Natural pigments are known for possessing a wide range of pharmacological and health-promoting properties. The pigments, produced by a new strain Fusarium (Fusarium sp. JN158) previously identified in our laboratory, were found to have 6 peaks (representing 6 compounds) by high-performance liquid chromatography with a diode-array detector (HPLC-DAD) separation. The 6th peak compound (compound VI) is a benzoquinone compound. In this study, we examined the effects of compound VI on the proliferation of breast cancer cells and aimed to elucidate the underlying mechamisms. Compound VI exerted anti-proliferative effects on MCF-7 estrogen receptor (ER)+ cells in a dose-dependent manner (IC25, 7 µM; IC50, 11 µM), whereas it had no effect on MDA-MB-231 ER− cells and normal cells. The cell index (CI) began to decrease at 24 h following treatment with benzoquinone. Mechanistically, the results from molecular analysis revealed that compound VI inhibited the expression of ERα, progesterone receptor (PR), vascular endothelial growth factor (VEGF), Bcl-2, cyclin D1 and nuclear factor-κB (NF-κB) p65, while it increased the expression of cleaved caspase-3 and Bax in the MCF-7 cells. Taken together, our findings indicate that compound VI exerts anti-proliferative effects on MCF-7 cells through the NF-κB pathway via the regulation of ER signaling. Our data may indicate that benzoquinone from Fusarium pigment may have potential for use as an anti-proliferative agent in the treatment of breast cancer.
Colorectal cancer (CRC) is the second leading cause of cancer-related deaths. Tumor angiogenesis plays a critical role in CRC metastasis, and hypoxia, widely existed in the tumor mass, drives tumor...
Background:
Phage display is an effective technology for generation and selection targeting protein for a
variety of purpose, which is based on a direct linkage between the displayed protein and the DNA sequence encoding
it and utilized in selecting peptides, improving peptides affinity and indicating protein-protein interactions. Phage
particles displaying peptide have the potential to apply in the identification of cell-specific targeting molecules, identification
of cancer cell surface biomarkers, identification anti-cancer peptide, and the design of peptide-based anticancer
therapy.
Method/Results:
Literature searches, reviews and assessments about Phage were performed in this review from
PubMed and Medline databases.
Conclusion:
The phage display technology is an inexpensive method for expressing exogenous peptides, generating
unique peptides that bind any given target and investigating protein-protein interactions. Due to the powerful ability
to insert exogenous gene and display exogenous peptides on the surface, phages may represent a powerful peptide
delivery system that can be utilized to develop rapid, efficient, safe and inexpensive cancer therapy methods.
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