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Reduction in apparent stromal cell culture density through transient fusions with osteosarcoma cells

Doctor of Philosophy / Benign tumours grow by expanding and displacing the surrounding tissues, while malignant tumours replace and destroy the surrounding tissues by invasion. Although there is extensive literature on mechanisms of tumour invasion and metastasis, with an emphasis on angiogenesis, adhesion, degradation of the extracellular matrix and migration, an important question not clearly addressed by the literature, but nonetheless approached in this thesis, is that of the fate of normal cells during tissue replacement by migrating invasive malignant cells. Earlier work in the laboratory where this PhD candidature was carried out, investigated the effect of osteosarcoma cells on endothelium. In contrast to the expected angiogenic effect of malignant cells for endothelium, it was found that the human osteosarcoma cell line (SAOS-2) induced apoptosis in human umbilical vein endothelial cells (HUVEC) in contact dependent manner (McEwen et al., 2003). It was suggested that apoptosis of endothelium by malignant tumour cells may facilitate tumour invasion and metastasis (McEwen et al., 2003), and one of the aims of the current study was to extend these findings to include human gingival fibroblasts (HGF) and human umbilical artery smooth muscle cells (HUASMC). The major finding of this thesis was that SAOS-2 induced a reduction in the apparent cell culture density of HGF and HUASMC in a contact-dependent manner. The SW480 colorectal carcinoma cell line did not have any clear effect upon the apparent stromal cell culture density of either HGF or HUASMC, suggesting that the effect under investigation was tumour cell line specific. Surprisingly and in contrast to the similar effect reported for endothelium (Chen et al., 2005; McEwen et al., 2003), the effect of SAOS-2 upon HGF and HUASMC was not due to stromal cell apoptosis. Apoptosis was ruled out as a possible mechanism for the reduced apparent culture density under study, by using widely accepted methods which are dependent upon intermucleosomal fragmentation of DNA, the permeability of plasma membranes to dyes in advanced apoptosis and necrosis, phosphatidylserine translocation as well as inhibitor studies blocking both caspase dependent and independent pathways. While apoptosis was not demonstrated, the possibility emerged that reduced apparent stromal cell culture density reflected fusion events rather than the simple removal of cells as had been earlier reported for HUVEC (McEwen et al., 2003). This idea was supported by reduced SAOS-2 circularity in co-culture. Confocal microscopy of cells pre-labelled with fluorescent dyes further supported this idea, with dual-labelling as evidence of cell fusion. Although occasional homotypic fusion of stromal cells was seen, heterotypic fusion of stromal cells with SAOS-2 was much more prevalent. Time lapse microscopy was performed to further characteristic cell fusion in co-cultures, and revealed multiple transient fusions between SAOS-2 and HGF. To work towards determining the biological relevance of the key observation, two stable SAOS-2 GFP clones were generated for future planned studies using human gingival explants and nude mice. Importantly, the clones were similar to native SAOS-2 with regard to alkaline phosphatise expression and reducing apparent stromal cell culture density. Transient fusions between HGF and SAOS-2, may be a mechanism for cooption of stromal cells into the malignant process, facilitating tumour invasion. Additionally, heterocellular fusion of SAOS-2 with stromal cells may facilitate immune evasion, while it seems likely that despite the absence of an identical activity in SW480 cells, other malignant tumour cells may also express similar activity.

Identiferoai:union.ndltd.org:ADTP/283634
Date January 2008
CreatorsHuynh, Minh Diem
PublisherUniversity of Sydney., Faculty of Dentistry
Source SetsAustraliasian Digital Theses Program
Detected LanguageEnglish
RightsThe author retains copyright of this thesis., http://www.library.usyd.edu.au/copyright.html

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