Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly

January 2009

The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

G proteins Receptors.

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly

January 2009

The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

G proteins Receptors.

Proteins associated with the intracellular signalling tail of the calcium-sensing receptor and their impact on receptor function

Magno, Aaron

January 2009

[Truncated abstract] The calcium-sensing receptor (CaR) is a G protein-coupled receptor that can respond to changes in extracellular calcium and plays an integral role in calcium homeostasis. Later studies revealed that the CaR was stimulated by not just calcium, but a diverse range of stimuli and that activation of the receptor regulated a host of different biological processes. The CaR is linked to these cellular responses via the various signalling pathways initiated by the receptor. Recent yeast two-hybrid studies have identified a number of accessory proteins that, through their interaction with the intracellular tail of the CaR, are able to regulate important functional aspects of the receptor, including its signalling and degradation. We hypothesised that many more proteins that bind to the CaR-tail await identification, especially since most of the previous studies used the yeast two-hybrid system to screen cDNA libraries generated from tissues that are important to whole body calcium homeostasis, such as the parathyroid gland and kidney. In order to identify novel binding partners of the CaR, which may affect its function, particularly in biological processes that might be unrelated to calcium homeostasis, our laboratory performed a yeast two-hybrid screen of an EMLC.1 mouse pluripotent haemopoietic cell line library using the intracellular tail of the human CaR as bait. This screen revealed a large number of

Calcium -- Receptors

Cellular signal transduction

Cytoskeleton

G proteins -- Receptors

Protein-protein interactions

Intracellular signalling

Calcium-sensing receptor

Protein interactions

Assay and array technologies for G-protein coupled receptors.

Bailey, Kelly

January 2009

The overall aim of this thesis is to investigate strategies to aid in the measurement of G-protein coupled receptor (GPCR) activity for high-throughput screening and sensing applications. GPCRs are cell surface receptors which have seven membrane spanning domains. They are the largest family of membrane proteins in the human genome and are involved in a number of physiological and pathophysiological pathways. They are the most widely targeted protein family for therapeutics being the target for over 30% of the currently available prescription drugs (Jacoby et al. 2006). For this reason commercial interest and investment into compound screening using these receptors as targets is of high importance in lead drug discovery. Additionally, the extensive ligand range of the GPCR superfamily, which includes light, odorants/ volatiles, neurotransmitters and hormones, make them an attractive biological recognition element in biosensor applications. This thesis demonstrates the functional expression of the H1-histamine, M2-muscarinic and α₂ₐ-adrenergic receptors of the G-protein coupled receptor family, along with their associated G-proteins (Gα, Gβ and Gγ). Expression was achieved using the Sf9/baculovirus expression system. The G-proteins were successfully incorporated into an assay system using time-resolved fluorescence resonance energy transfer (TRFRET). TR-FRET was used in order to create a homogeneous assay format capable of monitoring GPCR activation through the movement of the G-protein subunits. Fluorescence changes in the TR-FRET assay indicated a change in distance between the Gα subunit and Gβγ dimer. The separation of the Gα subunit and the Gβγ dimer after activation resulted in a significant decrease in TR-FRET measurement. The homogeneous set-up of the TR-FRET assay could potentially be adaptable to an array based format. This thesis describes the capture of vesicles containing functional GPCRs onto a solid substrate via the specific interaction between complementary oligonucleotides. GPCR presence and function within the immobilized vesicles, was demonstrated using fluorescent ligands. Further to this, alternative lipid hosts (to the vesicles), known as cubosomes, were introduced. When tagged with an oligonucleotide, these cubosome particles were also shown to immobilize site specifically onto a complementary oligonucleotide surface. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369537 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

G proteins Receptors.

Effects of Prazosin Treatment on Ethanol- and Sucrose-Seeking and Intake in P Rats

Verplaetse, Terril Lee

20 September 2012

Indiana University-Purdue University Indianapolis (IUPUI) / Background: Previous studies show that prazosin, an α1-adrenergic receptor antagonist, decreases alcohol drinking in animal models of alcohol use and dependence and in alcohol-dependent men. These studies extended previous findings by using a paradigm that allows for separate assessment of prazosin on motivation to seek versus consume ethanol or sucrose in selectively bred rats given acute or chronic prazosin treatment. Methods: Alcohol-preferring P rats were trained to complete an operant response that resulted in access to either 2% (Exp. 1) or 1% (Exp.2) sucrose or 10% ethanol. In Experiment 1, a 4-week consummatory testing phase consisted of rats bar-pressing to “pay” a specified amount up front to gain access to unlimited ethanol (or sucrose) for a 20-minute period. A 4-week appetitive testing phase examined how much the rats would bar-press for ethanol in an extinction session when no reinforcer could be obtained. In Experiment 2, during testing, the response requirement was dropped to a 1 and daily session cycles of drug (3 weeks/ 14 sessions from Tues to Fri) or vehicle (2 weeks/ 9 sessions from Tues to Fri) treatment were alternated per drug dose for a total of 3 drug doses (3 cycles) per rat. After each drug cycle, a single non-reinforced extinction session was conducted with no drug ‘on board’ and no reinforcer access. On test days, rats were given IP injections of either vehicle or one of three doses of prazosin (Exp 1: 0.5, 1.0, 1.5 mg/kg; Exp 2: 0.25, 0.5, 1.0 mg/kg; balanced design; -30 min). Results: In Experiment 1, prazosin significantly decreased ethanol-seeking at all doses tested. The highest dose decreased ethanol intake and increased the latency to first lever-press and first lick. Sucrose-seeking and intake were decreased by the same doses of prazosin. In Experiment 2, prazosin significantly decreased reinforcer-seeking at the lowest and highest doses while ethanol intake was not decreased by prazosin. Conversely, sucrose-seeking was decreased at the highest dose of prazosin tested while sucrose consumption was decreased by all doses. Latency to lever-press for sucrose was increased by the lowest dose of prazosin compared to vehicle. Conclusions: These findings extend previous research and indicate that prazosin decreases motivation to seek ethanol and sucrose. The specificity of prazosin on different behaviors and over different reinforcers suggests that these findings are not due to prazosin-induced motor-impairment or malaise. These data suggest that prazosin may work by decreasing the reinforcing properties of reinforcers in general.

Reinforcement (Psychology)

Rats as laboratory animals

Alcoholism -- Psychological aspects

Alpha adrenoceptors

Substance abuse -- Etiology

Ethanol

Prazosin

Operant behavior

Operant conditioning

G proteins -- Receptors

Alcoholism -- Molecular aspects

Alcoholism -- Treatment

Etude d'un récepteur orphelin apparenté aux récepteurs aux hormones glycoprotéiques, LGR4 / Study of an orphan receptor belonging to the glycoprotein hormone receptors family, LGR4

Van Schoore, Grégory

07 January 2008

Les récepteurs couplés aux protéines G (RCPG) sont impliqués dans la majeure partie des communications intercellulaires. Un grand nombre de RCPG ont été découverts en comparant la séquence des récepteurs connus avec les données fournies par le séquençage du génome humain. Pour plus d'une centaine de ces récepteurs, le ligand activateur ou agoniste est inconnu. Ces récepteurs sont dès lors qualifiés d'orphelins.<p>Les LGR forment une sous-famille de RCPG structurellement proches de la rhodopsine qui comprend les récepteurs aux hormones glycoprotéiques (TSH, LH, hCG, FSH) et à la relaxine. LGR4 est un membre de cette famille dont ni la fonction précise, ni l'agoniste ne sont connus.<p>Dans un premier temps, une cartographie détaillée de l'expression de Lgr4 chez la souris a été obtenue. Nous avons tiré parti de l'existence d'une lignée de souris transgéniques dont le gène Lgr4 a été interrompu par l'introduction d'une cassette comportant deux marqueurs histologiques. L'activité beta-galactosidase d'un de ces marqueurs a été analysée chez les souris hétérozygotes. Ces dernières ne présentent pas de phénotype particulier, ce qui permet d'estimer que l'expression des marqueurs rend effectivement compte de l'expression normale du gène Lgr4. Lgr4 est exprimé dans un grand nombre de structures, notamment dans le cartilage, le rein, les appareils reproducteurs mâle et femelle et certaines cellules du système nerveux.<p>Ensuite, le phénotype des souris homozygotes pour l'inactivation de Lgr4 (LGR4KO) a été exploré. Ces souris présentent à la naissance un poids inférieur à leurs congénères des autres phénotypes. Les mâles sont stériles à cause d'une malformation des tubules efférents et de l'épididyme. Un blocage au niveau des tubules efférents reliant le testicule à l'épididyme contraint les spermatozoïdes à s'accumuler à la sortie du testicule, dans la région du rete testis. De plus, les tubes de l'épididyme, pourtant normaux à la naissance, ne s'allongent pas pour former la structure convolutée habituelle. L'épithélium de ces tubes est aplati et est entouré d'une quantité anormalement élevée de mésenchyme.<p>Dans un troisième temps, des outils nécessaires aux futures tentatives d'identification de l'agoniste naturel de LGR4 ont été réalisés. Il s'agit :(1) d'anticorps monoclonaux dirigés contre la partie extracellulaire du récepteur humain. (2) d'un appât moléculaire pour la ‘pêche au ligand’. Cet appât est constitué du domaine extracellulaire du récepteur humain couplé à un marqueur histologique. (3) d'une construction peptidique constituée du domaine extracellulaire du récepteur humain couplé à une queue poly-histidine. Cette construction est destinée à servir de greffon lors de chromatographies d'affinités devant permettre de purifier le ligand. (4) de lignées cellulaires exprimant le récepteur LGR4 humain ainsi que le système æquorine devant permettre de détecter l'activation de ce récepteur.<p>Les données apportées par ce travail montrent un rôle important du récepteur LGR4 au cours du développement et permettent de circonscrire le champ des recherches futures. Ceci, ainsi que les outils moléculaires développés, constitue une base pour l'identification future de l'agoniste et la détermination précise de la fonction de LGR4. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Médecine pathologie humaine

Infertility, Male

Epididymis -- Abnormalities

G proteins -- Receptors

Receptor-ligand complexes

Stérilité masculine

Epididyme -- Malformations

Protéines G -- Récepteurs

Complexes récepteur-ligand

stérilité

épididyme

tubule efférent

G proteins

male infertility

epididymis

efferent duct

GPCR

protéines G

LGR48