Osmotin is a stress responsive antifungal protein belonging to the pathogenesis-related (PR)-5 family that confers tolerance to both biotic and abiotic stresses in plants. Protective efforts of osmotin in plants range from high temperature to cold and salt to drought. It lyses the plasma membrane of the pathogens. It is widely distributed in fruits and vegetables. It is a differentially expressed and developmentally regulated protein that protects the cells from osmotic stress and invading pathogens as well, by structural or metabolic alterations. During stress conditions, osmotin helps in the accumulation of the osmolyte proline, which quenches reactive oxygen species and free radicals. Osmotin expression results in the accumulation of storage reserves and increases the shelf-life of fruits. It binds to a seven-transmembrane-domain receptor-like protein and induces programmed cell death in Saccharomyces cerevisiae through RAS2/cAMP signaling pathway. Adiponectin, produced in adipose tissues of mammals, is an insulin-sensitizing hormone. Strangely, osmotin acts like the mammalian hormone adiponectin in various in vitro and in vivo models. Adiponectin and osmotin, the two receptor binding proteins do not share sequence similarity at the amino acid level, but interestingly they have a similar structural and functional properties. In experimental mice, adiponectin inhibits endothelial cell proliferation and migration, primary tumor growth, and reduces atherosclerosis. This retrospective work examines the vital role of osmotin in plant defense and as a potential targeted therapeutic drug for humans.
A series of combretastatin A‐4 based chalcones (14a‐l) were designed, synthesized and these compounds examined for inhibitory effects on the proliferation of human lung (A549), breast (MCF‐7), melanoma (A375), and colon (HT‐29) carcinoma cells. Compounds 14b, 14c, 14e, 14h, and 14i (tri/dimethoxy, methyl, and mono/dinitro derivatives) have exhibited the most potent antiproliferative activity with IC50 < 2 μM and the hexa methoxy derivative 14b, the most promising one, which displayed the potent inhibitory activities in MCF‐7 (IC50: 10 nM), A375 (IC50: 12 nM), and A549 (IC50: 65 nM) cell lines, and is 18 times more potent than the CA‐4. Compound 14b represents a new scaffold and the results provide insights into further development of anticancer agents.
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