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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

ROLE OF MYOCARDIN RELATED TRANSCRIPTION FACTOR-A IN TRANSCRIPTION GROWTH FACTOR BETA-INDUCED EPITHELIAL TO MESENCHYMAL TRANSITION OF LENS EPITHELIAL CELLS / ROLE OF MRTF-A IN EPITHELIAL TO MESENCHYMAL TRANSITION IN THE LENS

Gupta, Madhuja 06 1900 (has links)
Transcription growth factor beta (TGFβ) mediated epithelial to mesenchymal transition (EMT) of lens epithelial cells (LEC) is known to cause posterior capsular opacification (PCO). In this work, I have focused on the TGFβ-induced EMT pathway governed by the cellular actin cytoskeleton dynamics. This study is the first to report the involvement of transcription co-factor myocardin related transcription factor-A (MRTF-A) in TGFβ-induced EMT in the lens. Using rat lens epithelial explants, I have conclusively established that in LECs, TGFβ induces nuclear migration of MRTF-A leading to induction of αSMA expression. Furthermore, I have manipulated the intracellular translocation of MRTF-A indirectly using actin binding drugs and established that inhibiting nuclear migration of MRTF-A reduces αSMA production by the cells. In addition, direct manipulation of MRTF-A using adenoviral vectors carrying modified gene constructs show that presence of functional MRTF-A construct in the nucleus is necessary to trigger αSMA expression by causing EMT. In order to understand the involvement of matrix metalloproteinase -9 (MMP-9) in this specific pathway, explants were treated with an MMP2/9 inhibitor and rhMMP9. I have established that rhMMP-9 does not significantly affect the intracellular migration of MRTF-A. Nevertheless, gene expression studies showed that MMP-9 induces the expression of MRTF-A. Taken together, I believe MMP-9 functions through a feedback mechanism controlling MRTF-A expression in the cell. However, the presence of MMP-9 is necessary but not sufficient for induction in MRTF-A nuclear translocation. Overall, the work presented in this thesis demonstrates for the first time the presence of MRTF-A in LECs and successfully shows that the intracellular translocation of MRTF-A as an integral part of TGFβ induced EMT. Therefore, in the future, MRTF-A may be used as a successful target molecule to inhibit in order to prevent EMT leading to PCO. / Thesis / Doctor of Philosophy (PhD)
42

Implication of Adam Related Metalloproteases in Equine Laminitis

Coyne, Michael 01 January 2008 (has links) (PDF)
No description available.
43

Diagnostic Accuracy of Serum MMP-7 as a Biomarker of Biliary Atresia in a Large U.S Cohort

Pandurangi, Sindhu 22 August 2022 (has links)
No description available.
44

Limk1 Promotes Mt1-mmp Expression And Localization To The Plasma Membrane

Ottman, Richard 01 January 2012 (has links)
LIM Kinase 1 (LIMK1), a serine/threonine kinase, modulates actin polymerization and microtubule assembly. The function of LIMK1 is regulated by kinases that are activated by Rho and Rac GTPases. LIMK1 is overexpressed in various cancerous cell types and tissues and its overexpression promotes increased invasion and metastasis of breast and prostate cancer cells. Membrane-Type Matrix Metalloproteinase 1 (MT1-MMP) is a member of the zinc-binding collagenase family, which is involved in extracellular matrix breakdown and activation of secreted MMP-2. The balance between activation and inhibition of MT1- MMP and MMP-2 helps maintaining normal extracellular matrix turnover. However, it has been shown that elevated MT1-MMP expression can cause excessive ECM digestion and promote tumor invasion and metastasis. Since RhoA and Rac1 have been implicated in metastasis and invasion along with LIMK1 activation, we investigated a possible link between LIMK1 and MT1-MMP. Our results show that the level of MT1-MMP expression is correlated with that of LIMK1 and LIMK1 acts as a transcriptional regulator of MT1-MMP. Additionally, we show that LIMK1 physically associates with MT1-MMP and promotes its translocation to the plasma membrane.
45

MOLECULAR CLONING AND PROTEIN BIOSYNTHESIS OF MATRIX METALLOPROTEINASE-7

Jack, Colin C. 06 May 2015 (has links)
No description available.
46

MT1-MMP REGULATES MELANOMA METASTASIS THROUGH ACTIVATION OF MMP2/RAC1 AXIS AND INHIBITION OF TUMOR SUPPRESSOR GENE SPRY4

Khvaramze, Shaverdashvili 04 September 2015 (has links)
No description available.
47

Development of tumour selective and endoprotease-activated anticancer therapeutics.

Gill, Jason H., Loadman, Paul January 2008 (has links)
No
48

The role of MT1-MMP in the progression and metastasis of osteosarcoma

Spencer, Hannah L.M., Shnyder, Steven, Loadman, Paul, Falconer, Robert A. 05 October 2023 (has links)
Yes / The dysregulation of Membrane - type 1 matrix metalloproteinase (MT1-MMP) has been extensively studied in numerous cancer types, and plays key roles in angiogenesis, cancer progression, and metastasis. MT1-MMP is a predictor of poor prognosis in osteosarcoma (OS), yet the molecular mechanisms of disease progression are unclear. This review provides a summary of the literature relating to the gene and protein expression of MT1-MMP (MMP-14) in OS clinical samples, evaluates the expression in cell lines and experimental models, and analyses its potential role in the progression and metastasis of OS. In addition, the therapeutic potential of MT1-MMP as a drug target has been assessed. Due to the biological complexity of MMPs, inhibition has proven to be challenging. However, exploiting the expression and proteolytic capacity of MT1-MMP could open new avenues in the search for novel, safer and selective drugs for use in OS. / This work was supported by the Bone Cancer Research Trust (No. BCRT 6218).
49

Alternative Nf-kb Signaling in Atherogenesis

Dühring, Sarah 30 July 2014 (has links) (PDF)
Inflammatory processes mark all stages of atherogenesis. One of the key regulators of inflammation is the transcription factor nuclear factor kappa B (Nf-kb). Nf-kb is the general name for a whole family of dimeric transcription factors. One can distinguish between a classical and an alternative pathway with Rela/p50 (Nf-kb1) and Relb/p52 (Nf-kb2) representing the terminal transcription factors, respectively. Classical Nf-kb1 signaling has been associated with atherosclerotic lesion development many times, mainly because of its regulation of many pro-inflammatory proteins with an established role in atherogenesis. Recent studies provided evidence of crosstalk between classical Nf-kb1 and alternative Nf-kb2 signaling, implicating a potential role for Nf-kb2 in atherogenesis. The aim of the present study was to investigate the influence of Nf-kb2 on atherosclerotic lesion development in a knockout mouse model. Nfkb2 knockout (Nfkb2-/-) mice were generated on two different atherosclerosis sensible backgrounds, the Apoe- and Ldlr- deficient background. Quantification of atherosclerotic lesion development showed, that Nfkb2-/- mice developed significantly more atherosclerosis at the brachiocephalic artery than wild type controls, indicating a protective effect of Nf-kb2 on atherogenesis. Further expression analyses in bone marrow-derived macrophages (BMDM) revealed highly significant upregulation of matrix metalloproteinase 9 (Mmp9) in Nfkb2-/- mice. Overexpression of Mmp9 was associated with enhanced macrophage migration across extracellular matrix in vitro and an inflammatory plaque phenotype with advanced, macrophage-rich lesions. Accordingly, increased Mmp9 expression in Nfkb2-/- macrophages might have contributed to enhanced lesion development in these mice.
50

EPIGENETIC REGULATION OF GENES INVOLVED IN VASCULAR DYSFUNCTION IN PREECLAMPTIC WOMEN

Mousa, Ahmad 23 January 2012 (has links)
DNA methylation is the most recognizable epigenetic mechanism. In general, DNA hypomethylation is associated with increased gene expression whereas DNA hypermethylation is associated with decreased gene expression. To date, little is known about the role of DNA methylation in the pathophysiology of preeclampsia. In this study, we examined the differences in DNA methylation in omental arteries of normal pregnant and preeclamptic women using the high throughput Illumina HumanMethylation27 BeadChip assay. We found 1,685 genes with a significant difference in DNA methylation at a false discovery rate of < 10% with many inflammatory genes having reduced methylation. The thromboxane synthase gene was the most hypomethylated gene in preeclamptic women as compared to normal pregnant women. When we examined the expression of thromboxane synthase in omental arteries of normal pregnant and preeclamptic women we found it to be significantly increased in preeclamptic women. The increased expression was observed in vascular smooth muscle cells, endothelial cells and infiltrating neutrophils. Experimentally induced DNA hypomethylation increased the expression of thromboxane synthase in the neutrophil-like HL-60 cell line, whereas tumor necrosis factor α (TNFα), a neutrophil product, increased its expression in cultured human vascular smooth muscle cells (VSMC). These finding suggest that DNA methylation and release of TNFα by infiltrating neutrophils could contribute to the increased expression of thromboxane synthase in systemic blood vessels of preeclamptic women, contributing to the hypertension and coagulation abnormalities. We also explored the possible contribution of DNA methylation to the altered expression of genes involved in collagen metabolism in preeclampsia. Several matrix metalloproteinase (MMP) genes, including MMP1 and MMP8, were significantly less methylated in preeclamptic women, whereas TIMP and COL genes were either significantly more methylated or had no significant change in their DNA methylation status. Experimentally induced DNA hypomethylation increased the expression of MMP-1, but not TIMP-1 or COL1A1, in cultured VSMCs and increased the expression of MMP-1 and MMP-8 in HL-60 cells. These findings suggest that DNA methylation contributes to the imbalance in genes involved in collagen metabolism in blood vessels of preeclamptic women.

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