The molecular basis of thiol odorant sensitivity in the mammalian olfactory system

This thesis is an investigation into the potential mechanisms that could explain the olfactory sensitivity to thiol compounds ~ought to be conserved across mammalian species. Proteomics techniques were employed as unbiased tools to search for highly conserved proteins in olfactory cilia theoretically capable of strong interactions with thiol odorants. Comparisons of the protein profiles and directed protein labelling studies of olfactory cilia from three mammalian species - the house mouse (Mus musculus), the rat (Rattus norvegicus) and the sheep (Ovis aries) - and respiratory cilia preparations from the rat enabled the identification of cytoskeletal proteins and olfactory receptors as potential targets for sulphydryl-mediated thiol odorant interactions. It is therefore predicted that olfactory detection of thiol odorants utilises a traditional olfactory receptor conserved across mammalian. species, the observed thiol sensitivity potentially a byproduct of a strong interaction between odorant and receptor. This study also represents the first broad ranging study of the protein complement of mammalian olfactory cilia derived from the three model species. The characterisation of olfactory and respiratory cilia proteomes from multiple mammalian species has highlighted a novel family of putative pheromone binding proteins uniquely associated with mouse olfactory cilia preparations. It has also provided further evidence for the ongoing investigations of the functions of odorant-binding proteins and annexins

Cytoplasmic expression systems triggered by mRNA yield increased gene expression in post-mitotic neurons

Non-viral vectors are promising vehicles for gene therapy but delivery of plasmid DNA to post-mitotic cells is challenging as nuclear entry is particularly inefficient. We have developed and evaluated a hybrid mRNA/DNA system designed to bypass the nuclear barrier to transfection and facilitate cytoplasmic gene expression. This system, based on co-delivery of mRNA(A64) encoding for T7 RNA polymerase (T7 RNAP) with a T7-driven plasmid, produced between 10- and 2200-fold higher gene expression in primary dorsal root ganglion neuronal (DRGN) cultures isolated from Sprague–Dawley rats compared to a cytomegalovirus (CMV)-driven plasmid, and 30-fold greater expression than the enhanced T7-based autogene plasmid pR011. Cell-free assays and in vitro transfections highlighted the versatility of this system with small quantities of T7 RNAP mRNA required to mediate expression at levels that were significantly greater than with the T7-driven plasmid alone or supplemented with T7 RNAP protein. We have also characterized a number of parameters, such as mRNA structure, intracellular stability and persistence of each nucleic acid component that represent important factors in determining the transfection efficiency of this hybrid expression system. The results from this study demonstrate that co-delivery of mRNA is a promising strategy to yield increased expression with plasmid DNA, and represents an important step towards improving the capability of non-viral vectors to mediate efficient gene transfer in cell types, such as in DRGN, where the nuclear membrane is a significant barrier to transfection

A versatile reducible polycation-based system for efficient delivery of a broad range of nucleic acids

Synthetic vectors based on reducible polycations consisting of histidine and polylysine residues (HIS RPCs) were evaluated for their ability to deliver nucleic acids. Initial experiments showed that RPC-based vectors with at least 70% histidine content mediated efficient levels of gene transfer without requirement for the endosomolytic agent chloroquine. Significant gene transfer was observed in a range of cell types achieving up to a 5-fold increase in the percentage of transfected cells compared to 25 kDa PEI, a gold standard synthetic vector. In contrast to 25 kDa PEI, HIS RPCs also mediated efficient transfer of other nucleic acids, including mRNA encoding green fluorescent protein in PC-3 cells and siRNA directed against the neurotrophin receptor p75(NTR) in post-mitotic cultures of rat dorsal root ganglion cell neurons. Experiments to elevate intracellular glutathione and linear profiling of cell images captured by multiphoton fluorescent microscopy highlighted that parameters such as the molecular weight and rate of cleavage of HIS RPCs were important factors in determining transfection activity. Altogether, these results demonstrate that HIS RPCs represent a novel and versatile type of vector that can be used for efficient cytoplasmic delivery of a broad range of nucleic acids. This should enable different or a combination of therapeutic strategies to be evaluated using a single type of polycation-based vector

The molecular basis of thiol odorant sensitivity in the mammalian olfactory system

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12th annual congress of the European Society of Gene Therapy.

The 2004 European Society of Gene Therapy (ESGT) meeting took place at Tampere Hall in Finland and highlighted advances in a variety of topics, including cancer, zinc-fingers, stem cells, small interfering RNA (siRNA), microRNA, and recent developments of non-viral and viral vectors. This meeting was attended by 513 participants from 32 countries, and included 106 oral and 224 poster presentations. One of the aims of this meeting was to take a critical look at gene therapy and the prospects for the future. Se-veral presentations reported on RNA-based technologies, such as siRNA, as potential new classes of therapeutics against a wide range of diseases and for use in expression libraries to identify functional genes involved in biological phenotypes. Critical assessments were made of other aspects of gene therapy, such as genome editing and the use of protein transduction domains (PTDs) in gene- and protein-based therapies, where many researchers have failed to reproduce initial findings reported in the literature. Safety issues related to viral vectors were also important areas of discussion, especially following details released by the UK Gene Therapy Advisory Committee of perhaps the first known case of lentiviral vector-associated oncogenesis. Finally, updates were presented on the clinical development of viral vectors in anticancer therapies with evidence of significant improvements in the mean survival of patients