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Title: In vitro manipulation of urotensin-II receptor expression : implications of receptor density on ligand efficacy
Author: Hunt, Benjamin Dean
ISNI:       0000 0004 2701 9254
Awarding Body: University of Leicester
Current Institution: University of Leicester
Date of Award: 2011
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Many urotensin-II (UT) receptor ligands characterised to date exhibit assay-dependent paradoxical agonist / antagonist properties. This activity is likely to be due to differences in UT receptor density between assays, especially between in vivo and in vitro systems. The present study characterised the effect of UT receptor density on the absolute and relative efficacies of experimental UT ligands (urantide and UFP-803). Two in vitro models were produced allowing the density of UT to be controlled in the presence of a fixed cellular background. 1. Ecdysone-inducible Chinese hamster ovary (CHO) cell-line, allowing UT transcription to be induced by a nuclear steroid hormone, (pon-A). 2. UT-targeting siRNAs, allowing UT translation to be inhibited in CHO cells expressing the human recombinant UT receptor (CHOhUT). The production and characterisation of the first of these models was problematic due to significant expression of UT in the absence of pon-A, therefore affording no advantage over classical in vitro systems. Two UT-targeting siRNAs were transfected into CHOhUT and were shown to knockdown UT expression by 94 & 73% at the mRNA level and 64 & 40% at the functional level. This model has allowed us to control UT receptor density in the presence of a fixed cellular background. We have shown that decreasing the density of UT in CHOhUT reduces the absolute efficacies of experimental UT ligands (urantide and UFP-803). We attribute this effect to reduced mass of ligand-receptor complexes. Reducing the density of UT in CHOhUT does not affect the relative efficacies of the same ligands. We attribute this effect to the absence of a UT receptor reserve over the range of UT densities used. A better understanding of system-dependent efficacy is crucial for effective use of UT ligands in the clinical setting. The technologies employed in this thesis represent an important avenue for future work.
Supervisor: Lambert, David ; Ng, Leong Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available