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Oolemmal proteomics : identification of oocyte cell surface protein complexes involved in murine fertilisationPaul, Jonathan January 2007 (has links)
Research Doctorate - Doctor of Philosophy (PhD) / Membrane fusion events are a fundamental aspect of cellular biology and underpin important processes such as organ formation and fertilisation. Within the latter, proteins that are expressed on the egg surface which are responsible for mediating sperm recognition, binding and fusion to the egg, are yet to be fully determined. Evidence does however suggest that egg surface glycophosphatidylinositol (GPI)-anchored proteins play a role in sperm binding, whilst another class of proteins, known as tetraspanins, appear to be important in downstream events of membrane fusion. Of the tetraspanins, CD9 and CD81 have been identified as fulfilling roles in membrane fusion; identifications are however yet to obtained for the important GPI-anchored protein(s). This research aimed to identify and characterise egg surface proteins implicated in sperm-egg interaction, and embodied attempts to both identify the important GPI-anchored protein(s) as well as expand upon tetraspanin studies through investigations into mice lacking the tetraspanin CD151. Throughout this research, it was hypothesised that membrane fusion events of fertilisation parallelled those of enveloped virus – host cell fusion, for which rearrangement of surface protein thiols is essential. In vitro binding and fusion experiments were utilised as functional bioassays in the investigation of factors affecting sperm-egg interaction, such as tetraspanin deletion and the xenobiotic modification of cell surface thiols, while mass spectrometry (MS)-based proteomics and bioinformatics-based analyses were employed to compile oocyte protein databases and to identify candidate proteins responsible for mediating sperm-egg interaction, such as GPI-anchored proteins. It was determined that exposing oocytes to compounds with a capacity to alkylate cell surface thiols strongly inhibited sperm-egg binding. Additionally, while CD151 deletion had no effect on sperm-egg binding, the downstream events of membrane fusion were significantly impaired. Ovaries from CD151 null mice also exhibited abnormal phenotypes. In addition, a total of 11 identifications were obtained in the search for the GPI-anchored proteins expressed within eggs, however only 6 of these were deemed to be potential mediators of sperm-egg interaction. In conclusion, the experiments outlined herein demonstrate a novel inhibitory effect for specific xenobiotics on sperm-egg interaction, and correlate the inhibitory action of these compounds with their capacity to reduce cell surface thiol labelling. A novel role for CD151 in the mediation of sperm-egg fusion was also discovered, while at the same time the important GPI-anchored protein(s) implicated in sperm-egg binding may be among 6 identified potential candidates. Together the findings reiterate the consensus that oocytes possess a cell surface protein complex responsible for mediating sperm binding and fusion as separate events, and in light of the demonstrated importance of surface thiols, that events of sperm-egg membrane fusion parallel those of enveloped virus – host cell fusion.
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Oolemmal proteomics : identification of oocyte cell surface protein complexes involved in murine fertilisationPaul, Jonathan January 2007 (has links)
Research Doctorate - Doctor of Philosophy (PhD) / Membrane fusion events are a fundamental aspect of cellular biology and underpin important processes such as organ formation and fertilisation. Within the latter, proteins that are expressed on the egg surface which are responsible for mediating sperm recognition, binding and fusion to the egg, are yet to be fully determined. Evidence does however suggest that egg surface glycophosphatidylinositol (GPI)-anchored proteins play a role in sperm binding, whilst another class of proteins, known as tetraspanins, appear to be important in downstream events of membrane fusion. Of the tetraspanins, CD9 and CD81 have been identified as fulfilling roles in membrane fusion; identifications are however yet to obtained for the important GPI-anchored protein(s). This research aimed to identify and characterise egg surface proteins implicated in sperm-egg interaction, and embodied attempts to both identify the important GPI-anchored protein(s) as well as expand upon tetraspanin studies through investigations into mice lacking the tetraspanin CD151. Throughout this research, it was hypothesised that membrane fusion events of fertilisation parallelled those of enveloped virus – host cell fusion, for which rearrangement of surface protein thiols is essential. In vitro binding and fusion experiments were utilised as functional bioassays in the investigation of factors affecting sperm-egg interaction, such as tetraspanin deletion and the xenobiotic modification of cell surface thiols, while mass spectrometry (MS)-based proteomics and bioinformatics-based analyses were employed to compile oocyte protein databases and to identify candidate proteins responsible for mediating sperm-egg interaction, such as GPI-anchored proteins. It was determined that exposing oocytes to compounds with a capacity to alkylate cell surface thiols strongly inhibited sperm-egg binding. Additionally, while CD151 deletion had no effect on sperm-egg binding, the downstream events of membrane fusion were significantly impaired. Ovaries from CD151 null mice also exhibited abnormal phenotypes. In addition, a total of 11 identifications were obtained in the search for the GPI-anchored proteins expressed within eggs, however only 6 of these were deemed to be potential mediators of sperm-egg interaction. In conclusion, the experiments outlined herein demonstrate a novel inhibitory effect for specific xenobiotics on sperm-egg interaction, and correlate the inhibitory action of these compounds with their capacity to reduce cell surface thiol labelling. A novel role for CD151 in the mediation of sperm-egg fusion was also discovered, while at the same time the important GPI-anchored protein(s) implicated in sperm-egg binding may be among 6 identified potential candidates. Together the findings reiterate the consensus that oocytes possess a cell surface protein complex responsible for mediating sperm binding and fusion as separate events, and in light of the demonstrated importance of surface thiols, that events of sperm-egg membrane fusion parallel those of enveloped virus – host cell fusion.
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