G-protein coupled receptor expression patterns in medulloblastoma subgroups: identifying and exploiting molecular targets

Whittier, Kelsey Lynnea

01 May 2015

Medulloblastoma is the most common malignant brain tumor in children. Genetic profiling has identified four principle tumor subgroups; each subgroup is characterized by different initiating mutations, genetic and clinical profiles, and prognoses. The two most well-defined subgroups are caused by overactive signaling in the WNT and SHH mitogenic pathways; less is known about Groups 3 and 4 medulloblastomas. Identification of tumor subgroup using molecular classification is poised to become an important component of the medulloblastoma diagnosis and staging and will likely guide therapeutic options. G-protein coupled receptors (GPCR) possess characteristics that make them ideal targets for molecular imaging and therapeutics. While expression patterns of many proteins in human medulloblastoma subgroups have been discerned, the expression pattern of GPCRs in medulloblastoma has not been investigated. We have found that clusters of medulloblastoma tumors arise based solely on differential GPCR expression patterns. Further, two of these clusters correspond with high fidelity to the WNT and SHH subgroups. Distinct over-expressed GPCRs emerge; for example, LGR5 and GPR64 are significantly and uniquely over-expressed in the WNT subgroup of tumors, while PTGER4 is over-expressed in the SHH subgroup. Uniquely under-expressed GPCRs were also observed. Our results identify GPCRs with potential to act as imaging and therapeutic targets; elucidating tumorigenic mechanisms is a secondary benefit to identifying differential GPCR expression patterns in medulloblastoma tumors. Current imaging for diagnosis, staging, and measuring response to therapy for medulloblastoma patients relies heavily on MRI; single photon emission tomography (SPECT) using 111In-DTPA-Octreotide targeting the somatostatin type 2 receptor (SSTR2) is also available. Positron emission tomography (PET) affords a more sensitive and specific imaging modality than SPECT; however, the most common tracer 18FDG, is of limited usefulness for the delineation of brain tumors. Smoothened (SMO) is a GPCR that is overexpressed in a subset of medulloblastoma; we hypothesized that SMO overexpression could be exploited as a specific PET target in these tumors. Genentech generously provided the synthetically-derived small-molecule SMO ligand, GDC-0449, for use as the lead compound for development of a PET tracer. GDC-0449 has already been demonstrated to localize in brain tumors and has Cl- atoms incorporated in positions that are predicted to readily exchange with fluorine-18 to generate a fluorinated analog of the compound. We have successfully fluorinated GDC-0449, with very high radiochemical purity. Binding assays reveal affinities of the fluorinated analog of GDC-0449 for SMO to be comparable to precursor GDC-0449, and biodistribution experiments demonstrate accumulation of the fluorinated compound in tumors. The fluorinated analog of GDC-0449 holds promise as a novel PET imaging agent in medulloblastoma, providing highly specific and sensitive imaging for use in diagnosis, staging and measurement of response-to-treatment.

G-protein coupled receptors

medulloblastoma

PET imaging

Smoothened

targeted imaging

Neuroscience and Neurobiology

High-throughput identification and characterization of novel inhibitors of Regulator of G Protein Signaling 17 as pretherapeutic leads for the treatment of lung and prostate cancers

Mackie, Duncan Ian

01 December 2014

G–Protein Coupled Receptors are one of the most important targets in drug development, making up over 60% of drug targets. Recent studies have implicated a role of Regulator of G–Protein Signaling (RGS) proteins in the development and progression of pathologies, including some cancers. RGS17, the most–recently identified family member of the RZ family of RGS proteins, has been implicated in the growth, proliferation, metastasis and migration of prostate tumors as well as small–cell and non–small cell lung cancers. In neoplastic tumor tissues RGS17 is up–regulated 13 fold over patient–matched normal tissues in prostate cancer. Studies have shown that RGS17 RNAi knockdown inhibits colony formation and decreases tumorigenesis in nude mice. Based on these findings, this thesis explores the research undertaken to develop small molecule inhibitors of the RGS17: Gαo protein: protein interaction. In this thesis, we implemented AlphaScreen® technology to develop a high–throughput screening method for interrogating small molecule libraries for inhibitors of RGS17. Chapter 3 focuses on the initial results of the AlphaScreen® in 384–well format. The screen utilizes a measurement of the Gα: RGS17 protein: protein interaction (PPI) and with an excellent Z–score exceeding 0.73, a signal to noise ratio >70 and a screening time of 1,100 compounds per hour. Chapter 3 presents the development, validation and initial high–throughput screening for inhibitors of Gα: RGS17 interaction as well as preliminary characterization of the RL series of hits. In this pilot screen the NCI Diversity Set II was interrogated, yielding 35 initial hits of which 16 were confirmed after screening against controls. The 16 compounds exhibited IC50 <10 ΜM in dose–response experiments for inhibiting the Gα: RGS17 interaction. Four exhibited IC50 values <6 ΜM while inhibiting the Gα: RGS17 interaction >50% when compared to a biotinylated GST control (TrueHits). Compounds RL–1 and RL–2 were confirmed by flow cytometry protein interaction assay (FCPIA) while RL–3 and RL–4 were unable to disrupt this PPI in FCPIA. All four compounds were tested using the differential scanning fluorimetry (DSF) method, which is based on energetic coupling between ligand binding and protein unfolding and found compounds RL–1 to RL–4 all slightly increased protein stability upon ligand binding. Chapter 4 focuses on the miniaturization and optimization of AlphaScreen® to a 1536–well format and screening of the MicroSource SPECTRUM and NDL3000 small molecule libraries. This increased throughput 11–fold and decreased our working volumes from 45 ΜL to 10 ΜL, which reduced reagent cost. After optimization, we retained in an excellent Z–factor ≥0.70 with S/N>5.77 and increased the screening rate to more than 12,000 compounds per hour. In this format, the initial screening of the SPECTRUM and NDL3000 libraries was completed and filtered the initial hits by counter screening and PAINs filtering as well as developing four powerful orthogonal assays for the characterization of potential lead molecules. Chapter 6 focuses on the future directions, which include the screening the in–house 50,000 compound library in the University of Iowa HTS Core facility as well as the development of cell based assays to determine the activity of these leads in the cellular milieu. These screens are the first step to developing novel pharmacophores for further optimization of structure with the focus on RGS17 activity in enzymatic, whole cell, xenograft and whole animal models as well as providing new avenues for the development of anticancer therapies.

biochemical pharmacology

G protein coupled receptors

High-throughput screening

Lung and prostate cancers

RGS17

Pharmacy and Pharmaceutical Sciences

Development of Proteochemometrics—A New Approach for Analysis of Protein-Ligand Interactions

Lapins, Maris

January 2006

<p>A new approach to analysis of protein-ligand interactions, termed proteochemometrics, has been developed. Contrary to traditional quantitative structure-activity relationship (QSAR) methods that aim to correlate a description of ligands to their interactions with one particular target protein, proteochemometrics considers many targets simultaneously.</p><p>Proteochemometrics thus analyzes the experimentally determined protein-ligand interaction activity data by correlating the data to a complex description of all interaction partners and; in a more general case even to interaction environment and assaying conditions, as well. In this way, a proteochemometric model analyzes an “interaction space,” from which only one cross-section would be contemplated by any one QSAR model.</p><p>Proteochemometric models reveal the physicochemical and structural properties that are essential for protein-ligand complementarity and determine specificity of molecular interactions. From a drug design perspective, models may find use in the design of drugs with improved selectivity and in the design of drugs for multiple targets, such as mutated proteins (e.g., drug resistant mutations of pathogens).</p><p>In this thesis, a general concept for creating of proteochemometric models and approaches for validation and interpretation of models are presented. Different types of physicochemical and structural description of ligands and macromolecules are evaluated; mathematical algorithms for proteochemometric modeling, in particular for analysis of large-scale data sets, are developed. Artificial chimeric proteins constructed according to principles of statistical design are used to derive high-resolution models for small classes of proteins.</p><p>The studies of this thesis use data sets comprising ligand interactions with several families of G protein-coupled receptors. The presented approach is, however, general and can be applied to study molecular recognition mechanisms of any class of drug targets.</p>

Pharmaceutical pharmacology

chemometrics

QSAR

G-protein coupled receptors

Melanocortin receptors

protein-ligand interactions

Farmaceutisk farmakologi

Klonierung und Charakterisierung aminerger Rezeptoren der Amerikanischen Schabe Periplaneta americana / Characterization of biogenic amine receptors of the american cockroach Periplaneta americana

Troppmann, Britta

January 2009

Biogene Amine sind kleine organische Verbindungen, die sowohl bei Vertebraten als auch bei Invertebraten als Neurotransmitter, Neuromodulatoren und/oder Neurohormone wirken. Sie bilden eine bedeutende Gruppe von Botenstoffen und entfalten ihre Wirkungen vornehmlich über die Bindung an G-Protein-gekoppelte Rezeptoren. Bei Insekten wurde eine Vielzahl von Wirkungen biogener Amine beschrieben. Das führte schon frühzeitig zur Vermutung, dass Insekten (u. a. Invertebraten) wie die Wirbeltiere ein diverses Repertoire an aminergen Rezeptoren besitzen. Für ein umfassendes Verständnis der komplexen physiologischen Wirkungen biogener Amine fehlten jedoch wichtige Informationen über die molekulare Identität der entsprechenden Rezeptorproteine und ihrer pharmakologischen Eigenschaften, ihre Lokalisation und ihre intrazellulären Reaktionspartner. Viele bei Schaben gut untersuchte (neuro)physiologische Prozesse sowie Verhaltensweisen werden durch Serotonin und Dopamin gesteuert bzw. moduliert. Über die beteiligten Rezeptoren ist jedoch bisher vergleichsweise wenig bekannt. Die Klonierung und Charakterisierung von Serotonin- und Dopaminrezeptoren der Amerikanischen Schabe P. americana ist damit ein längst überfälliger Schritt auf dem Weg zu einem umfassenden Verständnis der vielfältigen Wirkungen biogener Amine bei Insekten. Durch die Anwendung verschiedener Klonierungsstrategien konnten cDNAs isoliert werden, die für potentielle Serotoninrezeptoren und einen Dopaminrezeptor kodieren. Die Sequenzen weisen die größte Ähnlichkeit zu Mitgliedern der 5-HT1- und 5-HT7-Rezeptorklassen bzw. den Invertebratentyp-Dopaminrezeptoren auf. Die isolierten Rezeptoren der Amerikanischen Schabe wurden dementsprechend Pea(Periplaneta americana)5-HT1, Pea5-HT7 und PeaDop2 benannt. Das Hydropathieprofil dieser Rezeptoren postuliert das Vorhandensein der charakteristischen heptahelikalen Architektur G-Protein-gekoppelter Rezeptoren. Die abgeleiteten Aminosäuresequenzen zeigen typische Merkmale aminerger Rezeptoren. So sind Aminosäuren, die bedeutend für die Ligandenbindung, die Rezeptoraktivierung und die Kopplung an G﷓Proteine sind, in den Rezeptoren konserviert. Expressionsstudien zeigten eine auffallend hohe Expression aller drei Rezeptor-mRNAs im Gehirn sowie in den Speicheldrüsen. Im Rahmen dieser Arbeit wurden polyklonale Antikörper gegen den Pea5-HT1-Rezeptor sowie den PeaDop2-Rezeptor hergestellt. Der anti-Pea5-HT1-Antikörper detektiert im Homogenat von Schabengehirnen, Speicheldrüsen und Pea5-HT1-exprimierenden HEK 293-Zellen die glykosylierte Form des Rezeptors. In Gehirnschnitten markiert der anti-Pea5-HT1-Antikörper spezifisch einige Zellkörper in der Pars intercerebralis und deren Axone, welche in den Corpora cardiaca Nerv I projizieren. Der PeaDop2-Rezeptor wurde durch den spezifischen anti-PeaDop2-Antikörper in Neuronen mit Somata im anterioren Randbereich der Medulla nachgewiesen. Diese Neurone innervieren die optischen Loben und projizieren in das ventrolaterale Protocerebrum. Die intrazellulären Signalwege der heterolog exprimierten Pea5-HT1- und PeaDop2-Rezeptoren wurden in HEK 293-Zellen untersucht. Die Aktivierung des Pea5-HT1-Rezeptors durch Serotonin führt zur Hemmung der cAMP-Synthese. Des Weiteren wurde gezeigt, dass der Rezeptor konstitutive Aktivität besitzt. WAY 100635, ein hoch selektiver 5-HT1A-Rezeptorantagonist, wurde als wirksamer inverser Agonist am Pea5-HT1-Rezeptor identifiziert. Der stabil exprimierte PeaDop2-Rezeptor antwortet auf eine Aktivierung durch Dopamin mit einer Erhöhung der cAMP-Konzentration. Eine C-terminal trunkierte Variante dieses Rezeptors ist eigenständig nicht funktional. Die Ergebnisse der vorliegenden Arbeit indizieren, dass die untersuchten aminergen Rezeptoren im zentralen Nervensystems der Schabe an der Informationsverarbeitung beteiligt sind und verschiedene physiologische Prozesse in peripheren Organen regulieren. Mit der Klonierung und funktionellen Charakterisierung der ersten Serotoninrezeptoren und eines Dopaminrezeptors ist damit eine wichtige Grundlage für die Untersuchung ihrer Funktionen geschaffen worden. / Biogenic amines are small organic compounds that act as neurotransmitters, neuromodulators and/or neurohormones in vertebrates and in invertebrates. They form an important group of messenger substances and mediate their diverse effects primarily by binding to G protein-coupled receptors. The molecular identification as well as the functional and pharmacological characterization of these receptors is crucial for the comprehension of the intracellular signaling pathways activated by biogenic amines. This work describes the molecular and functional characterization of the first serotonin receptors and an invertebrate-type dopamine receptor of the American cockroach, Periplaneta americana. Using a PCR-strategy based on degenerate primers and RACE-PCR three cDNAs encoding for putative biogenic amine receptors were isolated from P. americana brain cDNA (Pea5-ht1, Pea5-ht7, Peadop2). The deduced amino acid sequences display major characteristics common to all G protein-coupled receptors. Primarily Distribution of receptor mRNA was investigated by RT-PCR. The analysis revealed a high mRNA expression level for all three receptors in the brain and salivary glands. The distribution of the Pea5﷓HT1 and PeaDop2 receptor proteins was analyzed by immunohistochemistry with specific affinity-purified polyclonal antibodies. Both receptor proteins are expressed in brain and salivary glands. Furthermore the cellular distribution of the receptors was investigated by immunocytochemistry on brain sections. The anti-Pea5-HT1 receptor antibody specifically labelled some large somata in the pars intercerebralis. Labeled axons of these neurons pass down the anterior surface of the brain and cross over in the chiasma region of the corpora cardiaca nerve 1. The PeaDop2 receptor was detected in neurons with somata at the anterior edge of the medulla bilaterally innervating the optic lobes and projecting to the ventro-lateral protocerebrum. In order to clarify the functional and pharmacological properties of the cloned receptors, we studied HEK 293 cell lines stably expressing Pea5-HT1 or PeaDop2. Activation of Pea5-HT1 expressing cells by serotonin reduced adenylyl cyclase activity in a dose-dependent manner. The Pea5-HT1 receptor was expressed as a constitutively active receptor with methiothepin acting as a neutral antagonist and WAY 100635 as an inverse agonist. The activation of the PeaDop2 receptor by dopamine induced an increase in intracellular cAMP level, whereas a C-terminally truncated splice variant of this receptor does not exhibit any functional property by itself. The results of this work suggest important roles of the investigated receptors in various areas of the cockroach brain. The molecular and pharmacological characterization of the first serotonin receptors and a dopamine receptor of the cockroach now provides the basis for forthcoming studies regarding the significance of these particular receptors for cockroach behavior and physiology

Insekt

Dopamin

Serotonin

G-Protein-gekoppelte-Rezeptoren

insect

serotonin

dopamine

G-protein-coupled-receptors

Life sciences

Charakterisierung der Serotonin-Rezeptoren in den Speicheldrüsen von Calliphora vicina / Characterization of serotonin receptors in the salivary gland of Calliphora vicina

Röser, Claudia

January 2012

Die Fähigkeit, mit anderen Zellen zu kommunizieren, ist eine grundlegende Eigenschaft aller lebenden Zellen und essentiell für die normale Funktionsweise vielzelliger Organismen. Die Speicheldrüsen der Schmeißfliege Calliphora vicina bilden ein ausgezeichnetes physiologisches Modellsystem um zelluläre Signaltransduktionsprozesse an einem intakten Organ zu untersuchen. Die Speichelsekretion wird dabei hormonell durch das biogene Amin Serotonin (5-Hydroxytryptamin; 5-HT) reguliert. 5-HT aktiviert in den sekretorischen Zellen der Drüsen über die Bindung an mindestens zwei membranständige G-Protein gekoppelte Rezeptoren (GPCR) zwei separate Signalwege, den IP3/Ca2+- und den cAMP-Signalweg. Zur Identifizierung und Charakterisierung der 5-HT-Rezeptoren in den Speicheldrüsen von Calliphora wurden unter Anwendung verschiedener Klonierungsstrategien zwei cDNAs (Cv5-ht2α und Cv5-ht7) isoliert, die große Ähnlichkeit zu 5-HT2- und 5-HT7-Rezeptoren aus Säugetieren aufweisen. Die Hydropathieprofile der abgeleiteten Aminosäuresequenzen postulieren die für GPCRs charakteristische heptahelikale Architektur. Alle Aminosäuremotive, die für die Ligandenbindung, die Rezeptoraktivierung und die Kopplung an G-Proteine essentiell sind, liegen konserviert vor. Interessanterweise wurde für den Cv5-HT7-Rezeptor eine zusätzliche hydrophobe Domäne im N Terminus vorhergesagt. Die Cv5-HT2α-mRNA liegt in zwei alternativ gespleißten Varianten vor. Mittels RT-PCR-Experimenten konnte die Expression beider Rezeptoren in Gehirn und Speicheldrüsen adulter Fliegen nachgewiesen werden. Ein Antiserum gegen den Cv5-HT7 Rezeptor markiert in den Speicheldrüsen die basolaterale Plasmamembran. Die Expression der Rezeptoren in einem heterologen System (HEK 293-Zellen) bestätigte diese als funktionelle 5-HT Rezeptoren. So führte die Stimulation mit Serotonin für den Cv5-HT2α zu einer dosis-abhängigen Erhöhung der intrazellulären Ca2+ Konzentration ([Ca2+]i, EC50 = 24 nM). In Cv5-HT7-exprimierenden Zellen löste 5-HT dosisabhängig (EC50 = 4,1 nM) einen Anstieg der intrazellulären cAMP Konzentration ([cAMP]i) aus. Für beide heterolog exprimierten Rezeptoren wurden pharmakologische Profile erstellt. Liganden, die eine Rezeptorsubtyp-spezifische Wirkung vermuten ließen, wurden daraufhin auf ihre Wirkung auf das transepitheliale Potential (TEP) intakter Speicheldrüsenpräparate getestet. Drei 5-HT-Rezeptoragonisten: AS 19, R-(+)-Lisurid und 5-Carboxamidotryptamin führten zu einer cAMP-abhängigen Positivierung des TEP durch eine selektive Aktivierung der 5 HT7-Rezeptoren. Eine selektive Aktivierung des Ca2+-Signalweges durch den Cv5-HT2 Rezeptor ist mit Hilfe von 5-Methoxytryptamin möglich. Dagegen konnte Clozapin im TEP als selektiver Cv5-HT7-Rezeptorantagonist bestätigt werden. Die Kombination eines molekularen Ansatzes mit physiologischen Messungen ermöglichte somit die Identifikation selektiver Liganden für 5-HT2- bzw. 5-HT7-Rezeptoren aus Calliphora vicina. Dies ermöglicht zukünftig eine separate Aktivierung der 5-HT-gesteuerten Signalwege und erleichtert dadurch die weitere Erforschung der intrazellulären Signalwege und ihrer Wechselwirkungen. / Cellular communication is a fundamental property of living cells and essential for normal functioning of multicellular organisms. The salivary glands of the blowfly Calliphora vicina are a well established physiological model system to study cellular signaling in an intact organ. Fluid secretion in this gland is hormonally regulated by the biogenic amine serotonin (5-hydroxytryptamine, 5-HT). In the secretory cells, 5-HT causes a parallel activation of the InsP3/Ca2+- and the cAMP-signaling pathways through binding and stimulation of at least two G protein coupled receptors (GPCR). In order to characterize the respective 5-HT receptors on the secretory cells, we have cloned two cDNAs (Cv5-ht2α, Cv5-ht7) that share high similarity with mammalian 5-HT2 and 5-HT7 receptor classes. Analysis of the deduced amino acid sequences postulates the typical heptahelical architecture of GPCRs for both receptors. Sequence motifs that are essential for ligand binding, receptor activation and coupling to G-proteins are well conserved. Interestingly, a computer-based structural analysis of Cv5-HT7 predicts an additional eighth hydrophobic region in the N-terminus of the receptor. We also found an alternative splice variant of the Cv5-HT2α mRNA. Using RT-PCR experiments, transcripts of both receptor mRNAs could be detected in brain and salivary gland tissue. An antiserum raised against the Cv5 HT7 receptor stained the basolateral region of the salivary glands. Heterologous receptor expression in HEK 293 cells leads to a dose-dependent increase in the intracellular Ca2+-concentration ([Ca2+]i) for Cv5-HT2α (EC50 = 24 nM) and cAMP-concentration for Cv5-HT7 (EC50 = 4,1 nM) upon application of 5-HT. A pharmacological profile was established for both receptors. Ligands that appeared to act as specific ligands of either Cv5-HT2α or Cv5-HT7 in this approach, were then tested for their effect on the transepithelial potential (TEP) of intact blowfly salivary gland preparations. Three 5-HT receptor agonists: AS 19, R-(+)-lisuride and 5-carboxamidotryptamine showed a cAMP dependent positivation of the TEP, caused by a selective activation of the Cv5-HT7 receptor. 5-methoxytryptamine exclusively activates the Ca2+ pathway via Cv5-HT2α. Clozapine antagonizes the effects of 5-HT in blowfly salivary glands and was confirmed as a Cv5-HT7 antagonist. The combination of a molecular approach with physiological measurements enabled us to identify selective ligands for 5-HT2 and 5-HT7 receptors of Calliphora vicina. These results facilitate a selective activation of the intracellular signaling pathways activated by 5-HT and will facilitate future research on different aspects of intracellular signaling and crosstalk mechanisms.

Calliphora

GPCR

Serotonin

Rezeptor

zelluläre Signalübertragung

Calliphora

G-protein-coupled receptors

serotonin

cellular signalling

Life sciences

Development of Proteochemometrics—A New Approach for Analysis of Protein-Ligand Interactions

Lapins, Maris

January 2006

A new approach to analysis of protein-ligand interactions, termed proteochemometrics, has been developed. Contrary to traditional quantitative structure-activity relationship (QSAR) methods that aim to correlate a description of ligands to their interactions with one particular target protein, proteochemometrics considers many targets simultaneously. Proteochemometrics thus analyzes the experimentally determined protein-ligand interaction activity data by correlating the data to a complex description of all interaction partners and; in a more general case even to interaction environment and assaying conditions, as well. In this way, a proteochemometric model analyzes an “interaction space,” from which only one cross-section would be contemplated by any one QSAR model. Proteochemometric models reveal the physicochemical and structural properties that are essential for protein-ligand complementarity and determine specificity of molecular interactions. From a drug design perspective, models may find use in the design of drugs with improved selectivity and in the design of drugs for multiple targets, such as mutated proteins (e.g., drug resistant mutations of pathogens). In this thesis, a general concept for creating of proteochemometric models and approaches for validation and interpretation of models are presented. Different types of physicochemical and structural description of ligands and macromolecules are evaluated; mathematical algorithms for proteochemometric modeling, in particular for analysis of large-scale data sets, are developed. Artificial chimeric proteins constructed according to principles of statistical design are used to derive high-resolution models for small classes of proteins. The studies of this thesis use data sets comprising ligand interactions with several families of G protein-coupled receptors. The presented approach is, however, general and can be applied to study molecular recognition mechanisms of any class of drug targets.

Pharmaceutical pharmacology

chemometrics

QSAR

G-protein coupled receptors

Melanocortin receptors

protein-ligand interactions

Farmaceutisk farmakologi

PELICAN : a PipELIne, including a novel redundancy-eliminating algorithm, to Create and maintain a topicAl family-specific Non-redundant protein database

Andersson, Christoffer

January 2005

The increasing number of biological databases today requires that users are able to search more efficiently among as well as in individual databases. One of the most widespread problems is redundancy, i.e. the problem of duplicated information in sets of data. This thesis aims at implementing an algorithm that distinguishes from other related attempts by using the genomic positions of sequences, instead of similarity based sequence comparisons, when making a sequence data set non-redundant. In an automatic updating procedure the algorithm drastically increases the possibility to update and to maintain the topicality of a non-redundant database. The procedure creates a biologically sound non-redundant data set with accuracy comparable to other algorithms focusing on making data sets non-redundant

redundancy

BLAT

genomic positions

profile hidden Markov models

G-protein coupled receptors

Bioinformatics

Bioinformatik

Identification and Functional Analysis of Crustacean Serotonin Receptors.

Spitzer, Nadja

31 July 2006

Constantly changing environments force animals to adapt by cycling through multiple physiological states. Plasticity in sensory, motor, and modulatory neural circuits is an essential part of these adaptive processes. Invertebrates with their accessible, identifiable neurons are excellent models for investigating the molecular and cellular mechanisms underlying state-dependent neural plasticity, and provide insight into similar processes in more complex systems. These properties have allowed highly detailed characterization of several crustacean circuits with respect to their connectivities, cellular properties, responses to various inputs, and outputs. Serotonin (5-HT) is an important neuromodulator in virtually every animal species. 5-HT signals are mediated primarily by a large family of metabotropic receptors on target cells that activate diverse intracellular signaling cascades. Although 5-HT’s effects on crustacean circuits have been studied in detail, the mediating receptors have been inaccessible until recently. Crustacean receptors had not been cloned and specific drugs for use in physiological experiments could therefore not be identified. Coupling properties of 5-HT receptor families are strongly conserved between phyla, but pharmacological profiles are not. The extent of pharmacological divergence among invertebrates is unclear, however, as no systematic functional profile of 5-HT receptors from related species has been determined. This work shows that orthologs of two 5-HT receptors, 5-HT2b and 5-HT1a, are highly conserved at the molecular, functional and pharmacological level between two distantly related decapod crustaceans, Panulirus interruptus and Procambarus clarkii. A suite of drugs was functionally characterized at Panulirus and Procambarus 5-HT2b and 5-HT1a receptors in cell culture, which were then used to investigate the roles of the receptors in pyloric cycle frequency modulation in the stomatogastric ganglion, a model central pattern generator. The two receptor subtypes were found to serve different roles in the circuit and their function depends on the initial state of the circuit. Finally, an antibody recognizing 5-HT1a was used to map the localization of this receptor within the crayfish nervous system. 5-HT1a is localized to somata and neuropil throughout the nerve cord, suggesting it may respond to synaptic, paracrine or neurohormonal 5-HT signals. The protein and mRNA expression levels are variable between individual animals, perhaps reflecting distinct physiological states.

second messenger

expression

physiology

G protein coupled receptors

crayfish

spiny lobster

cloning

Biology, general

A characterization of the human G protein-coupled receptor, lysophosphatidic acid1 : its intracellular trafficking and signaling consequences on the tumor suppressor, P53

Murph, Mandi Michelle

26 April 2005

Lysophosphatidic acid (LPA) is a mitogenic lipid that enhances cell growth, proliferation and motility through binding and activation of at least four receptors, LPA1/Edg2, LPA2/Edg4, LPA3/Edg7, and PPAR and #947;. Here, we show that LPA stimulation inhibits the cell cycle regulator and tumor suppressor, p53. Ten M LPA reduced the cellular levels of total p53 and p53 phosphorylated at serine 15 by approximately 50% in A549 cells and this effect was sustained for at least 6 h. This resulted in a corresponding decrease in p53-mediated transcription. Transient-transfection of the Edg-family LPA receptors, LPA1-3 in HepG2 cells, which do not respond to LPA, also showed this inhibitory response. The response was specific to LPA receptors since neither Gi-coupled M2 muscarinic acetylcholine receptors, nor a mutant LPA1 receptor (LPA1 R124A), which is unable to bind LPA, inhibited p53 activity. Both transient-transfection of the LPA-degrading lipid phosphate phosphatase-1 (LPP-1), or exogenous addition of phospholipase B, which decreases exogenous lysophosphatidate, reversed the LPA receptor-induced decrease in p53-mediated transcription. Although pertussis toxin did not prevent the inhibition of p53, a mutant LPA1 receptor (LPA1 and #8710;361), which lacks the C-terminal PDZ-binding domain, failed to inhibit p53 function. This establishes LPA-mediated inhibition of p53 function requires an interaction with PDZ-containing proteins. These data establish a novel role for LPA-mediated receptor activation in diminishing p53 activity; which, in addition to LPAs well-characterized effects on growth-promoting signaling pathways, is likely to contribute to the survival and proliferation of cancer cells. Of the Edg-family LPA receptors, the LPA1 receptor is the most widely expressed. In the next study, we investigated the agonist-induced endocytosis of the human LPA1 receptor, bearing an N-terminal FLAG epitope tag, in stably transfected HeLa cells. LPA treatment induced the rapid endocytosis of approximately 40% of surface LPA1 within 15 minutes. Internalization was dose dependent and LPA specific since neither lysophophatidylcholine nor sphingosine-1-phosphate induced LPA1 endocytosis. Removing agonist following incubation resulted in LPA1 recycling back to the surface. LPA1 internalization was strongly inhibited by dominant-inhibitory mutants of both dynamin2 (K44A) and Rab5a (S34N). Finally, our results indicate that LPA1 exhibits basal, LPA-dependent internalization in the presence of serum-containing medium.

LPA

G protein-coupled receptors

p53

LPA1

Lysophospholipids

Endocytosis

Cancer cells Growth

PELICAN : a PipELIne, including a novel redundancy-eliminating algorithm, to Create and maintain a topicAl family-specific Non-redundant protein database

Andersson, Christoffer

January 2005

<p>The increasing number of biological databases today requires that users are able to search more efficiently among as well as in individual databases. One of the most widespread problems is redundancy, i.e. the problem of duplicated information in sets of data. This thesis aims at implementing an algorithm that distinguishes from other related attempts by using the genomic positions of sequences, instead of similarity based sequence comparisons, when making a sequence data set non-redundant. In an automatic updating procedure the algorithm drastically increases the possibility to update and to maintain the topicality of a non-redundant database. The procedure creates a biologically sound non-redundant data set with accuracy comparable to other algorithms focusing on making data sets non-redundant</p>

redundancy

BLAT

genomic positions

profile hidden Markov models

G-protein coupled receptors

Bioinformatics

Bioinformatik