Visualisation of Receptors in Native Tissue

McGrath, I., Pediani, J.D. , Methven, L., MacMillan, J. and Daly, C.J. (2007) Visualisation of Receptors in Native Tissue. Life Sciences 2007, 2007.

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Publisher's URL: https://www.physoc.org/abstracts/visualisation-of-receptors-in-native-tissue/

Abstract

In native tissues, relatively low protein expression levels and overlapping sensitivities of antibodies within families of GPCRs present challenges to transfer of knowledge of receptor mechanisms from cell culture. In contrast, in recombinant systems epitope tags and fluorescent proteins provide powerful and sensitive means of tracking the concentration, location and movement of receptors. Two approaches have now started to close this gap. First is the use of fluorescent ligands, which can be tested and validated in recombinant systems [1] and then employed in intact, live native tissue using confocal microscopy [2-4]. Agonist and antagonist ligands can be employed, each conferring advantages and disadvantages. The second approach is the creation of mouse strains expressing transgenic receptors labeled with fluorescent proteins [5]. Examples will be given illustrating the current state of play with these approaches on alpha-1, alpha-2 and beta-adrenoceptors, and angiotensin receptors, mainly using rat and mouse blood vessels, in which fluorescent ligand binding shows that a range of cell types express adrenoceptors, e.g. nerves, adventitial fibroblasts, smooth muscle, endothelial and fat cells. The distribution of receptors is shown to be both in intracellular organelles and the cell surface, the consequences of dimerisation can be explored in receptor KOs and phenomena such as binding kinetics and receptor internalization and trafficking can be followed in real time in native tissues. These approaches are steadily closing the gap between cell culture and native tissues. In the particular example of blood vessels, these approaches have shown that receptors exist on types of cells where they were previously not known to exist. Receptors for vasoactive agents such as catecholamines and angiotensin II have been found on adventitial and endothelial cells as well as where they were expected, on smooth muscle. This has led to new avenues of research into vascular control. An example is shown in figure 1, where adrenoceptors are shown on the endothelial cells of mouse carotid artery as well as on smooth muscle.

Item Type:Conference or Workshop Item
Additional Information:Research Symposium.
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Pediani, Dr John and Daly, Professor Craig and Methven, Dr Laura and McGrath, Miss Isla
Authors: McGrath, I., Pediani, J.D., Methven, L., MacMillan, J., and Daly, C.J.
College/School:College of Medical Veterinary and Life Sciences > School of Life Sciences
College of Medical Veterinary and Life Sciences > School of Molecular Biosciences

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