Effects of Ang 1-7 and Endothelial Microvesicles on Ang II-induced Dysfunction and Apoptosis in Cerebral Endothelial Cells

Xiao, Xiang

13 September 2013

No description available.

Health Sciences

Angiotensin 1-7

endothelial microvesicle

Endothelial Cell Derived MVs and Exosomes: Release and Functional Study

Liu, Langni

01 September 2015

No description available.

Pharmacology

Biomedical Research

microvesicle, exosome, release study

The role of placental human endogenous retroviruses and shed microvesicles on the maternal immune system

Holder, Elizabeth

January 2011

Objectives: Human Endogenous Retroviruses (HERVs) were originally derived from germ cell infection by exogenous retroviruses and comprise around eight per cent of the human genome. HERVs are highly expressed in the placenta, where HERV-W (syncytin 1) has been demonstrated to perform a fusogenic function. Due to their retroviral origin, placental syncytin 1 has been suggested to also be involved in modulating the maternal immune system. The placenta constantly sheds microvesicles (MV) into the maternal circulation, demonstrated to cause innate immune cell activation associated with normal pregnancy. In pre-eclampsia, there is both increased placental MV shedding and a heightened pro-inflammatory immune response. It was therefore hypothesised that HERVs shed via placental MV play a role in feto-maternal immune interactions and thus may be an important factor in the pathogenesis of preeclampsia (PE). More specifically, it was hypothesised that syncytin 1-positive MV activate monocytes through toll-like receptor 4 (TLR-4). The aim of this study was to determine if syncytin 1 is released from the placenta via MV and exerts an immunological effect. Methods: HERV mRNA and protein expression was measured in placenta and the BeWo choriocarcinoma cell line by qPCR, western blotting (WB) and immunostaining. Glycosylation of syncytin 1 protein was determined by PNGase F treatment followed by WB. MV shed by first trimester, term normal and PE placental explants as well as BeWo cells were isolated by ultracentrifugation. Morphology of these microvesicles was examined by electron microscopy. Syncytin 1 protein and RNA was detected in microvesicles by WB and PCR. Activation and priming of PBMCs to respond to lipopolysaccharide (LPS) by syncytin 1-positive MV and recombinant syncytin 1 was examined through cytokine production by ELISA and multiplex. Antagonism of TLR-4 by LPS-RS was used to determine involvement of the receptor. The role of syncytin 1 in MV activation was examined by siRNA knockdown. Results: HERVs are highly expressed in placental tissue. Syncytin 1 is a glycosylated protein and its expression is altered in PE. MV shed from the BeWo choriocarcinoma cell line and from first trimester and term placental explants, express HERV protein and RNA. Syncytin 1 positive MV and recombinant syncytin protein cause activation of PBMCs. Greatest activation is stimulated by PE MV. Normal MV exhibit a neutral or suppressive effect on subsequent LPS challenge to PBMCs. PE MV exacerbate the response to LPS. Antagonism of TLR-4 on PBMCs and knockdown of syncytin 1 content in MV reduces activation by placental MV.Conclusions: The findings of this thesis suggest that syncytin 1 protein expressed by the placenta is shed into the maternal circulation via MV, and can activate immune cells through TLR-4. Syncytin 1-positive microvesicles may play a role in endotoxin tolerance of innate immune cells in pregnancy. The increased activation by PE MV implies that in addition to the increased microvesicle load in this pathology, a factor intrinsic to PE MV is responsible for increased inflammation. These studies implicate microvesicle-bound syncytin 1 in the regulation of immunotolerance during pregnancy.

618

Topical Photodynamic Therapy Generates Microvesicle Particles

Oyebanji, Oladayo Ayobami

08 June 2020

No description available.

Pharmacology

Biomedical Research

Medicine

Photodynamic therapy

Microvesicle particles

Extracellular vesicles

The Influence of Membrane Lipid Order on Cell Shape and Microvesiculation in Human Erythrocytes

Gonzalez, Laurie Jackson

30 November 2006

Exposure of human erythrocytes to elevated intracellular calcium causes alterations in cell shape and stimulates shedding of the cell membrane in the form of microvesicles. We hypothesized that both the shape transition and microvesiculation are influenced by microscopic membrane physical properties such as lipid order. To test this hypothesis, membrane properties were manipulated by varying the experimental temperature, membrane cholesterol content, and the internal ionic environment. Changes in membrane order were assessed using steady-state fluorescence spectroscopy with an environment-sensitive probe, laurdan. Our observations led us to the following conclusions: 1) the modest temperature dependence of membrane structure observed with laurdan is shifted to lower temperatures and becomes more cooperative upon removal of membrane cholesterol, 2) the calcium-induced shape change observed in erythrocytes requires a decrease in membrane order, 3) the influence of membrane order is not limited to shape transitions induced only by calcium, and 4) decreased order is also a permissive factor for microvesicle shedding. Our data suggest that while the mechansims that regulate the shape transition and the release of microvesicles are different, they both require a state of membrane disorder.

lipid order

erythrocyte

shape

microvesicle

laurdan

Cell and Developmental Biology

Physiology

Regulation of Microvesicle Particle release in keratinocytes

Awoyemi, Azeezat Afolake

24 August 2018

No description available.

Pharmacology

Microvesicle particle

MVP release

keratinocytes

acid sphingomyelinase

platelet-activating factor

Determining Effects of the PAF-R and Anti-Hypertensive Drugs Mediated Microvesicle Particle Release in Modulating Anti-Tumor Response of Lung Cancer

Forino, Andrew Stephen

07 June 2020

No description available.

Pharmacology

Toxicology

PAF

LLC-1

Hypertension

Valsartan

Losartan

Microvesicle Particle Release

Ultraviolet-B radiation induces release of bioactive microvesicle particles in keratinocytes via platelet-activating factor and acid sphingomyelinase

Liu, Langni

02 September 2020

No description available.

Cellular Biology

Biomedical Research

microvesicle particle

UVB

immunosuppresion

platelet-activating factor

acid sphingomyelinase

Tumour-stroma Signalling in Cancer Cell Motility and Metastasis

Luga, Valbona

10 January 2014

The tumour-associated stroma, consisting of fibroblasts, inflammatory cells, vasculature and extracellular matrix proteins, plays a critical role in tumour growth, but how it regulates cancer cell migration and metastasis is poorly understood. The Wnt-planar cell polarity (PCP) pathway regulates convergent extension movements in vertebrate development. However, it is unclear whether this pathway also functions in cancer cell migration. In addition, the factors that mobilize long-range signalling of Wnt morphogens, which are tightly associated with the plasma membrane, have yet to be completely characterized. Here, I show that fibroblasts secrete membrane microvesicles of endocytic origin, termed exosomes, which promote tumour cell protrusive activity, motility and metastasis via the exosome component Cd81. In addition, I demonstrate that fibroblast exosomes activate autocrine Wnt-PCP signalling in breast cancer cells as detected by the association of Wnt with Fzd receptors and the asymmetric distribution of Fzd-Dvl and Vangl-Pk complexes in exosome-stimulated cancer cell protrusive structures. Moreover, I show that Pk expression in breast cancer cells is essential for fibroblast-stimulated cancer cell metastasis. Lastly, I reveal that trafficking in cancer cells promotes tethering of autocrine Wnt11 to fibroblast exosomes. These studies further our understanding of the role of the tumour-associated stroma in cancer metastasis and bring us closer to a more targeted approach for the treatment of cancer spread.

exosome

microvesicle

breast cancer

cell motility

PCP signalling

cancer-associated fibroblast

Wnt signalling

tumour microenvironment

0307

0379

Tumour-stroma Signalling in Cancer Cell Motility and Metastasis

Luga, Valbona

10 January 2014

The tumour-associated stroma, consisting of fibroblasts, inflammatory cells, vasculature and extracellular matrix proteins, plays a critical role in tumour growth, but how it regulates cancer cell migration and metastasis is poorly understood. The Wnt-planar cell polarity (PCP) pathway regulates convergent extension movements in vertebrate development. However, it is unclear whether this pathway also functions in cancer cell migration. In addition, the factors that mobilize long-range signalling of Wnt morphogens, which are tightly associated with the plasma membrane, have yet to be completely characterized. Here, I show that fibroblasts secrete membrane microvesicles of endocytic origin, termed exosomes, which promote tumour cell protrusive activity, motility and metastasis via the exosome component Cd81. In addition, I demonstrate that fibroblast exosomes activate autocrine Wnt-PCP signalling in breast cancer cells as detected by the association of Wnt with Fzd receptors and the asymmetric distribution of Fzd-Dvl and Vangl-Pk complexes in exosome-stimulated cancer cell protrusive structures. Moreover, I show that Pk expression in breast cancer cells is essential for fibroblast-stimulated cancer cell metastasis. Lastly, I reveal that trafficking in cancer cells promotes tethering of autocrine Wnt11 to fibroblast exosomes. These studies further our understanding of the role of the tumour-associated stroma in cancer metastasis and bring us closer to a more targeted approach for the treatment of cancer spread.

exosome

microvesicle

breast cancer

cell motility

PCP signalling

cancer-associated fibroblast

Wnt signalling

tumour microenvironment

0307

0379