Synthese von Sialyl-Lewis X -Glycopeptiden und -Mimetika als Zelladhäsionsinhibitoren für E-Selektin

Die Selektine initiieren im Verlauf von Entzündungsprozessen einen ersten Zellkontakt zwischen Leukozyten und Endothelzellen und ermöglichen so die Auswanderung der Leukozyten aus den Blutgefäßen in das umliegende Gewebe, wo sie ihre immunologische Wirkung entfalten können. Viele Krankheiten gehen allerdings mit einer übermäßigen, durch Selektine vermittelten Zelladhäsion einher. Daher war es das Ziel dieser Arbeit, Selektininhibitoren zu synthetisieren, die pathologische Zelladhäsionsprozesse, wie man sie z.B. bei rheumatoider Arthritis, bei Erkrankungen der Herzkranzgefäße oder im Verlauf von Tumormetastasierungen findet, unterbinden können. Als Leitstruktur für solche Inhibitoren dient das auf den natürlichen Selektinliganden vorkommende Tetrasaccharid Sialyl-Lewis-X. Sialyl-Lewis-X stellt aber nur einen Teil der natürlichen Selektinliganden dar. Es bindet auch nur im millimolaren Bereich an die Selektine. Die komplexen natürlichen Selektinliganden wie z.B. ESL-1 (E-Selektin-Ligand-1), die an verschiedenen Glycosylierungs-stellen des Glycoproteins Sialyl-Lewis-X präsentieren, binden mit deutlich höherer Affinität an die Selektine. Für eine spezifische Rezeptorbindung sind daher außer dem Tetrasaccharid weitere Partialstrukturen verantwortlich, wobei gezeigt werden konnte, dass ein Anknüpfen von Sialyl-Lewis-X-Derivaten an die Partialsequenz 672-681 des ESL-1 eine Affinitätssteigerung hervorruft. Ein weiterer Nachteil des natürlichen Sialyl-Lewis-X-Tetrasaccharids im Hinblick auf seine pharmakologische Verwendung besteht darin, dass sowohl die fucosidische Bindung als auch die glycosidische Verknüpfung zur Neuraminsäure durch Enzyme leicht gespalten werden, wodurch Sialyl-Lewis-X als potenzielles Anti-Adäsionsmolekül an Wert verliert. Um die Kohlenydratliganden vor einem solchen enzymatischen Abbau zu bewahren, wurden in dieser Arbeit neben der im Sialyl-Lewis-X vorliegenden L-Fucose die im Menschen nicht vorkommenden Kohlenhydrate D-Arabinose und L-Galactose sowie neben der Neuraminsäure die (S)-Cyclohexylmilchsäure zur Herstellung der sechs Glycopeptid-Selektinliganden 1-6 mit der Partialsequenz 672-681 des ESL-1 verknüpft. Die Tetrasaccharide und Tetrasaccharid-Mimetika können aus den geschützten Monosacchariden und der geschützten Cyclohexylmilch-säure in parallelen Synthesen im Gramm-Maßstab hergestellt werden. Die automatisierten Glycopeptid-Festphasensynthesen wurden an einem Peptidsynthesizer nach der Fmoc-Strategie unter Verwendung von mit Asparaginsäure vorbeladenen TentaGel®-Harzen durchgeführt. Die Strukturen aller sechs Glycopeptide 1-6 wurden sowohl durch hoch auflösende massenspektrometrische Analysen als auch durch ein- und zweidimensionale NMR-Experimente belegt. Als Ergebnis dieser Arbeit liegen sechs Sialyl-Lewis-X-Glycopeptide und -Mimetika mit der Partialsequenz 672-681 des ESL-1 vor. Diese werden in Kürze auf ihre Wirksamkeit als Zelladhäsions-inhibitoren für E-Selektin getestet. Daraus sollen sich Erkenntnisse über Struktur-Wirkungs-Beziehungen gewinnen lassen, insbesondere was das kooperative Zusammenwirken von Saccharid- und Peptidteilstrukturen in der Erkennung der Liganden durch das E-Selektin anbetrifft.

Helix-coil-transition in solid polypeptides

Abstract Poly(L-glutamic acid) (PLGA) was synthesized by living anionic ring-opening polymerization of the NCA monomer, which was obtained by reacting diphosgene with an amino acid derivative. The chemical structures and thermal properties were characterized by 1H-NMR, 13C-NMR, TGA and DSC. XRD powder patterns found to be amorphous for all polymers obtained. The molecular weights could be determined under severe limitations due to low solubility and high aggregation tendency. The secondary structure of the PLGA films was analyzed in the solid state by IR spectroscopy; the order was determined mainly by XRD. Uniform bulk films (1-5 µm) were produced by drop-casting of PLGA solutions in TFA on silica. The XRD film analysis indicated the absence of a long range order or an orientation even if a helical microstructure was confirmed by IR spectroscopy. The coil solvent TFA delivered constantly a helical or a β-sheet structure in the solid state depending on the water content of the solvent which was observed for the first time to exhibit a high influence on the crystallization process for PLGA. Temperature dependent in-situ IR measurements were examined to analyze if a helix-coil transition occurs, but there could be no solvent system determined, which resulted in a disordered coil structure in the solid state. General parameters like solvent systems, evaporation conditions, concentration, substrates etc. were analyzed. New crystallizations were obtained on silica prepared by drop-casting of solutions of PLGA in DMF, DMA, TMU, NMP, and pyridine/water mixtures, respectively. PSCBC in DMF, CDCl3/TFA-d, and PSBC in CDCl3/TFA-d exhibited the same crystalline diffraction patterns like PLGA. The long range order in the X-ray diffraction pattern is proven by extremely sharp crystalline signals, which are not changing the shape or the position of the peak by increasing the temperature up to 160°C. The substrate seems to play a decisive role because the crystalline structures were not obtainable on glass. The crystal structure consists probably of two different layered structures based on the intensity ratios of the two series of crystalline signals in the X-ray diffraction patterns. The source of the layered structure remains unclear and needs further studies to investigate the spatial arrangement of the chains in more detail. The secondary structure was still not changing upon heating even if a highly crystalline diffraction pattern occurs. Concluding that even the newly investigated crystallization did not show a helix-coil transition in the solid state by annealing, the phenomenon known in solution has to be claimed as unachievable in the solid state based on the results of this work. A remaining open question represents the observation that the same crystalline pattern can be reproducibly prepared with exhibiting two different ordered secondary structures (helix and β-sheet). After the investigation that the evaporation time cannot be decisive for the crystal growth, the choice of a strong hydrogen bonding interrupting solvent is most probably the key to support and induce the crystallization process.

Sensitivity enhancement in NMR by using parahydrogen induced polarization

Enhancing the sensitivity of nuclear magnetic resonance measurements via hyperpolarization techniques like parahydrogen induced polarization (PHIP) is of high interest for spectroscopic investigations. Parahydrogen induced polarization is a chemical method, which makes use of the correlation between nuclear spins in parahydrogen to create hyperpolarized molecules. The key feature of this technique is the pairwise and simultaneous transfer of the two hydrogen atoms of parahydrogen to a double or triple bond resulting in a population of the Zeeman energy levels different from the Boltzmann equation. The obtained hyperpolarization results in antiphase peaks in the NMR spectrum with high intensities. Due to these strong NMR signals, this method finds arnlot of applications in chemistry e.g. the characterization of short-lived reaction intermediates. Also in medicine it opens up the possibility to boost the sensitivity of medical diagnostics via magnetic labeling of active contrast agents. Thus, further examination and optimization of the PHIP technique is of significant importance in order to achieve the highest possible sensitivity gain.rnrnIn this work, different aspects concerning PHIP were studied with respect to its chemical and spectroscopic background. The first part of this work mainly focused on optimizing the PHIP technique by investigating different catalyst systems and developing new setups for the parahydrogenation. Further examinations facilitated the transfer of the generated polarization from the protons to heteronuclei like 13C. The second part of this thesis examined the possibility to transfer these results to different biologically active compounds to enable their later application in medical diagnostics. Onerngroup of interesting substances is represented by metabolites or neurotransmitters in mammalian cells. Other interesting substances are clinically relevant drugs like a barbituric acid derivative or antidepressant drugs like citalopram which were investigated with regard to their applicability for the PHIP technique and the possibility to achievernpolarization transfer to 13C nuclei. The last investigated substrate is a polymerizable monomer whose polymer was used as a blood plasma expander for trauma victims after the first half of the 20th century. In this case, the utility of the monomer for the PHIP technique as a basis for later investigations of a polymerization reaction using hyperpolarized monomers was examined.rnrnHence, this thesis covers the optimization of the PHIP technology, hereby combining different fields of research like chemical and spectroscopical aspects, and transfers the results to applications of real biologally acitve compounds.

Untersuchungen zur asymmetrischen Totalsynthese von Cripowellin

Im Rahmen dieser Arbeit konnten wichtige Schritte auf dem Weg zur asymmetrischen Totalsynthese des Cripowellin-Aglycons gemacht und wichtige Erkenntnisse gewonnen werden. Es gelang dabei, einen Teil des Grundgerüsts des Kerns mit dem entscheidenden stereogenen Zentrum optisch aktiv aufzubauen. Die Aza-Claisen-Umlagerung diente hierbei als Schlüsselschritt zum stereoselektiven Aufbau eines Epoxids. Für die Aza-Claisen-Umlagerung dienten ein Allylamin und ein Säurefluorid als Ausgangsverbindungen. Das Allylamin konnte ausgehend von Piperonylalkohol über sechs Stufen (Schutzgruppen-operationen, Bromierung, metallorganische Reaktionen, Reduktion) mit einem Auxliar versehen und mit einer Gesamtausbeute von 56 % synthetisiert werden. Die Synthese des Säurefluorids konnte im Rahmen dieser Arbeit entscheidend verbessert werden, insbesondere bezüglich der Reinheit. Die Aza-Claisen-Umlagerung zu einem Pentensäurederivat selbst konnte mit einer sehr befriedigenden Ausbeute von 91 % durchgeführt werden. Dabei entstanden zwei Diastereomere im Verhältnis 92:8. Kristallisationsversuche schlugen leider fehl, sodass der Konfigurationsbeweis noch aussteht. Dieses Pentensäurederivat konnte zunächst durch einen Reduktionsschritt und saure Abspaltung der Schutzgruppe und des Auxiliars in ein Benzylchlorid überführt werden, welches dann durch Umsetzung mit Ammoniak zu einem Benzazepinon reagierte, ein weiteres wichtiges Schlüsselintermediat in dieser Synthese. Mit diesem Benzazepinon wurden viele Versuche zur Doppelbindungsfunk-tionalisierung unternommen, so z. B. Dihydroxylierungen und Epoxidierungen. Auch wurde das Amid zum Amin reduziert und mit Pentensäure erneut funktionalisiert. Mit dem so gewonnenen Dien wurden erste Versuche unternommen, über eine Grubbs-Metathese das bicyclische System des Cripowellins aufzubauen, die jedoch scheiterten.

Synthese, biochemische und physikochemische Charakterisierung von Liganden der Glycin-Bindungsstelle des NMDA-Rezeptors

Die exzitatorische Neurotransmission erfolgt über ionotrope Glutamat-Rezeptoren von denen dem NMDA-(N-Methyl-D-aspartat)-Rezeptor durch seine hohe Leitfähigkeit für Ca2+-Ionen eine besondere Rolle zugesprochen wird. Bei seiner Überaktivierung kommt es zu exzitotoxischen Prozessen, die direkt mit neurodegenerativen Erkrankungen einhergehen und nach einem Schlaganfall, bei akuten Epilepsien, Morbus Parkinson, Alzheimer Demenz aber auch im Bereich der neuropathischen Schmerzentstehung eine wichtige Rolle spielen.rnDurch das Eingreifen in die glutamatvermittelten pathologischen Prozesse verspricht man sich daher die Möglichkeit einer Neuroprotektion bei der Therapie verschiedener neurodegenerativer Erkrankungen, die primär auf völlig unterschiedliche Ursachen zurückzuführen sind.rnAusgehend von in früheren Arbeiten synthetisierten Hydantoin-substituierten Dichlor-indol-2-carbonsäure-Derivaten, die hochaffine Eigenschaften zur Glycin-Bindungsstelle des NMDA-Rezeptors aufweisen, sollten neue Derivate entwickelt und untersucht werden, die hinsichtlich ihrer Affinität zur Glycin-Bindungsstelle des NMDA-Rezeptors, ihrer Pharmakokinetik sowie physikochemischen Parameter in präparativ-organischen, radiopharmazeutischen und zell- bzw. tierexperimentellen Studien in vitro sowie in vivo charakterisiert werden sollten. Von besonderem Interesse war dabei die Evaluierung der synthetisierten Verbindungen in einem Verdrängungsassay mit dem Radioliganden [3H]MDL105,519 mit dem der Einfluss der strukturellen Modifikationen auf die Affinität zur Glycin-Bindungsstelle des Rezeptors untersucht wurde, sowie die Selektivität und die Potenz der Liganden abgeschätzt wurde.rnIm Rahmen der Struktur-Wirkungs-Untersuchungen mit Hilfe der Bindungsexperimente konnten bestimmte Strukturmerkmale als essentiell herausgestellt bzw. bekräftigt werden. Die Testverbindungen zeigten dabei IC50-Werte im Bereich von 0,0028 bis 51,8 μM. Die entsprechenden Ester dagegen IC50-Werte von 23,04 bis >3000 μM. Als vielversprechende Strukturen mit Affinitäten im niedrigen nanomolaren Bereich stellten sich Derivate mit einer 4,6-Dichlor-oder Difluor-Substitution am Indolgrundgerüst (2,8 bis 4,6 nM) heraus. Auch die Substitution des Phenylhydantoin-Teils durch das bioisostere Thienylhydantoin führte zu einer gleichbleibenden ausgeprägten Affinität (3,1 nM). rnZur Abschätzung der Bioverfügbarkeit, insbesondere der Fähigkeit zur Überwindung der Blut-Hirn-Schranke, wurden die Lipophilien bei einer Auswahl der Testverbindungen durch Bestimmung ihrer log P-Werte ermittelt. Neben dem Verfahren der potentiometrischen Titration wurde eine HPLC-Methode an einer RP-Phase verwendet.rnUm das Zytotoxizitätsprofil der synthetisierten Strukturen frühzeitig abschätzen zu können, wurde ein schnell durchführbares, zellbasiertes in vitro-Testsystem, der kommerziell erhältliche „Cell Proliferation Kit II (XTT-Test)“, eingesetzt. rnIm Rahmen von Positronen-Emissions-Tomographie-Experimenten an Ratten wurde eine Aussage bezüglich der Aufnahme und Verteilung eines radioaktiv markierten, hochaffinen Liganden an der Glycinbindungsstelle des NMDA-Rezeptors im Gehirn getroffen. Dabei wurden sowohl ein Carbonsäure-Derivat sowie der korrespondierende Ethylester dieser Testung unterworfen.rn

Quantification of plasma carnitine and acylcarnitines by high-performance liquid chromatography-tandem mass spectrometry using online solid-phase extraction

Carnitine is an amino acid derivative that plays a key role in energy metabolism. Endogenous carnitine is found in its free form or esterified with acyl groups of several chain lengths. Quantification of carnitine and acylcarnitines is of particular interest for screening for research and metabolic disorders. We developed a method with online solid-phase extraction coupled to high-performance liquid chromatography and tandem mass spectrometry to quantify carnitine and three acylcarnitines with different polarity (acetylcarnitine, octanoylcarnitine, and palmitoylcarnitine). Plasma samples were deproteinized with methanol, loaded on a cation exchange trapping column and separated on a reversed-phase C8 column using heptafluorobutyric acid as an ion-pairing reagent. Considering the endogenous nature of the analytes, we quantified with the standard addition method and with external deuterated standards. Solid-phase extraction and separation were achieved within 8 min. Recoveries of carnitine and acylcarnitines were between 98 and 105 %. Both quantification methods were equally accurate (all values within 84 to 116 % of target concentrations) and precise (day-to-day variation of less than 18 %) for all carnitine species and concentrations analyzed. The method was used successfully for determination of carnitine and acylcarnitines in different human samples. In conclusion, we present a method for simultaneous quantification of carnitine and acylcarnitines with a rapid sample work-up. This approach requires small sample volumes and a short analysis time, and it can be applied for the determination of other acylcarnitines than the acylcarnitines tested. The method is useful for applications in research and clinical routine.

Sulfoxides as an intramolecular sulfenylating agent for indoles and diverse applications of the sulfide-sulfoxide redox cycle in organic chemistry

This dissertation involves study of various aspects of sulfoxide chemistry. Specifically designed t-butyl and propanenitrile sulfoxides tethered to indole-2-carboxamide were used as a source of intramolecular sulfenylating agents to synthesize novel indolo[3,2-b]-1-5-benzothiazepinones which are structurally analogous to the other biologically active benzothiazepinones. This study reveals that the intramolecular cyclization of sulfoxide follows an electrophilic sulfenylation (Sulfoxide Electrophilic Sulfenylation, SES) reaction pathway. Evidence of the absence of sulfenic acid as a transient reactive intermediate in such intramolecular cyclization is also provided. In another study, sulfoxide was used as a “protecting group” of thioether to synthesize 8-membered, indole substituted, thiazocine-2-acetic acid derivative via Ring Closing Metathesis (RCM). Protection (oxidation) of inert (to RCM) sulfide to sulfoxide followed by RCM produced cyclized product in good yields. Deprotection (reduction) of sulfoxide was achieved using Lawessons Reagent (L.R.). Application of the sulfide-sulfoxide redox cycle to solve the existing difficulties in using RCM methodology to thioethers is illustrated. A new design of a “molecular brake”, based on the sulfide-sulfoxide redox cycle is described. N-Ar rotation in simple isoindolines is controlled by the oxidation state of the proximate sulfur atom. Sulfide [S(II)] shows “free” [brake OFF] N-Ar rotation whereas sulfoxide displayed hindered [brake ON] N-Ar rotation. The semi-empirical molecular orbital (PM3) calculations revealed concerted pyramidalization of amidic nitrogen with N-Ar rotation.

An essential role for nuclear receptors SXR/PXR in detoxification of cholestatic bile acids

Hepatic hydroxylation is an essential step in the metabolism and excretion of bile acids and is necessary to avoid pathologic conditions such as cholestasis and liver damage. In this report, we demonstrate that the human xenobiotic receptor SXR (steroid and xenobiotic receptor) and its rodent homolog PXR (pregnane X receptor) serve as functional bile acid receptors in both cultured cells and animals. In particular, the secondary bile acid derivative lithocholic acid (LCA) is highly hepatotoxic and, as we show here, a metabolic substrate for CYP3A hydroxylation. By using combinations of knockout and transgenic animals, we show that activation of SXR/PXR is necessary and sufficient to both induce CYP3A enzymes and confer resistance to toxicity by LCA, as well as other xenotoxicants such as tribromoethanol and zoxazolamine. Therefore, we establish SXR and PXR as bile acid receptors and a role for the xenobiotic response in the detoxification of bile acids.

Imidoylketene dimerization and rearrangement

FVT of pyrroledione 10 affords the NH-imidoylketene 11, which is characterized by its matrix isolation IR spectrum ( 2117 cm 1). On warming above 170 K, 11 dimerizes to the oxazinone 13, the X-ray crystal structure of which is reported. Imidoylketene 11 also undergoes a (reversible) 1,3-phenyl shift to afford the detectable alpha-oxoketenimine 16 (2062 cm(-1)) which at FVT temperatures above 400degreesC, isomerizes to 2-cyano-2-phenylacetophenone 18 (optimally at 700degreesC). Moreover, imidoylketene 11 can cyclize to azetinone 19, detectable at FVT temperatures up to 570degreesC, which undergoes cycloreversion to diphenylacetylene 20 and isocyanic acid (HNCO) 21. Energy profiles calculated at the B3LYP/6-31G** level for the unsubstituted imidoylketene, the diphenylimidoylketene 11 and the N-tert-butylimidoylketene are also reported.

Studies of the stability and metabolism of tumour inhibitory tetrazinones

Temozolomide is an imidazotetrazinone with antineoplastic properties. It is structurally related to dacarbazine. Temozolomide was not metabolized in vitro by liver fractions. Chemical decomposition appears to play an important r^ole in its in vitro and in vivo disposition. In contrast, 3-methylbenzotriazinone, a structural analogue, was metabolized by hepatic microsomes to afford benzotriazinone and a hydrophilic metabolite. The cytotoxicity of temozolomide, dacarbazine, 5-[3-(hydroxy-methyl-3-methyl-triazen-1-yl]imidazole-5-carboxamide (HMMTIC) and 3-monomethyl-(triazen-1-yl)imidazole-4-carboxamide (MTIC) were investigated in TLX5 murine lymphoma cells. Unlike dacarbazine, which was not toxic, MTIC, HMMTIC and temozolomide were cytotoxic in the absence of microsomes. Decarbazine was only cytotoxic in the presence of microsomes. The formation of MTIC from dacarbazine, HMMTIC and temozolomide was determined by reversed phase high performance liquid chromatography in mixtures incubated under conditions identical to those described before. MTIC was generated chemically from temozolomide and HMMTIC metabolically from dacarbazine. Using [14C]temozolomide, it was found that, in mice, the major route of excretion of the drug is via the kidneys. An acidic metabolite (metabolite I) was found in the urine of mice which had received temozolomide but its identity has not been established. 1H NMR, UV and chemical analyses revealed that Metabolite I possesses an intact NNN linkage and the site of metabolism is at the N3 methyl group. A further acidic metabolite (metabolite II) was found in the urine of patients. Metabolite II was unambiguously identified as the 8-carboxylic acid derivative of temozolomide. In vitro cytotoxicity assay showed that ony metabolite II is cytotoxic but not metabolite I. Pharmacokinetic studies of temozolomide and MTIC in vivo were performed on mice bearing TLX5 tumour. Temozolomide was eliminated from the plasma monophasically with a t1/2 of 0.7hr. MTIC was identified as a product of decomposition. MTIC was eliminated rapidly with a t1/2 of 2min. Though temozolomide shares many biochemical and biological similarities with clinically used dacarbazine, the results obtained in this study show that it differs markedly in its pharmacokinetic properties from dacarbazine, as temozolomide produced relatively sustained plasma levels which were reflected by drug concentrations in the tumour.

Degradation of compounds present in cork boiling water by gamma radiation

Cork boiling water is an aqueous and complex dark liquor with high concentration of phenolic compounds such as phenolic acids and tannins [1, 2], which are considered biorecalcitrants [2]. Ionizing radiation has been widely studied as an alternative technology for the degradation of organic contaminants without the addition of any other (e.g.: Fenton technologies). The aim of this work was to identify the compounds present in cork boiling water and further evaluate the resulting stable degradation products after gamma irradiation. The irradiation experiments of standard solutions were carried out at room temperature using a Co-60 experimental equipment. The applied absorbed doses were 20 and 50 kGy at a dose rate of 1.5 kGy/h, determined by routine dosimeters [3]. The identification of radiolytic products was carried out by HPLC-DAD-ESI/MS. The phenolic compounds were identified by comparing their retention times and UV–vis and mass spectra with those obtained from standard compounds, when available, as well as by comparing the obtained information with available data reported in the literature. Concerning the obtained results and the literature review, the main cork wastewater components are: quinic, gallic, protocatechuic, vanillic, syringic and ellagic acids. Based on this, we used protocatechuic, vanillic and syringic acids as model compounds to study their degradation by gamma radiation in order to identify the corresponding radiolytic products. Standard aqueous solutions were irradiated and the derivatives of each model compound are represented in figure 1. The obtained results seem to demonstrate that the derivatives of the parent compounds could also be phenolic acids, since it was observed the loss of 44 u (CO2) from the [M-H]- ions. Gallic and protocatechuic acids are identified as derivatives of vanillic and syringic acids, and gallic acid as a protocatechuic acid derivative. Compound 5 ([M-H]- at m/z 169) was tentatively identified as 2,4,6-trihydroxybenzoic acid, since its fragmentation pattern (m/z 151, 125 and 107) is similar to that previously reported in literature [4]. The structure of compound 7 was proposed based on the molecular ion and its fragmentation and compound 6 remains unknown.

HPLC-DAD-ESI/MS analysis of phenolic compounds in four tomato varieties and evaluation of the antioxidant capacity

Tomato (Lycopersicon esculentum L.) is the second most important vegetable crop worldwide and a key component in the so-called “Mediterranean diet”. In the Northeastern region of Portugal, local populations still prefer to consume traditional tomato varieties which they find very tasty and healthy, as they are grown using extensive farming techniques. A previous study of our research team described the nutritional value of the round (batateiro), long (comprido), heart (coração) and yellow (amarelo) tomato varieties [1], but the phenolic profile was unknown until now. Thus, the objective of this study was to characterize the phenolic profiles of these four tomato farmers’ varieties by using HPLC-DAD-ESI/MS and evaluate its antioxidant capacity through four in vitro assays based on different reaction mechanisms. A cis p-coumaric acid derivative was the most abundant compound in yellow and round tomato varieties, while 4-O-caffeolyquinic acid was the most abundant in long and heart varieties. The most abundant flavonoid was quercetin pentosylrutinoside in the four tomato varieties. Yellow tomato presented the highest levels of phenolic compounds, including phenolic acids and flavonoids, but the lowest antioxidant activity. In turn, the round tomato gave the best results in all the antioxidant activity assays. This study demonstrated that these tomato farmers’ varieties are a source of phenolic compounds, mainly phenolic acid derivatives [2], and possess high antioxidant capacity [1]; being thus key elements in the diet to prevent chronic degenerative diseases associated to oxidative stress, such as cancer and coronary artery disease.

Nanostructured luminescent chemosensors for environmental and biomedical applications

Nanomaterials are nowadays widely recognised as advantageous sensing tools due to their unique properties. Some natural nanomaterials, such as DNA or hyaluronic acid analysed in this PhD thesis, have an intrinsic biocompatibility that overcomes a series of issues in the field of sensing in biological environments. Therefore, the main aim of this project was to derivatize HA chains with luminescent dyes - both organic and metal complexes - in order to obtain natural polymer-based optical sensors. A derivatization of HA with these moieties was obtained and a photophysical characterization was provided. To prove their sensing ability towards nanomaterials, the interaction with. PluS Nanoparticles, featuring an outer PEG shell, was tested. It was mostly demonstrated that the main features of the luminophores used were present in the HA nanogels as well. For example, HA@Dansyl was proven to be a luminescent probe able to sense different environment polarities. Furthermore, in HA@PA the amount of excimers/monomers emission was found to be relatable to the degree of entanglement of HA chains, that changes upon interactions with nanoparticles. Moreover, two ruthenium bipyridyl derivatives were linked to HA and it was found out that HA interacts with long DNA sequences. Also, the presence of BPA, a small molecule of environmental concern, was detected using (i) an already studied hyaluronic acid derivative with rhodamine (HA@RB) , (ii) a dizinc ruthenium complex coordinating BPA to the metal centres, and (iii) a new probe constituted by PluSNPs@DEAC and HA@RB. Despite all the systems were found to be able to detect BPA, the latter probe presented advantages in terms of sensitivity. Furthermore, the chapter 2 of this thesis is focused on the detection of a NF-κB protein in PC3 cancer cells. via confocal microscopy by following a FRET signal variation on a triplex-hairpin derivatized with a FRET couple of dyes.

The Vitamin A Derivative All-Trans Retinoic Acid Repairs Amyloid-β-Induced Double-Strand Breaks in Neural Cells and in the Murine Neocortex.

The amyloid-β peptide or Aβ is the key player in the amyloid-cascade hypothesis of Alzheimer's disease. Aβ appears to trigger cell death but also production of double-strand breaks (DSBs) in aging and Alzheimer's disease. All-trans retinoic acid (RA), a derivative of vitamin A, was already known for its neuroprotective effects against the amyloid cascade. It diminishes, for instance, the production of Aβ peptides and their oligomerisation. In the present work we investigated the possible implication of RA receptor (RAR) in repair of Aβ-induced DSBs. We demonstrated that RA, as well as RAR agonist Am80, but not AGN 193109 antagonist, repair Aβ-induced DSBs in SH-SY5Y cells and an astrocytic cell line as well as in the murine cortical tissue of young and aged mice. The nonhomologous end joining pathway and the Ataxia Telangiectasia Mutated kinase were shown to be involved in RA-mediated DSBs repair in the SH-SY5Y cells. Our data suggest that RA, besides increasing cell viability in the cortex of young and even of aged mice, might also result in targeted DNA repair of genes important for cell or synaptic maintenance. This phenomenon would remain functional up to a point when Aβ increase and RA decrease probably lead to a pathological state.

Effect of JJYMD-C, a novel synthetic derivative of gallic acid, on proliferation and phenotype maintenance in rabbit articular chondrocytes in vitro

Tissue engineering encapsulated cells such as chondrocytes in the carrier matrix have been widely used to repair cartilage defects. However, chondrocyte phenotype is easily lost when chondrocytes are expanded in vitro by a process defined as “dedifferentiation”. To ensure successful therapy, an effective pro-chondrogenic agent is necessary to overcome the obstacle of limited cell numbers in the restoration process, and dedifferentiation is a prerequisite. Gallic acid (GA) has been used in the treatment of arthritis, but its biocompatibility is inferior to that of other compounds. In this study, we modified GA by incorporating sulfamonomethoxine sodium and synthesized a sulfonamido-based gallate, JJYMD-C, and evaluated its effect on chondrocyte metabolism. Our results showed that JJYMD-C could effectively increase the levels of the collagen II, Sox9, and aggrecan genes, promote chondrocyte growth, and enhance secretion and synthesis of cartilage extracellular matrix. On the other hand, expression of the collagen I gene was effectively down-regulated, demonstrating inhibition of chondrocyte dedifferentiation by JJYMD-C. Hypertrophy, as a characteristic of chondrocyte ossification, was undetectable in the JJYMD-C groups. We used JJYMD-C at doses of 0.125, 0.25, and 0.5 µg/mL, and the strongest response was observed with 0.25 µg/mL. This study provides a basis for further studies on a novel agent in the treatment of articular cartilage defects.