The effect of two levels of dietary ractopamine hydrochloride (Paylean®) supplementation on growth performance, feed efficiency and quantitative carcass traits in finisher gilts

Teague, Paul David

January 2016

Ractopamine hydrochloride (RAC) has been used in the pig production industry for over 30 years. RAC is a beta-adrenergic agonist which is supplemented in the feed during the last 28 days prior to harvesting in finisher pigs to modify the pig's metabolism such that nutrients are redirected to favour muscle accretion rather than adipose deposition, and hence improve growth efficiencies, feed utilisation and carcass revenues. The objective of this study was to investigate the effect of dietary ractopamine (Paylean®) supplementation at levels of 0, 5, and 10 mg.kg-1 (hereafter referred to as 0-RAC, 5-RAC, and 10-RAC respectively) on animal growth performance, efficiency and carcass characteristics including daily voluntary feed intake, feed efficiency, absolute daily growth rate (ADG) and daily live weight gain, and backfat thickness for the last 27 days in finishing gilts. In this 27-day study, a homogenous group of 71 grower gilts (LW = 43 ± 1 kg) were pre-selected at a source farm. The gilts were then housed in similar and equally sized group pens at the Hatfield experimental facility of the University of Pretoria and fed a standard maize-soya oilcake based grower ration formulated to contain 0.94% standardised ileal digestible Lys (1.05% total Lys) and 14.01 MJ ME kg-1 during the 28 day pre-adaptation phase. From these gilts, individuals were weighed and 58 gilts selected (average LW = 68.7 ± 4.3 kg), and placed into individual pens and the same diet for 7 days (adaptation phase), afterwhich they were assigned to 1 of 3 treatments in a completely randomized block design with 19, 19, and 20 replicate pens per treatment. The pigs were then fed a standard maize-soya oilcake finisher (treatment) diet containing either 0-RAC, 5-RAC or 10-RAC for 27 d before harvesting. All treatment diets were formulated to contain 1.02% standardised ileal digestible Lys (1.13% total Lys) and 13.96 MJ ME kg-1. Individual pig LW, P2 thickness and pen feed disappearance were recorded weekly to determine LW changes, ADG, ADFI, and G:F. After 27 d on trial, gilts were slaughtered and carcass measurements were recorded at 24 h post-mortem. Overall, RAC supplementation did not affect ADFI or P2 (P > 0.05) but did influence LW (P = 0.049) and overall G:F (P = 0.012) after d27. At d15-d21 and d22-27, only a tendency (P = 0.169, 0.104 respectively) for a linear decrease in G:F with RAC supplementation was found. RAC also affected HCY (P= 0.045) and CCY (P = 0.045) but not fat depth, meat depth or fat % (P > 0.05). These results indicate that RAC may have small but beneficial effects in modern pig production, but further research is required to optimize concentrations and duration of supplementation in modern lean pig genotypes. / Dissertation (MSc (Agric))--University of Pretoria, 2016. / Animal and Wildlife Sciences / MSc (Agric) / Unrestricted

UCTD

Ractopamine

Growth

Carcass

β-adrenergic agonist

Symmetry breaking: polymorphic form selection by enantiomers of the melatonin agonist and its missing polymorph

Stephenson, G.A., Kendrick, John, Wolfangel, C., Leusen, Frank J.J.

January 2012

Synthesis of a melatonin agonist for treatment of sleep disorders produced a pair of enantiomers, of which one is biologically active. Two polymorphs were discovered using the inactive enantiomer, conserving the active enantiomer for toxicological testing. Later studies with the active enantiomer yielded only the metastable form, despite more than 1000 attempts to isolate the stable form. The difficulty is surprising, since the stable form is favored by 0.7 kcal mol–1, which is toward the extreme for stability differences between organic polymorphs. Study of individual enantiomers allowed the phase behavior of polymorphs of greatly different energy to be examined without interconversion. A number of unusual features are noted. After the stable polymorph of the inactive enantiomer was nucleated, the metastable form became very difficult to isolate. The metastable form converts into a less soluble monohydrate structure in water, whereas the stable polymorph does not due to its reduced activity. Both chiral polymorphs are denser than the racemic crystalline form at low temperature, the stable form being at the extreme for chiral-racemic pairs. Free energy-temperature relations predict “spontaneous resolution” of the racemic crystalline form into a conglomerate mixture of stable polymorph at low temperature. The unusual characteristics of the system are explained by hydrogen bonding and conformational flexibility of the molecule. Ab initio calculations aid in understanding the relative contributions of these interactions to the lattice energies and the role that conformational energy differences play in the polymorphic stability. This system highlights the importance of the creation of the very first nuclei of a crystalline form. The reluctance of the stable form to nucleate is attributed to a large energy difference between polymorphic forms. The large interfacial tension for primary nucleation reduces the probability of forming clusters of size sufficient for favorable growth in the absence of heterogeneous nucleation. This study highlights how nucleation of a new form can revise the readily “accessible” region of a compound’s crystal form landscape.

Har agonister på farnesoid X receptorer (FXR) och peroxisomproliferatoraktiverade receptorer (PPAR) terapeutisk potential vid icke-alkoholorsakad fettleversjukdom (NAFLD)? / Do agonists of farnesoid X receptors (FXRs) and peroxisome proliferator-activated receptors (PPARs) have therapeutic potential in non-alcoholic fatty liver disease (NAFLD)?

Nyman, Agnes

January 2023

Introduktion: Icke-alkoholorsakad fettleversjukdom (NAFLD) kännetecknas av hepatisk fettinlagring i frånvaro av alkoholmissbruk. För en andel av patienterna leder sjukdomen till leverinflammation och fibros och benämns då icke-alkoholorsakad steatohepatit (NASH). Denna variant av sjukdomen kan utvecklas till levercirros eller levercancer. Farmakoterapi vid NAFLD är ett forskningsområde som utvecklas snabbt och som domineras av agonister på farnesoid X receptorer (FXR) och peroxisomproliferatoraktiverade receptorer (PPAR). Dessa receptorer är inblandade i lipid- och glukosmetabolism och modulerar även inflammatorisk signalering. Syfte: Detta arbete syftar till att undersöka om FXR-agonister och PPAR-agonister har terapeutisk potential vid NAFLD/NASH. Metod: Litteratursökningen utfördes på databasen PubMed. Totalt granskades tre studier på FXR-agonisten obetikolsyra och tre studier på PPAR-agonisterna saroglitazar, elafibranor och lanifibranor. Resultat: Behandling med 25 mg obetikolsyra ledde till minskad sjukdomsaktivitet hos en större andel patienter jämfört med placebo (45 % vs 21%; p < 0,0002 i FLINT och 36% vs 24%; p = 0,0012 i REGENERATE) och även till minskad leverfibros hos en större andel patienter jämfört med placebo (35% vs 19%; p = 0,004 i FLINT och 23% vs 12% p = 0,0012 i REGENERATE). Behandling med obetikolsyra ledde till ökat LDL-C och minskat HDL-C. Behandling med PPAR-α/γ agonisten saroglitazar gav en signifikant sänkning av leverenzymvärden (p < 0,001) jämfört med placebo. PPAR-α/δ agonisten elafibranor orsakade tillbakagång av NASH för en större andel patienter jämfört med placebo enligt en post-hoc analys (19% vs 12%; p = 0,045). Pan-PPAR agonisten lanifibranor minskade sjukdomsaktiviteten i högre utsträckning än placebo (55% vs 33%; p = 0,007) och uppfyllde även sekundära effektmått på tillbakagång av NASH och minskning av leverfibros. Samtliga PPAR-agonister hade positiva effekter på patienternas lipidprofil och insulinkänslighet. Slutsats: Båda klasser av läkemedel ger en kliniskt meningsfull förbättring av leverhistologin vid NASH. PPAR-agonister har dessutom gynnsamma metabola effekter. Följaktligen har både FXR-agonister och PPAR-agonister terapeutisk potential vid NAFLD/NASH.

NAFLD

NASH

FXR-agonist

PPAR-agonist

Medical and Health Sciences

Medicin och hälsovetenskap

Use of exogenous growth promotants in finishing cattle

Van Bibber-Krueger, Cadra

January 1900

Master of Science / Department of Animal Sciences and Industry / James S. Drouillard / Exogenous growth promotants, such as the synthetic beta agonist zilpaterol hydrochloride (ZH), have been shown to increase carcass weight by repartitioning energy toward increased skeletal muscle at the expense of adipose tissue, which is associated with a decline in tenderness. More recently, essential oils such as menthol have been observed to have growth promoting properties in livestock. The objectives of this research were to determine effects of ZH on blood parameters and long chain fatty acids in plasma and adipose tissue, to determine if the decline in tenderness can be negated by temporary depletion of calcium during ZH supplementation, and to determine effects of crystalline menthol on blood parameters. Blood samples were collected in 7-d intervals during ZH administration. Zilpaterol hydrochloride decreased concentrations of plasma urea nitrogen and whole blood glucose (P < 0.10), but had no effects on concentrations of plasma glucose, lactate, beta-hydroxybutyrate, NEFA, or whole blood lactate (P > 0.10). Total long chain fatty acids of plasma and adipose tissue were unaffected (P > 0.10); however, ZH supplementation increased HCW, dressing percentage, and LM area (P < 0.10). Calcium was temporarily depleted during ZH supplementation in an attempt to increase tenderness of meat. No differences (P > 0.10) were observed for Warner-Bratzler shear force values, live animal performance, or carcass measurements. Addition of 0, 0.003, 0.03, 0.3% menthol (diet DM) to diets of steers resulted in a menthol × time within day interaction (P < 0.01) for IGF-1 concentration and BW; however, glucose, lactate, and PUN concentrations were unaffected (P > 0.05). Furthermore, concentrations of VFA were not different (P > 0.05), but production of fermentative gas was decreased (P < 0.01) when menthol was added at 0, 0.003, 0.03, 0.3% of substrate DM in a 24 h in vitro fermentation trial. Results from these studies suggest ZH improved efficiency of nutrient utilization for increased skeletal muscle growth; however, the decline in tenderness was not negated by the temporary depletion of calcium in the diet. Overall, ZH affected components related to increased skeletal muscle growth, but menthol did not affect blood parameters associated with growth.

Beef cattle

Beta agonist

Growth promotant

Menthol

Animal Sciences (0475)

Design, Synthesis and Biological Evaluation of Selective Nonpeptide AT2 Receptor Agonists and Antagonists

Wallinder, Charlotta

January 2008

<p>The G protein-coupled receptors (GPCRs) are important targets in drug discovery. In several cases, the endogenous ligands that activate the GPCRs of pharmaceutical interest are peptides. Unfortunately, peptides are in general not suitable as drugs, since the peptide structure is associated with several disadvantages, such as low oral bioavailability, rapid degradation and low receptor subtype selectivity. Thus, there is a strong need for drug-like nonpeptide ligands to peptide-activated GPCRs. However, to discover nonpeptide ligands that mimic the effect of the endogenous peptide, i.e. peptidomimetics, is a tremendous challenge. In fact, morphine and the related opioids were the only known examples of peptidomimetics before 1995 and these ligands were known long before the native endogenous peptide ligands were discovered. </p><p>The main objective of the work described in this thesis was to design, synthesize and biologically evaluate selective nonpeptide agonists to the peptide-activated GPCR AT₂. The AT₂ receptor belongs to the renin–angiotensin system, where the octapeptide angiotensin II (Ang II) is the major effector peptide. Ang II mediates its effects through the two GPCRs AT₁ and AT₂. The AT₁ receptor is already an established target in the treatment of hypertension. The physiological role of the AT₂ receptor, which is up-regulated in certain pathological conditions, is not fully understood but it seems to include positive effects such as vasodilatation, tissue repair, tissue regeneration and neuronal differentiation. </p><p>In the current investigation we started from the nonpeptide and nonselective (AT₁/ AT₂) compound L-162,313. This ligand is a known AT₁ receptor agonist but its effect on the AT₂ receptor was unknown at the start of this project. We were able to show that it acts as an agonist also at the AT₂ receptor. Furthermore, stepwise synthetic modifications of L-162,313 led to the identification of the first selective nonpeptide AT₂ receptor agonist. Following the discovery of this compound several selective nonpeptide AT₂ receptor agonists were identified. It was also revealed that a minor structural alteration of one of these compounds interconverted the functional activity from agonism to antagonism. The structural requirement for agonism vs antagonism was therefore studied. The functionality switch was suggested, at least partly, to be due to the spatial relationship between the methyleneimidazole group and the isobutyl side chain of the compounds. To further investigate the bioactive conformation(s) of this series of compounds enantiomerically pure analogues with conformationally constrained isobutyl chains were prepared. This study revealed that the direction of the isobutyl side chain determine whether the compounds act as agonists or antagonists at the AT₂ receptor. Further investigations are required to fully elucidate the bioactive conformation(s) of these nonpeptide AT₂ receptor agonists.</p><p>We believe that the selective nonpeptide AT₂ receptor agonists and antagonists identified in this thesis will serve as important research tools in the continuing investigation of the physiological role of the AT₂ receptor. We also believe that these drug-like compounds might provide potential leads in drug discovery processes.</p>

AT2 receptor agonist

AT2 receptor antagonist

Ang II peptidomimetics

Investigation into an ongoing dilemma: undefined welfare implications challenging the use of β-adrenergic agonists in beef production

Hagenmaier, Jacob Andrew

January 1900

Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Daniel U. Thomson / Beta-adrenergic agonists (βAA) are administered during the final weeks of the beef production system to improve efficiency and increase meat yield. Welfare concerns linked to the administration of βAA have garnered significant attention in recent years due to anecdotal reports of increased mortality during βAA feeding periods and cattle without obvious disease or injury having difficulty walking at abattoirs being overrepresented in cattle fed βAA. Thomson et al. (2015) reported 2 events where cattle were distressed, became non-responsive to handling, sloughed hoof walls and were euthanized while in lairage at the abattoir. Consistent blood abnormalities in euthanized cattle included elevated blood lactate (25.6 mmol/L; ref. range: < 4-5) and creatine kinase (CK; 6,890 U/L, ref. range: 159- 332). Although no causal relationship had been established, dialogues among groups of packers, animal scientists, and welfare experts implicating the βAA zilpaterol hydrochloride (ZIL; Zilmax®, Merck Animal Health, Desoto, KS) as one possible etiology resulted in a major beef packer announcing plans to stop accepting cattle fed ZIL. Consequently, Merck announced a self-imposed suspension of ZIL sales in U.S. and Canadian markets until further research could be conducted to investigate the manner. Utilization of technologies such as βAA are imperative to meeting the demands of a growing world population and verdicts regarding such technologies, including their impact on animal welfare, should be based on scientific merit. The first objective of this research was to evaluate the effect of shade on performance and animal well-being in cattle fed ZIL. The second objective was to characterize the clinical description and hematological profile of fatigued cattle presented to abattoirs. The third objective was to evaluate the effects of handling intensity during shipment for slaughter in cattle fed a βAA. The fourth objective was to evaluate the effects of βAA administration on performance and physiological response to different handling intensities during shipping for slaughter. Shade provision reduced open-mouth breathing and increased dry matter intake and dressing percentage. Fatigued cattle observed at abattoirs had increased respiratory rates and muscle tremors, although blood parameters were relatively normal compared to their cohorts. Metabolic acidosis, a precursor for Fatigued Cattle Syndrome, was observed in cattle exposed to aggressive handling regardless of βAA status. This research confirms the improved growth performance of cattle fed βAA and highlights the improvement of animal welfare through shade provision and low-stress handling in heavy-weight feedlot cattle.

Animal welfare

Beta agonist

Beef cattle

Low-stress handling

Pharmacokinetic and pharmacodynamic characterization of inhaled β2 - agonists using the isolated human lung perfusion model / Pharmakokinetische und pharmakodynamische Charakterisierung inhalativer β2 - Agonisten anhand des isolierten humanen Lungenperfusionsmodells

Gnadt, Mirjam

January 2010

The inhaled pharmacotherapy is fundamental in the management of obstructive lung diseases such as asthma bronchiale or chronic obstructive pulmonary disease. In this context short- and long-acting β2-agonists play a prominent role as relieve and control medication. Regarding the risk-benefit profile of an inhaled drug, the pattern of pulmonary deposition and the rate and extent of absorption into systemic circulation are essential parameters. New developments of drugs are characterized by high lung retention and improved efficacy. The aim of the present thesis was the parallel evaluation the pharmacokinetic (PK) and -dynamic (PD) properties of inhaled β2-agonists employing an isolated human lung perfusion model (IPL). The short-acting β2-agonist salbutamol and the newly developed ultra long-acting β2-agonist GW597901 were chosen for the analysis of pulmonary drug absorption and bronchodilation. In a pharmacokinetic enabling study an established human IPL setting was modified to monitor the pharmacokinetics of the β2-agonists by measuring the concentrations in perfusion fluid, lung tissue and BAL samples obtained during and after the experiments. The IPL model revealed differences in the pulmonary absorption behaviour of GW597901 and salbutamol. The lipophilic compound GW597901 was distributed to a lower extent into the perfusion fluid compared to the more hydrophilic compound salbutamol. The analyzed time profiles of nebulized salbutamol in the perfusate were consistent to with a clinical study if considering experimental conditions as the actual deposited doses and the differing volume of distribution. Thus, the suitability of the IPL model for the PK analysis of inhaled β2-agonists was confirmed. In a PK/PD study the human ex vivo model was employed for the first time for the evaluation of the clinical relevant bronchodilating effect induced by inhaled β2-agonists in addition to the analysis of their pharmacokinetics. Thereby the focus was to determine the onset and extent of bronchodilation. A new method was established to monitor changes in lung function parameters due to pharmacodynamic interventions over the duration of the experiment that allowed permanent online recording of the ventilation volume and lung mechanic parameters. Bronchial challenges with aerolised MCh were performed successfully in isolated ventilated human lung lobes, even though the responder rate was lower than expected despite high administered doses. The administration of the short acting agent salbutamol led to an immediate onset of action recognized as a sudden increase of the ventilation volumes. The bronchodilation following the application of GW597901 was observed delayed after about 6 min. Monitored lung function parameters considerably improved by both β2 - agonists in the IPL setting but not significantly different. Thus, in regard of the different applied doses GW597901 had a higher intrinsic activity and bronchodilating potency than salbutamol. The concentrations of salbutamol and GW597901 in the perfusate determined in the PK/PD study were significantly lower than those observed in the pharmacokinetic enabling study, while the tmax values and the course of the distribution profiles remained similar. Most likely, the application of nebulized MCh prior to the administration of the β2 - agonists had a substantial influence on their pharmacokinetic behaviour. It is yet not clear whether pharmacodynamic effects or molecular competition processes for the passage to the systemic circulation or both influenced the redistribution of the β2 - agonists as seen in the PK/PD study. The potential clinical relevance of this observation has to be further investigated. The development of pulmonary edema during the experiment was one limitation of the IPL model. For the determination of the onset of edema formation four potential biochemical markers, specifically surfactant-protein A (SP-A), angiotensin-converting enzyme (ACE), urea and lactate dehydrogenase, were measured in perfusion fluids. In this context, an ELISA method for the quantification of human SP-A in biological matrices was successfully established. The investigations showed that the concentrations of SP-A and ACE in the perfusate increased over time as a sign for lung tissue damage and correlated with the degree of edema formation. For the first time the IPL model was used for the evaluation of potential pulmonary edema marker and the results have shown that it is valuable tool for further investigations in this field. In conclusion, the pharmacokinetic and pharmacodynamic characterization of GW597901 and salbutamol was successfully achieved using the IPL model. This ex vivo methodology may contribute to further insights and understanding of the complex pharmacokinetic processes of inhaled β2 – agonists in the lung. / Die Inhalationstherapie stellt den grundlegenden Baustein in der Behandlung obstruktiver Lungenerkrankungen wie Asthma bronchiale oder chronisch obstruktiver Lungenerkrankung dar. Eine essentielle Rolle spielen dabei kurz- und langwirksame β2 – Agonisten, die sowohl als Bedarfs- und Kontrollmedikation eingesetzt werden. Bei Betrachtung des Nutzen-Risiko-Verhältnisses eines inhalativen Arzneistoffes sind das pulmonale Depositionsmuster und die Geschwindigkeit und das Ausmaß, mit welcher der Arzneistoff in die systemische Zirkulation gelangt, von zentraler Bedeutung. Das Ziel dieser Arbeit war die Bestimmung pharmakokinetischer (PK) und -dynamischer (PD) Eigenschaften inhalativer β2 – Agonisten anhand des isolierten humanen Lungenperfusionsmodells (IPL). Der kurzwirksame β2 – Agonist Salbutamol und der neue langwirksame Vertreter GW597901 dienten dabei als Modellsubstanzen für die Analyse der pulmonalen Absorption und den Effekt der Bronchodilatation. In einer ersten Versuchsreihe wurde das etablierte IPL Modell derart modifiziert, um mittels gemessener Konzentrationen in der Perfusions- und Lavageflüssigkeit sowie in Lungengewebsproben die Pharmakokinetik von β2 – Agonisten zu bestimmen. Das IPL Modell zeigte Unterschiede im pulmonalen Absorptionsverhalten von GW597901 und Salbutamol. Der lipophile Vertreter GW597901 wurde in geringerem Ausmaß in die Perfusionsflüssikeit umverteilt als das hydrophile Salbutamol. Das analysierte Absorptionsprofil von Salbutamol korrelierte dabei sehr gut mit Daten einer Humanstudie, wenn man die experimentellen Bedingungen wie die tatsächlich deponierte Dosis und das abweichende Verteilungsvolumen berücksichtigte. Dadurch war die Eignung des IPL Modells zur PK Analyse inhalativer β2 – Agonisten bestätigt. Zusätzlich zur Betrachtung der PK wurde das humane IPL Modell nun zum ersten Mal zur Untersuchung des klinisch relevanten Effekts der Bronchdilatation der β2 – Agonisten herangezogen. Dabei sollten vor allem der Beginn und das Ausmaß der induzierten Bronchodilatation bestimmt werden. Es konnte erfolgreich eine neue Methode etabliert werden, die es erlaubte durch permanente online Aufzeichnung von Ventilationsparameter Änderungen in der Lungenfunktion darzustellen, die durch pharmakodynamische Interventionen ausgelöst wurden. Erstmals wurde erfolgreich eine bronchiale Provokation an einem ex vivo ventilierten humanen Lungenlappen durchgeführt. Jedoch war trotz hoher verabreichter MCh Dosen die Responderrate niedriger als erwartet. Die Applikation des kurzwirksamen Vertreters Salbutamol führte zu einem sofortigen Effekt. Der Wirkeintritt der Bronchodilatation verursacht durch GW597901 war hingegen um ungefähr 6 Minuten verzögert. Unter Berücksichtigung der unterschiedlichen verabreichten Dosen zeigen diese Ergebnisse eine höhere intrinsische Aktivität und atemwegserweiternde Wirksamkeit von GW597901 im Vergleich zu Salbutamol. Die analysierten Konzentrationen von GW597901 und Salbutamol im Perfusat waren in der PK/PD Studie signifikant niedriger als diejenigen, die in der vorherigen PK Versuchsreihe gemessen wurden, während die jeweiligen Tmax Werte und Umverteilungsprofile unverändert blieben. Die wahrscheinlichste Erklärung hierfür ist, dass die Applikation von MCh vor der Vernebelung der β2 – Agonisten einen erheblichen Einfluß auf deren pharmakokinetischen Verhalten hatte. Gegenwärtig kann nicht mit Sicherheit eine Aussage darüber getroffen werden, ob pharmakodynamische Effekte, Konkurrenzmechanismen um die Aufnahme in den systemischen Kreislauf auf molekularer Ebene oder beides zu einem veränderten Umverteilungsverhalten der β2 – Agonisten in der PK/PD Studie geführt haben. Die Entwicklung von Lungenödemen im Verlauf der Experimente war eine Einschränkung des IPL Modells. Um den Beginn einer Ödembildung besser bestimmen zu können, wurden vier potenzielle biochemische Marker in Perfusatproben untersucht, das Surfactant Protein-A (SP-A), das Angiotensin-konvertierende Enzym (ACE), Harnstoff und das Enzym Lactatdehydrogenase (LDH). Die Untersuchungen haben gezeigt, dass die Konzentrationen von SP-A und ACE im Perfusat über die Zeit als Anzeichen für eine Lungengewebsschädigung in Korrelation zum Ausmaß der Ödembildung anstiegen. Zum ersten Mal wurde das IPL Modell für die Bestimmung von biologischen Markern für pulmonale Ödementstehung herangezogen und die Ergebnisse haben gezeigt, dass dieses ex vivo Modell einen vielversprechenden Ansatz für weitere Untersuchungen in diesem Bereich bietet. Damit konnten erfolgreich Methoden entwickelt werden, um mit Hilfe des humanen IPL Modells die pharmakokinetischen und -dynamischen Eigenschaften von GW597901 und Salbutamol zu charakterisieren. Die angewandte ex vivo Methodik kann hierbei einen wertvollen Beitrag und weiterführende Erkenntnisse zum besseren Verständnis der komplexen pharmakokinetischen Vorgänge inhalativer β2 – Agonisten leisten.

Beta-2-Rezeptor

Agonist

Inhalation

Pharmakokinetik

Pharmakodynamik

ddc:540

Design, synthesis and pharmacological evaluation of certain GABAB agonists / Design, Synthese und pharmakologische Untersuchungen der GABAB-Agonisten

Attia, Mohamad Ibrahim

January 2003

Ziel dieser Arbeit war die Synthese von (RS)-5-Amino-3-aryl(methyl)-pentansäure Hydrochloride, 3-Aminomethyl-5-chlor-benzolsäure Hydrochlorid und(RS)-4-Amino-3-(4´-ethynyl(jod)-phenyl)-butansäure Hydrochloride und die Testung der pharmakologischen Aktivität dieser Verbindungen. Die synthetisierten Verbindungen wurden als GABAB-Rezeptor Agonisten, in einem auf Ca2+-Messungen basierenden Funktional-Assay (in vitro tsA Zellen mit GABAB1b/GABAB2/G&#945;q-z5 transfektiert), getestet und daraus ein Struktur-Aktivitäts Modell abgeleitet. Im allgemein Teil dieser Arbeit wird ein Überblick, über die Neurotransmitter- Rezeptoren (Liganden gesteuerte Ionen-Kanal-Rezeptoren und G Protein-gekoppelte Rezeptoren) des zentralen Nervensystems und deren Agonisten und Antagonisten, gegeben. Eine ausführliche Diskussion zur Synthesestrategie der Verbindungen der Zwischenstufen und der Ausgangsmaterialien wird in den Schemata 2-6 beschrieben. Die synthetisierten Verbindungen wurden als GABAB Agonisten geprüft. Zusätzlich wurden diese im 3D Homologie Modell mit FlexiDock Programm gedockt. Daraus wurde ein Modell zur Voraussage der Aktivität von Analogen und Homologen des Baclofens abgeleitet. Letztendlich wurde ein Pharmakophor-Modell für GABAB Agonisten mit DISCO (DIStance COmparisons) Programm erstellt. / Synthesis of (RS)-5-amino-3-aryl (methyl)-pentanoic acid hydrochlorides, 3 aminomethyl-5-chloro-benzoic acid hydrochloride and (RS)-4-amino-3-(4`-ethynyl(iodo)-phenyl)-butanoic acid hydrochlorides have been accomplished. The aim of their synthesis was to evaluate their GABABR agonist activity and to derive a model which will correlate their structure with the observed pEC50. The GABABR agonist activity of the prepared compounds has been determined in functional assay based on calcium measurement in vitro using tsA cells transfected with GABAB1b/GABAB2/G&#945;q-z5. Reviews on the neurotransmitter receptors (ligand-gated ion channel receptors and G protein-coupled receptors), their agonists and antagonists have been given in the general part of this work. A detailed discussion on the strategy followed for the synthesis of the designed compounds as well as the starting materials and intermediates has been described and illustrated in Schemes 2-6. The synthesized compounds were evaluated for their GABABR agonist activity. Furthermore, these compounds were docked in the available 3D homology model of GABABR using the program FlexiDock implemented in SYBYL software. Subsequently, we derived a predictive model which correlates the experimentally determined pEC50 with the calculated binding energy of certain baclofen analogues and homologues. In addition, we used the program DISCO (DIStance COmparisons) implemented in SYBYL software to find the pharmacophore features of GABAB agonists.

Baclofen

Analoga

GABA-Rezeptor-Agonist

Pharmakologie

ddc:540

Design, Synthesis and Biological Evaluation of Selective Nonpeptide AT2 Receptor Agonists and Antagonists

Wallinder, Charlotta

January 2008

The G protein-coupled receptors (GPCRs) are important targets in drug discovery. In several cases, the endogenous ligands that activate the GPCRs of pharmaceutical interest are peptides. Unfortunately, peptides are in general not suitable as drugs, since the peptide structure is associated with several disadvantages, such as low oral bioavailability, rapid degradation and low receptor subtype selectivity. Thus, there is a strong need for drug-like nonpeptide ligands to peptide-activated GPCRs. However, to discover nonpeptide ligands that mimic the effect of the endogenous peptide, i.e. peptidomimetics, is a tremendous challenge. In fact, morphine and the related opioids were the only known examples of peptidomimetics before 1995 and these ligands were known long before the native endogenous peptide ligands were discovered. The main objective of the work described in this thesis was to design, synthesize and biologically evaluate selective nonpeptide agonists to the peptide-activated GPCR AT2. The AT2 receptor belongs to the renin–angiotensin system, where the octapeptide angiotensin II (Ang II) is the major effector peptide. Ang II mediates its effects through the two GPCRs AT1 and AT2. The AT1 receptor is already an established target in the treatment of hypertension. The physiological role of the AT2 receptor, which is up-regulated in certain pathological conditions, is not fully understood but it seems to include positive effects such as vasodilatation, tissue repair, tissue regeneration and neuronal differentiation. In the current investigation we started from the nonpeptide and nonselective (AT1/ AT2) compound L-162,313. This ligand is a known AT1 receptor agonist but its effect on the AT2 receptor was unknown at the start of this project. We were able to show that it acts as an agonist also at the AT2 receptor. Furthermore, stepwise synthetic modifications of L-162,313 led to the identification of the first selective nonpeptide AT2 receptor agonist. Following the discovery of this compound several selective nonpeptide AT2 receptor agonists were identified. It was also revealed that a minor structural alteration of one of these compounds interconverted the functional activity from agonism to antagonism. The structural requirement for agonism vs antagonism was therefore studied. The functionality switch was suggested, at least partly, to be due to the spatial relationship between the methyleneimidazole group and the isobutyl side chain of the compounds. To further investigate the bioactive conformation(s) of this series of compounds enantiomerically pure analogues with conformationally constrained isobutyl chains were prepared. This study revealed that the direction of the isobutyl side chain determine whether the compounds act as agonists or antagonists at the AT2 receptor. Further investigations are required to fully elucidate the bioactive conformation(s) of these nonpeptide AT2 receptor agonists. We believe that the selective nonpeptide AT2 receptor agonists and antagonists identified in this thesis will serve as important research tools in the continuing investigation of the physiological role of the AT2 receptor. We also believe that these drug-like compounds might provide potential leads in drug discovery processes.

AT2 receptor agonist

AT2 receptor antagonist

Ang II peptidomimetics

Induction of ABCA1 Expression Is Correlated With Increased CREB Phosphorylation and Altered Cytokine Secretion

Zaid, Maryam

18 April 2011

ABCA1 is believed to affect macrophage inflammatory responses, but the mechanism by which ABCA1 may impact cytokine secretion in macrophages has yet to be fully defined. We observed that the induction of ABCA1 expression in three different cell lines, namely BHK, RAW 264.7 macrophages, and primary bone marrow derived macrophages (BMDMs), results in a significant increase in phosphorylated CREB, a known protein kinase A (PKA) substrate. In RAW macrophages, induction of ABCA1 expression by the LXR-agonist T0901317 is correlated with a decrease in LPS-stimulated secretion of proinflammatory cytokines IL-6 and TNF-α. Additionally, the secretion of anti-inflammatory cytokine IL-10 was increased upon ABCA1 induction. A similar trend was observed in BMDMS: ABCA1-expressing BMDMs released less TNF-α and more IL-10 compared to ABCA1-knockout BMDMs. We speculated that the inflammation modulating effects of ABCA1 in macrophages could be a result of PKA activation. Indeed, we found that the LXR-induced ABCA1 phenotype can be mimicked by cAMP in macrophages. 8-bromo-cAMP, a PKA activator, dose-dependently suppressed inflammatory cytokine secretion while promoting IL-10 release in the absence of ABCA1 expression. Finally, we found that the T0901317-induced ABCA1 expression is correlated with higher expression levels of MKP-1, a downstream target of PKA known to suppress inflammatory responses. Together, our results suggest that ABCA1 expression may activate PKA and CREB and that such activation may contribute to the inflammatory modulating effects of ABCA1.

ABCA1

atherosclerosis

LXR-agonist

CREB

MKP-1

PKA

inflammation