from cultured thyrotroph cells. The actual binding site at the nucleotide level, as revealed by DNase I protection assay, includes the consensus sequence for nuclear factor I (NFI). RT-PCR analysis indicated that NFI-B expression is restricted to thyrotroph cells in the anterior pituitary. EMSA and ChIP analysis showed that NFI-B binds most efficiently to the ؊588/؊560 region of TSH promoter. The forced expressions of NFI-B markedly reduced TSH promoter activity and its mRNA expression. Furthermore, it was also shown that the ؊588/؊560 region is involved in the insulin-mediated repression of the TSH. It was of particular interest to observe that NFI-B was recruited to the ؊588/؊560 region of the TSH promoter in an insulin-dependent manner. Taken together, this study provides new insights of the delicate regulations of energy metabolism and hormonal homeostasis.
An Epstein-Barr virus (EBV)-based plasmid contains the EBV nuclear antigen 1 (EBNA1) gene and EBV replication origin (oriP) sequence. Since EBNA1 (the only EBV-encoded protein) is combined with oriP, it is replicated simultaneously with chromosomal DNA in human, primate, and canine cells and is faithfully segregated at a stable copy number upon cell division. Consequently, it can be used to stably express gene inserts over a prolonged time in target cells. We have previously shown that the polyamidoamine (PAMAM) dendrimer can be surface-modified with L-arginine. Arginine is present at a high frequency in the transactivator of transcription (Tat) sequences of human immunodeficiency virus (HIV). It presents high membrane permeability and permits effective transfer of DNA inside the cells. In this study, we constructed two kinds of recombinant DNA by inserting the luciferase gene and enhanced green fluorescence protein (eGFP) gene as reporter genes into the pCEP4 plasmid vector. We measured dynamic light scattering (DLS) and zeta potential after preparing PAMAM-based cationic polymer/EBV-based plasmid complexes. We performed transfection of HEK 293 cell lines with the polyplexes, and monitored luciferase activity and green fluorescence protein (GFP) expression. Our results show that PAMAM-based cationic polymer/EBV plasmid complexes provide enhanced and sustained gene expression.
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