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Amino acid residues constituting the agonist binding site of the human P2X3 receptor and subunit stoichiometry of heteromeric P2X2/3 and P2X2/6 receptorsWang, Haihong 30 April 2013 (has links) (PDF)
Homotrimeric P2X3 and heteromeric P2X2/3 receptors are present in sensory ganglia and participate in pain perception. In order to develop pharmacological antagonists for these receptors, it is important to clarify which amino acid (AA) residues constitute the agonist binding pouch as well as to learn the stoichiometry of the receptor subunits forming a heteromeric receptor. We expressed the homomeric human (h)P2X3 receptor or its mutants in HEK293 cells and measured the ATP-induced responses by the whole-cell patch-clamp method. For the binding-site mutants, all conserved and some non-conserved AAs in the four nucleotide binding segments (NBSs) of the P2X3 subunit were sequentially replaced by alanine. Especially the positively charged AAs Lys and Arg appeared to be of critical importance for the agonist effects. We concluded that groups of AAs organized in NBSs rather than individual amino acids appear to be responsible for agonist binding at the P2X3 receptor. These NBSs are located at the interface of the three subunits forming a functional receptor. We were also interested to find out, whether two heteromeric receptors (P2X2/3 and P2X2/6), where P2X2 combines with two different partners, have an obligatory subunit stoichiometry of 1:2 or whether the subunit stoichiometry may be variable. For this purpose we used non-functional P2X2, P2X3 and P2X6 subunit-mutants to investigate the composition of heteromeric P2X2/3 and P2X2/6 receptors. The subunit stoichiometry of P2X2/3 and P2X2/6 was found to be 1:2 and 2:1, respectively. Thus, recognitions sites between P2X2 and its partners rather than random association may govern the subunit compositions of the receptor trimers.
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Amino acid residues constituting the agonist binding site of the human P2X3 receptor and subunit stoichiometry of heteromeric P2X2/3 and P2X2/6 receptorsWang, Haihong 28 March 2013 (has links)
Homotrimeric P2X3 and heteromeric P2X2/3 receptors are present in sensory ganglia and participate in pain perception. In order to develop pharmacological antagonists for these receptors, it is important to clarify which amino acid (AA) residues constitute the agonist binding pouch as well as to learn the stoichiometry of the receptor subunits forming a heteromeric receptor. We expressed the homomeric human (h)P2X3 receptor or its mutants in HEK293 cells and measured the ATP-induced responses by the whole-cell patch-clamp method. For the binding-site mutants, all conserved and some non-conserved AAs in the four nucleotide binding segments (NBSs) of the P2X3 subunit were sequentially replaced by alanine. Especially the positively charged AAs Lys and Arg appeared to be of critical importance for the agonist effects. We concluded that groups of AAs organized in NBSs rather than individual amino acids appear to be responsible for agonist binding at the P2X3 receptor. These NBSs are located at the interface of the three subunits forming a functional receptor. We were also interested to find out, whether two heteromeric receptors (P2X2/3 and P2X2/6), where P2X2 combines with two different partners, have an obligatory subunit stoichiometry of 1:2 or whether the subunit stoichiometry may be variable. For this purpose we used non-functional P2X2, P2X3 and P2X6 subunit-mutants to investigate the composition of heteromeric P2X2/3 and P2X2/6 receptors. The subunit stoichiometry of P2X2/3 and P2X2/6 was found to be 1:2 and 2:1, respectively. Thus, recognitions sites between P2X2 and its partners rather than random association may govern the subunit compositions of the receptor trimers.:Index of contents
Introductory remarks
„Wissenschaftlicher Anteil des Promovenden an der Publikation“
„Bibliographische Beschreibung“
I. Introduction
Pain as a sensory quality
Neuronal circuitry for pain processing and sensation in the PNS and CNS Transformation of thermal, mechanical and chemical stimuli into electrical
activity by nociceptors; nociceptor-targeted therapeutic approaches
Release mechanisms for nucleotides and their fate in the extracellular space
Nucleotide receptor-types
ATP-sensitive P2 receptors and pain-sensation
References
II. Scientific background and aims of my thesis
ATP binding-sites of P2X3 receptors; subunit composition of P2X2/3 and P2X2/6 heteromeric receptors
The aims of the present work
III. Publications
IV. Summary and conclusions
Amino acid residues constituting the agonist binding site of the human P2X3 receptor
ATP binding site mutagenesis reveals different subunit stoichiometry of functional P2X2/3 and P2X2/6 receptors
„Eigenständigkeitserklärung“
Curriculum vitae
Acknowledgements
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