Lysophosphatidic acid (LPA), produced extracellularly by autotaxin (ATX), has diverse biological activities implicated in tumor initiation and progression, including increasing cell survival, angiogenesis, invasion and metastasis. ATX, LPA and the matrix metalloproteinase (MMP)-9 have all been implicated in hepatocellular carcinoma (HCC) invasion and metastasis. We, thus sought to determine whether ATX with subsequent LPA production and action, including induction of MMP-9 could provide a unifying mechanism. ATX transcripts and LPA receptor type 1 (LPA1) protein are elevated in HCC compared with normal tissues. Silencing or pharmacological inhibition of LPA1 significantly attenuated LPA-induced MMP-9 expression and HCC cell invasion. Further, reducing MMP-9 activity or expression significantly inhibits LPA-induced HCC cell invasion, demonstrating that MMP-9 is downstream of LPA1. Inhibition of phosphoinositide-3 kinase (PI3K) signaling or dominantnegative mutants of protein kinase Cd and p38 mitogenactivated protein kinase (MAPK) abrogated LPA-induced MMP-9 expression and subsequent invasion. We thus demonstrate a mechanistic cascade of ATX-producing LPA with LPA activating LPA1 and inducing MMP-9 through coordinate activation of the PI3K and the p38 MPAK signaling cascades, providing novel biomarkers and potential therapeutic targets for HCC.
Stress hormones have been implicated in both tumor initiation and progression. Human telomerase reverse transcriptase (hTERT) is overexpressed in cancer cells and associated with malignant tumor progression and poor outcome. We thus sought to determine whether the stress hormone norepinephrine (NE) could induce hTERT expression and subsequently ovarian cancer progression. Unexpectedly, NE induced hTERT transcript and protein expression, and subsequently ovarian cancer cell invasion. Pharmacologic inhibition of β2-adrenergic receptor 2 and protein kinase A, as well as silencing of hypoxia-inducible factor-1α and c-Myc expression, profoundly attenuated NE-induced hTERT expression. Strikingly, stimulation of the cells with NE or ectopic expression of hTERT induced expression of Slug, ovarian cancer cell epithelial-mesenchymal transition (EMT) and invasion. Silencing of hTERT expression abrogated NE-induced ovarian cancer cell invasion, EMT and Slug expression. In addition, silencing of Slug expression significantly inhibited NE- and hTERT-induced ovarian cancer cell EMT and invasion. Moreover, continuous exposure to NE was sufficient to enhance in vivo hTERT expression and metastasis of ovarian cancer cells to the lung. Finally, we provide evidence that hTERT links Src to Slug expression in NE-induced ovarian cancer EMT and metastasis. We thus demonstrate a novel role of hTERT in stress hormone-induced ovarian cancer aggressiveness through inducing Slug, providing novel biomarkers and potential therapeutic targets for ovarian cancer.
Microcapsules containing fragrant oil (Foral oil) were synthesized via the in situ polymerization method using melamine-formaldehyde (M-F) as a wall material. The encapsulation efficiency and other physical properties were analysed with varying formaldehyde/melamine (F/M) mole ratio and pH of emulsion medium. The pH of the reaction medium was varied from 5.0-6.0 and the F/M molar ratio, 2.3 - 5.5. Microcapsules containing fragrant oil were synthesized successfully and their particle sizes ranged from 12-15 micro m. Encapsulation efficiency of fragrant oil varied from 67-81%. It was found that both pH and F/M molar ratio have an effect on the separation of M-F prepolymer, consequently the morphology of the surface of the microcapsule was changed as well as encapsulation efficiency. The encapsulation mechanism, focusing on the liquid-liquid phase separation of methylolmelamines and formation of M-F precursor particle, was described to explain the surface morphology and encapsulation efficiency.
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