Chandan Chakraborty scite author profile

Human endothelial cells cultured under high glucose (HG) conditions were shown before to upregulate several basement membrane proteins, including fibronectin (FN), thus mimicking effects of diabetes. Using human macrovascular (HUVEC) and microvascular (HMEC) endothelial cell lines, we evaluated in the present study some of the key molecular signaling events involved in HG-induced FN overexpression. This expression was shown to be dependent on endogenous endothelin (ET) receptor-mediated signaling. We also examined the roles played by protein kinase C (PKC) and the transcription factors nuclear factor kappaB (NF-kappaB) and activating protein (AP)-1 with respect to such changes. HG, PKC activators, and ETs (ET-1 and ET-3) that increased FN expression also caused activation of NF-kappaB and AP-1. Inhibitors of both NF-kappaB and AP-1 prevented HG- and ET-induced FN production. ET receptor blockade also prevented these HG- and ET-mediated changes. The results of this study indicate that glucose-induced increased FN production in diabetes may be mediated via ET-dependent NF-kappaB and AP-1 activation.

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COX-2-mediated stimulation of the lymphangiogenic factor VEGF-C in human breast cancer

Timoshenko

et al. 2006

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Increased expression of COX-2 or VEGF-C has been correlated with progressive disease in certain cancers. Present study utilized several human breast cancer cell lines (MCF-7, T-47D, Hs578T and MDA-MB-231, varying in COX-2 expression) as well as 10 human breast cancer specimens to examine the roles of COX-2 and prostaglandin E (EP) receptors in VEGF-C expression or secretion, and the relationship of COX-2 or VEGF-C expression to lymphangiogenesis. We found a strong correlation between COX-2 mRNA expression and VEGF-C expression or secretion levels in breast cancer cell lines and VEGF-C expression in breast cancer tissues. Expression of LYVE-1, a selective marker for lymphatic endothelium, was also positively correlated with COX-2 or VEGF-C expression in breast cancer tissues. Inhibition of VEGF-C expression and secretion in the presence of COX-1/2 or COX-2 inhibitors or following downregulation of COX-2 with COX-2 siRNA established a stimulatory role COX-2 in VEGF-C synthesis by breast cancer cells. EP1 as well as EP4 receptor antagonists inhibited VEGF-C production indicating the roles of EP1 and EP4 in VEGF-C upregulation by endogenous PGE 2 . Finally, VEGF-C secretion by MDA-MB-231 cells was inhibited in the presence of kinase inhibitors for Her-2/neu, Src and p38 MAPK, indicating a requirement of these kinases for VEGF-C synthesis. These results, for the first time, demonstrate a regulatory role of COX-2 in VEGF-C synthesis (and thereby lymphangiogenesis) in human breast cancer, which is mediated at least in part by EP1/EP4 receptors.

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Cyclooxygenase inhibitors retard murine mammary tumor progression by reducing tumor cell migration, invasiveness and angiogenesis

2001

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Tumor-derived prostaglandins (PGs) have been implicated in the progression of murine and human breast cancer. Chronic treatment with a non-selective PG inhibitor indomethacin was shown in this laboratory to retard the development and metastasis of spontaneous mammary tumors in C3H/HeJ female retired breeder mice. The present study examined the role of endogenous prostaglandins in the proliferation/survival, the migratory and invasive behavior and angiogenic ability of a highly metastatic murine mammary tumor cell line, C3L5, originally derived from a C3H/HeJ spontaneous mammary tumor. This cell line was shown to express high levels of cyclooxygenase (COX) -2 mRNA and protein as detected by Northern and Western blotting as well as immunostaining. PGE 2 production by C3L5 cells was primarily owing to COX-2, since this was blocked similarly with non-selective COX inhibitor indomethacin and selective COX-2 inhibitor NS-398, but unaffected with the selective COX-1 inhibitor valeryl salicylate. C3L5 cell proliferation/survival in vitro was not influenced by PGs, since their cellularity remained unaffected in the presence of PGE 2 or NS-398 or PG-receptor (EP1/EP2) antagonist AH6809; a marginal decline was noted only at high doses of indomethacin, which was not abrogated by addition of exogenous PGE 2 . Migratory and invasive abilities of C3L5 cells, as quantitated with in vitro transwell migration/invasion assays, were inhibited with indomethacin or NS-398 or AH6809 in a dose-dependent manner; the indomethacin and NS-398-mediated inhibition was partially reversed upon addition of exogenous PGE 2 . An in vivo angiogenesis assay that used subcutaneous implants of growth factor-reduced matrigel inclusive of tumor cells showed a significant inhibition of blood vessel formation in these implants in animals treated with indomethacin compared with animals receiving vehicle alone. These studies show that selective and nonselective COX-2 inhibitors retarded tumor progression in this COX-2-expressing murine mammary tumor model by inhibiting tumor cell migration, invasiveness and tumor-induced angiogenesis. The inhibitory effects were not entirely PG dependent; some PG-independent effects were also noted. Prostaglandins (PGs) produced by tumor cells or tumor-associated host cells (macrophages, endothelial cells and stromal cells) have long been considered to play a stimulating role in the progression and metastases of a variety of animal and human tumors including mammary tumors. Malignant breast tumors produce more PGs than normal breast tissue, and tumors with greater PG production were shown to have greater association with metastasis. 1,2 Also, patients with higher PG levels in breast tumor showed lower rates of survival after surgery. 3 The cyclooxygenase enzymes, COX -1 and -2, synthesize PGs from arachidonic acid, an unsaturated fatty acid found in cell membrane lipids. COX-1 is constitutively expressed in most tissues leading to relatively low levels of PG production. COX-2 expression is induced in a variety of cells, e....

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Model Reference Adaptive Controller-Based Rotor Resistance and Speed Estimation Techniques for Vector Controlled Induction Motor Drive Utilizing Reactive Power

Maiti

Chakraborty

Hori

et al. 2008

IEEE Trans. Ind. Electron.

308

137

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