Organocatalytic asymmetric mannich-type reactions: an easy approach to optically active amine derivatives

The topics I came across during the period I spent as a Ph.D. student are mainly two. The first concerns new organocatalytic protocols for Mannich-type reactions mediated by Cinchona alkaloids derivatives (Scheme I, left); the second topic, instead, regards the study of a new approach towards the enantioselective total synthesis of Aspirochlorine, a potent gliotoxin that recent studies indicate as a highly selective and active agent against fungi (Scheme I, right). At the beginning of 2005 I had the chance to join the group of Prof. Alfredo Ricci at the Department of Organic Chemistry of the University of Bologna, starting my PhD studies. During the first period I started to study a new homogeneous organocatalytic aza-Henry reaction by means of Cinchona alkaloid derivatives as chiral base catalysts with good results. Soon after we introduced a new protocol which allowed the in situ synthesis of N-carbamoyl imines, scarcely stable, moisture sensitive compounds. For this purpose we used α-amido sulfones, bench stable white crystalline solids, as imine precursors (Scheme II). In particular we were able to obtain the aza-Henry adducts, by using chiral phase transfer catalysis, with a broad range of substituents as R-group and excellent results, unprecedented for Mannich-type transformations (Scheme II). With the optimised protocol in hand we have extended the methodology to the other Mannich-type reactions. We applied the new method to the Mannich, Strecker and Pudovik (hydrophosphonylation of imines) reactions with very good results in terms of enantioselections and yields, broadening the usefulness of this novel protocol. The Mannich reaction was certainly the most extensively studied work in this thesis (Scheme III). Initially we developed the reaction with α-amido sulfones as imine precursors and non-commercially available malonates with excellent results in terms of yields and enantioselections.3 In this particular case we recorded 1 mol% of catalyst loading, very low for organocatalytic processes. Then we thought to develop a new Mannich reaction by using simpler malonates, such as dimethyl malonate.4 With new optimised condition the reaction provided slightly lower enantioselections than the previous protocol, but the Mannich adducts were very versatile for the obtainment of β3-amino acids. Furthermore we performed the first addition of cyclic β-ketoester to α-amido sulfones obtaining the corresponding products in good yield with high level of diastereomeric and enantiomeric excess (Scheme III). Further studies were done about the Strecker reaction mediated by Cinchona alkaloid phase-transfer quaternary ammonium salt derivatives, using acetone cyanohydrin, a relatively harmless cyanide source (Scheme IV). The reaction proceeded very well providing the corresponding α-amino nitriles in good yields and enantiomeric excesses. Finally, we developed two new complementary methodologies for the hydrophosphonylation of imines (Scheme V). As a result of the low stability of the products derived from aromatic imines, we performed the reactions in mild homogeneous basic condition by using quinine as a chiral base catalyst giving the α-aryl-α-amido phosphonic acid esters as products (Scheme V, top).6 On the other hand, we performed the addition of dialkyl phosphite to aliphatic imines by using chiral Cinchona alkaloid phase transfer quaternary ammonium salt derivatives using our methodology based on α-amido sulfones (Scheme V, bottom). The results were good for both procedures covering a broad range of α-amino phosphonic acid ester. During the second year Ph.D. studies, I spent six months in the group of Prof. Steven V. Ley, at the Department of Chemistry of the University of Cambridge, in United Kingdom. During this fruitful period I have been involved in a project concerning the enantioselective synthesis of Aspirochlorine. We provided a new route for the synthesis of a key intermediate, reducing the number of steps and increasing the overall yield. Then we introduced a new enantioselective spirocyclisation for the synthesis of a chiral building block for the completion of the synthesis (Scheme VI).

Microwave-Mediated Hetero Diels-Alder reaction: Synthesis of biologically active compounds

Heterocyclic compounds represent almost two-thirds of all the known organic compounds: they are widely distributed in nature and play a key role in a huge number of biologically important molecules including some of the most significant for human beings. A powerful tool for the synthesis of such compounds is the hetero Diels-Alder reaction (HDA), that involve a [4+2] cycloaddition reaction between heterodienes and suitable dienophiles. Among heterodienes to be used in such six-membered heterocyclic construction strategy, 3-trialkylsilyloxy-2-aza-1,3-dienes (Fig 1) has been demonstrated particularly attractive. In this thesis work, HDA reactions between 2-azadienes and carbonylic and/or olefinic dienophiles, are described. Moreover, substitution of conventional heating by the corresponding dielectric heating as been explored in the frame of Microwave-Assisted-Organic-Synthesis (MAOS) which constitutes an up-to-grade research field of great interest both from an academic and industrial point of view. Reaction of the azadiene 1 (Fig 1) will be described using as dienophiles carbonyl compounds as aldehyde and ketones. The six-membered adducts thus obtained (Scheme 1) have been elaborated to biologically active compounds like 1,3-aminols which constitutes the scaffold for a wide range of drugs (Prozac®, Duloxetine, Venlafaxine) with large applications in the treatment of severe diseases of nervous central system (NCS). Scheme 1 The reaction provides the formation of three new stereogenic centres (C-2; C-5; C-6). The diastereoselective outcome of these reactions has been deeply investigated by the use of various combination of achiral and chiral azadienes and aliphatic, aromatic or heteroaromatic aldehydes. The same approach, basically, has been used in the synthesis of piperidin-2-one scaffold substituting the carbonyl dienophile with an electron poor olefin. Scheme 2 As a matter of fact, this scaffold is present in a very large number of natural substances and, more interesting, is a required scaffold for an huge variety of biologically active compounds. Activated olefins bearing one or two sulfone groups, were choose as dienophiles both for the intrinsic characteristic flexibility of the “sulfone group” which may be easily removed or elaborated to more complex decorations of the heterocyclic ring, and for the electron poor property of this dienophiles which makes the resulting HDA reaction of the type “normal electron demand”. Synthesis of natural compounds like racemic (±)-Anabasine (alkaloid of Tobacco’s leaves) and (R)- and (S)-Conhydrine (alkaloid of Conium Maculatum’s seeds and leaves) and its congeners, are described (Fig 2).

Aziridinazione stereoselettiva di chetoni α,β-insaturi α-sostituiti via organocatalisi

Il lavoro della presente Tesi è stato lo sviluppo della sintesi asimmetrica di aziridine chirali a partire da chetoni α,β-insaturi α-sostituiti, verificando la possibilità di applicare ammine primarie come organocatalizzatori attraverso un meccanismo tandem ione imminio-enammina. Nelle nostre prove le migliori ammine primarie si sono rivelate gli pseudoenantiomeri 9-ammino-9-deossi-epi-idrochinina e idrochinidina, e i migliori acidi per formare il sale catalitico sono stati acido trifluoroacetico (TFA) e acido salicilico. Il fattore chiave per le reazioni di aziridinazione è stata la scelta della molecola sorgente di azoto, che deve avere comportamento nucleofilico nel primo step di aza-Michael (via ione imminio), e comportamento elettrofilico nello step di chiusura del ciclo (via enammina). Le prove preliminari sono state condotte con il sale catalitico formato dalla 9-ammino-9-deossi-epi-idrochinina e TFA in toluene a 50 °C. Migliori risultati sono stati ottenuti sostituendo la sorgente di azoto utilizzata inizialmente e utilizzando il sale catalitico composto da 9-ammino-9-deossi-epi-idrochinidina e acido salicilico in toluene a 50 °C. In questo caso la resa è stata pari a 56% ed eccesso enantiomerico (ee) del 90%. Sfruttando quindi le condizioni ottimizzate inizialmente, abbiamo provato la reazione su altri due chetoni con maggiore ingombro sterico rispetto a quello utilizzato per l’ottimizzazione iniziale del processo. In entrambi i casi la reattività è stata sensibilmente inferiore a quanto atteso, con rese non superiori al 14%. Inoltre anche i valori di ee sono stati poco soddisfacenti. Ipotizziamo che questi risultati deludenti siano causati dall’ingombro sterico della catena in posizione β che impedisce l’avvicinamento del catalizzatore, il quale, non creando un intorno asimmetrico, non crea una distinzione tra le due possibili direzioni di attacco del nucleofilo. Da questi ultimi risultati sembra che la reazione di aziridinazione da noi ottimizzata sia per ora limitata al solo chetone utilizzato nella fase iniziale del lavoro. Al fine di estendere l’applicazione di queste condizioni, nel futuro saranno effettuate prove anche con altri chetoni α,β-insaturi α-sostituiti, ma che non presentino sostituzione in posizione β, dato che abbiamo osservato che essa rappresenta il maggiore limite per la reattività e selettività. Infine sarà importante determinare la configurazione assoluta del prodotto finora ottenuto, mediante spettroscopia ECD e VCD. E’ infatti importante conoscere tutte le caratteristiche chimiche e fisiche di prodotto ottenuto, in modo da avere maggiore conoscenza del processo da noi sviluppato, per poterlo migliorare ed estenderne l’applicabilità in futuro.

Stereoselective Catalytic Processes for the Synthesis of Polycyclic Aromatic Compounds

In this PhD-thesis, two methodologies for enantioselective intramolecular ring closing reaction on indole cores are presented. The first methodology represents a highly stereoselective alkylation of the indole N1-nitrogen, leading to 3,4-dihydro-pyrazinoindol-1-ones – a structural class which is known for its activity on the CNS and therefore of high pharmacological interest concerning related diseases. In this approach, N-benzyl cinchona-alkaloids were used for the efficient catalysis of intramolecular aza-Michael reactions. Furthermore, computational studies in collaboration with the research group Prof. Andrea Bottoni (Department of Chemistry “G. Ciamician”, Bologna) were accomplished in order to get insight into the key interactions between catalyst and substrate, leading to enantiomeric excesses up to 91%. The results of the calculations on a model system are in accordance with the experimental results and demonstrate the high sensibility of the system towards structural modifications. The second project deals with a metal catalyzed, intramolecular Friedel-Crafts (FC)-reaction on indolyl substrates, carrying a side chain which on its behalf is furnished with an allylic alcohol unit. Allylic alcohols are part of the structural class of “π-activated alcohols” – alcohols, which are more easily activated due to the proximity to a π-unit (allyl-, propargyl-, benzyl-). The enantioselective intramolecular cyclization event is catalyzed efficiently by employment of a chiral Au(I)-catalyst, leading to 1-vinyl- or 4-vinyl-tetrahydrocarbazoles (THCs) under the formation of water as byproduct. This striking and novel process concerning the direct activation of alcohols in catalytic FC-reactions was subsequently extended to similar precursors, leading to functionalized tetrahydro-β-carbolines. These two methodologies represent highly efficient approaches towards the synthesis of scaffolds, which are of enormous pharmaceutical interest and amplify the spectra of enantioselective catalytic functionalisations of indoles.

Effetti clinici e biologici della terapia epigenetica nelle sindromi mielodisplastiche a basso rischio

Background: Nucleoside 5-Azacitidine (5-Aza) in high risk MDS patients (pts) at a dose of 75mg/mq/day subcutaneously for 7 days, every 28 days, induces high hematologic response rates (hematologic improvement (HI) 50-60%, complete remission (CR) 10-30%) and prolongation of survival (at 2 years 50,8%). Aim: The role of 5-Aza in low-risk MDS patients is not well defined but its use in the earlier phases of disease could be more effective and useful to control the expansion of MDS clone and disease progression. In our phase II, prospective, multicentric trial a low-dose schedule of 5-Aza (75 mg/mq daily for 5 consecutive days every 28 days) was given to low-risk MDS pts in order to evaluate its efficacy and tolerability and to identify biological markers to predict the response. Methods: From September 2008 to February 2010, 34 patients were enrolled into the study. Fifteen patients had refractory anemia (RA), 5 patients refractory anemia with ringed sideroblasts (RARS), 7 patients refractory cytopenia with multilineage dysplasia (RCMD) and 7 patients refractory anemia with excess blasts-1 (RAEB-1). All patients failed previously EPO therapy and were in chronic red blood cell (RBC) supportive care with a median transfusions requirement of 4 units/monthly. The response treatment criteria was according to IWG 2006. Results: At present time 31 out of 34 pts are evaluable: 12/31 pts (39%) completed the treatment plan (8 courses), 7/31 pts (22%) performed the first 4 courses, 8/31 (26%) made 1 to 3 courses and 4/31 (13%) died during the treatment period. Out of 12 pts who completed the 8 courses of therapy 10 (83%) obtained an HI, 2/12 (17%) maintained a stable disease. Out of 10 pts who obtained HI, 4 pts (40%) achieved a CR. Generally the drug was very well tolerated. The most commonly reported hematologic toxicities were neutropenia (55%) and thrombocytopenia (19%) but they were transitory and usually no delay of treatment was necessary. 2/4 pts died early after the 1th cycle for septic shock and gastrointestinal hemorrage respectively whereas 2/4 pts died in a condition of stable disease after the 4th cycle for pneumonia and respiratory distress. Samples for biologic studies have been collected from the pts before starting the therapy and at the end of 4th and 8th course. Preliminary data on the lipid signalling pathways suggested a direct correlation between PI-PLC-β1 gene expression and 5-Aza responsiveness. Conclusion: Interim analysis of our study based on the small number of cases who completed the treatment program, shows that 83% of pts obtain an HI and 40% obtain a CR. 4 patients died during the treatment and even if the causes were reported as no related to the therapy it has been considered that caution has to be reserved in given 5-Aza in these pts who are elderly and frail. Preliminary data of PI-PLC-β1 gene expression suggest that this and probably other biological markers could help us to know a priori who are the patients who have more chances to respond.

Applicazioni di 1-azadieni in cicloaddizioni di Diels-Alder enantioselettive organocatalizzate

Lo scopo di questo lavoro è stato quello di studiare dettagliatamente la reattività dell’N-benzilossicarbonil-1-aza-butadiene, utilizzando diversi dienofili in reazioni di Diels-Alder catalitiche enantioselettive promosse da organocatalizzatori bifunzionali in grado di dare interazioni deboli come legami a idrogeno. Questo 1-azadiene infatti può dare in linea di principio sia prodotti derivanti da reazioni di Diels-Alder a domanda elettronica diretta in cui funge da diene, sia reazioni a domanda elettronica inversa in cui il doppio legame terminale dell’1-azadiene, maggiormente reattivo in quanto meno ingombrato, funge da olefina elettronricca (reazione di Povarov). Per effettuare questo studio sono stati provati vari dienofili tra cui olefine elettron povere bi- e monosostituite che portavano alla degradazione del diene; derivati della malimmide e del pirazolo che davano cilcloaddotti derivanti dalla classica cicloaddizione [4+2] Diels-Alder con ottime conversioni in modo altamente diastereoselettivo, ma bassi eccessi enantiomerici ed infine si sono provate diverse immine che portavano al cicloaddotto della reazione di Povarov con ottimi risultati in termini di conversione e buoni eccessi enantiomerici. Quest’ultima applicazione che permette la sintesi di interessanti prodotti variamente funzionalizzabili, sarà oggetto di studio in futuro per ottimizzare le condizioni della reazione.

Stereoselektive Synthese von Stickstoffheterocyclen an Glycosylaminen als chiralen Auxiliaren

Alkaloide, im allgemeinen Stickstoffheterocyclen, sind wichtige Vorläuferverbindungen von pharmakologisch aktiven Substanzen. Die stereoselektive Synthese von Stickstoffheterocyclen ist von großem Interesse für die Entdeckung und Entwicklung von Arzneistoffen.In der Arbeit wurden Glycosylamine vom Typ des 2,3,4,6-Tetra-O-pivaloyl-?-D-galactosylamins bzw. des 2,3,4-Tri-O-pivaloyl-?-D-arabinosylamins zur diastereoselektiven Synthese mehrfach substituierter Stickstoffheterocyclen eingesetzt. In einer Tandem-Mannich-Michael-Reaktion eines Glycosylimins mit dem Danishefsky-Dien wurden die in Position 6 substituierten Dehydropiperidinone aufgebaut. In einer mehrstufigen Synthesesequenz konnte das 4a-Epimere des natürlichen Pumiliotoxin C als Hydrochlorid dargestellt werden.Mittels der Tandem-Mannich-Michael-Reaktion wurden auch 6,6`-disubstituierte Dehydropiperidinone dargestellt. Die Darstellung zweier Aza-spiro-Verbindungen gelang erstmals ausgehend von den Ketonen Cyclohexanon und 3-Methyl-cyclohexanon über die Glycosylketimine. Das in dieser Reaktion gefundene Nebenprodukt N-Glycosyl-6-(2´-oxo-propyl)-2,3 dehydropiperidin-4-on diente als Ausgangssubstanz für die Pinidinolsynthese.In der angewendeten Weise eignen sich Glycosylamine sehr gut für die stereoselektive Synthese von Stickstoffheterocyclen. Meistens werden die chirale Piperidinalkaloidvorläufer in hohen Ausbeuten und Diastereoselektivitäten erhalten.

Aufbau und Kupplung von Schlüsselintermediaten zur enantioselektiven Steroidsynthese

Steroide sind im Organismus weit verbreitete, vielfältig substituierte Naturstoffe mit einem breiten biologischen Wirkungsspektrum. C/D-cis-verknüpfte Steroide kommen in der Natur zwar selten vor, sie sind aber in ihrer pharmakologischen Aktivität nicht weniger interessant. Total- bzw. Partialsynthesen sind bisher in der Literatur kaum beschrieben worden. Die Arbeit beschäftigt sich mit grundlegenden Reaktionen zur enantioselektiven Synthese eines 13,14-cis-verknüpften Steroids. Als Fernziel wurde C/D-cis-verknüpftes Östradiol ausgewählt mit der Option, das Substitutionsmuster dieses Steroids vielfältig variieren zu können. Der Syntheseplan beinhaltet zunächst den Aufbau des Kohlenstoffgerüsts im Sinne einer konvergenten Synthese, abschließende Cyclisierungen sollten dann das vollständige Molekül ergeben. Im Rahmen dieser Arbeit wurde zunächst das C/D-Ringfragment als Allylamin hergestellt. Das Amin ist dabei als chirales Auxiliar ausgelegt. Als A,B-Ringfragment wurden eine Reihe 4-Aryl-2,3-ungesättigte Carbonsäurefluoride synthetisiert. Im Verknüpfungsschritt, einer zwitterionischen Aza-Claisen-Umlagerung, konnten nun beide Fragmente mit hoher simpler, aber mäßiger induzierter Diastereoselektivität gekuppelt werden. Das Entfernen der Doppelbindung im Produkt erwies sich als erhebliche Hürde, die jedoch durch die Verwendung eines Enolethers genommen werden konnte. Das im Rahmen der Arbeit hergestellte Material sollte nun in wenigen Stufen zum C/D- cis-verknüpften Steroid umgesetzt werden können.

Idrossiamminazione asimmetrica di nitroolefine catalizzata da derivati degli alcaloidi della cinchona

Questo lavoro di tesi ha riguardato lo studio della reazione di addizione coniugata enantioselettiva di idrossilammine N-Cbz-protette a nitroolefine, attraverso l’utilizzo di una serie di catalizzatori organici bi-funzionali in grado di attivare contemporaneamente la nucleofilicità dell’idrossilammina, per mezzo di una reazione acido-base, e il trans-β-nitrostirene, attraverso interazione via legame a idrogeno.

Elaeocarpacae-Alkaloide: flexible Synthese optisch aktiver (-) Elaeokanin C Schlüsselbausteine

Kurzzusammenfassung Elaeocarpacae-Alkaloide: flexible Synthesen optisch aktiver (-) Elaeokanin C Schlüsselbausteine Im Tier- und Pflanzenreich sind Alkaloide weit verbreitet und werden von der Biogenese her als Produkte des Aminosäure-Stoffwechsels angesehen. Die Elaeocarpacae-Alkaloide zählen zu den Indolizidinen, welche durch ein Azabicyclo-[4.3.0]-nonan Grundgerüst charakterisiert sind und erstmals Ende der 60er Jahre des letzten Jahrhunderts aus den Blättern der in Neu Guinea beheimateten Ölbaumgewächse isoliert wurden. Für verschiedene Vertreter dieses Alkaloid-Typs wurden sowohl racemische als auch asymmetrische Totalsynthesen entwickelt. Während für das (+) Elaeokanin C bereits Totalsynthesen existieren, gibt es für das (-) Elaeokanin C bis heute keine asymmetrische Synthese. Als Fernziel der vorliegenden Arbeit wurde die erste Totalsynthese von (-) Elaeokanin C ausgewählt. Der Syntheseplan sieht zunächst den diastereoselektiven Aufbau eines optisch aktiven Schlüsselbausteins mit Naturstoff-Stereotriade im Sinne einer konvergenten ex-chiral-pool Synthese vor. Im Rahmen dieser Arbeit konnte dies durch die Aza-Claisen-Umlagerung realisiert werden. Ausgehend von diesem Schlüsselbaustein wurden verschiedene Synthesewege verfolgt um sowohl das Substitutionsmuster der Seitenkette als auch das des Piperidinsegments vielfältig variieren zu können. Die Einführung der Seitenkette erwies sich durch vielfältige Nachbargruppeneffekte wie die unerwünschte 5-exo-trig Cyclisierung zu einem Pyrrolizidin Derivat als große Hürde. Eine geänderte Synthesestrategie mit einem schrittweisen Aufbau der Kette lieferte schließlich den Baustein, aus dem nun in wenigen Stufen das (-) Elaeokanin C sowie vielfältige Analoga herzustellen sein sollten.

La terapia demetilante con 5-azacitidina nelle sindromi mielodisplastiche: esperienza clinica del Nostro Istituto e correlazione con i dati biologici

Sulla base delle evidenze della letteratura (Fenaux, 2009; Lyons, JCO 2009), a partire da Settembre 2004 nel Nostro Istituto sono stati trattati 57 pazienti affetti da Sindrome Mielodisplastica (MDS) mediante terapia demetilante con 5-Azacitidina. Sono stati utilizzati differenti regimi terapeutici a seconda della classe di rischio IPSS: i pazienti a rischio basso/intermedio-1 hanno ricevuto Azacitidina 75 mg/mq/die sottocute per 5 giorni/mese (schema 5) per 8 cicli; i pazienti a rischio alto/intermedio-2 hanno ricevuto Azacitidina 50 mg/mq/die sottocute per 10 giorni/mese (schema 5+2+5) o Azacitidina 75 mg/mq/die per 7 giorni/mese (schema 7) fino a perdita della risposta. Su una casistica totale di 57 pazienti (15 a rischio basso/int-1; 41 rischio alto/int-2), l’87.7% (50 pazienti) sono risultati valutabili. Tra questi le risposte osservate sono state del 68% (34 pazienti), di cui il 14% (7 pazienti) ha ottenuto una Remissione Completa (CR) ed il 54% (27 pazienti) ha ottenuto un Hematologic Improvement (HI). La valutazione della risposta è stata eseguita secondo i criteri dell’International Working Group 2006 (IWG, Cheeson 2006). Le principali tossicità osservate sono state rappresentate da reazioni cutanee locali nel sito d’iniezione, tossicità gastrointestinale (stipsi e/o diarrea), mielotossicità, neutropenia febbrile, sepsi (3 pazienti). Tra i pazienti trattati abbiamo osservato la presenza di risposta ematologica prolungata (≥ 20 mesi) in 10 pazienti (20% dei pazienti valutabili). Inoltre, grazie alla collaborazione con il Dipartimento di Anatomia Umana dell’Università di Bologna (Prof. L. Cocco, Dott.ssa M.Y. Follo), tutti i pazienti trattati sono stati valutati per i livelli di espressione genica e metilazione del gene della fosfolipasi PI-PLC-beta1. I dati biologici così ottenuti sono stati correlati con quelli clinici, evidenziando la presenza di una correlazione tra i livelli di espressione genica e mutilazione della PI-PLC-beta1 e la risposta alla terapia demetilante con 5-Azacitidina.

Metodi euristici per il Vehicle Routing Problem

Il problema della consegna di prodotti da un deposito/impianto ai clienti mediante una flotta di automezzi è un problema centrale nella gestione di una catena di produzione e distribuzione (supply chain). Questo problema, noto in letteratura come Vehicle Routing Problem (VRP), nella sua versione più semplice consiste nel disegnare per ogni veicolo disponibile presso un dato deposito aziendale un viaggio (route) di consegna dei prodotti ai clienti, che tali prodotti richiedono, in modo tale che (i) la somma delle quantità richieste dai clienti assegnati ad ogni veicolo non superi la capacità del veicolo, (ii) ogni cliente sia servito una ed una sola volta, (iii) sia minima la somma dei costi dei viaggi effettuati dai veicoli. Il VRP è un problema trasversale ad una molteplicità di settori merceologici dove la distribuzione dei prodotti e/o servizi avviene mediante veicoli su gomma, quali ad esempio: distribuzione di generi alimentari, distribuzione di prodotti petroliferi, raccolta e distribuzione della posta, organizzazione del servizio scuolabus, pianificazione della manutenzione di impianti, raccolta rifiuti, etc. In questa tesi viene considerato il Multi-Trip VRP, in cui ogni veicolo può eseguire un sottoinsieme di percorsi, chiamato vehicle schedule (schedula del veicolo), soggetto a vincoli di durata massima. Nonostante la sua importanza pratica, il MTVRP ha ricevuto poca attenzione in letteratura: sono stati proposti diversi metodi euristici e un solo algoritmo esatto di risoluzione, presentato da Mingozzi, Roberti e Toth. In questa tesi viene presentato un metodo euristico in grado di risolvere istanze di MTVRP in presenza di vincoli reali, quali flotta di veicoli non omogenea e time windows. L’euristico si basa sul modello di Prins. Sono presentati inoltre due approcci di local search per migliorare la soluzione finale. I risultati computazionali evidenziano l’efficienza di tali approcci.

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.

Identifizierung und Charakterisierung T-zellerkannter tumorassoziierter Antigene im Melanommodell D41

In der vorliegenden Arbeit wurden Zielstrukturen autologer, tumorreaktiver CD8+ T-Zellen im Modell des Melanompatienten D41 charakterisiert, der im metastasierten Stadium nach Vakzinierung mit autologen dendritischen Zellen und bestrahlten Tumorzellen eine dauerhafte komplette Remission erreichte (O´Rourke et al., Melanoma Res. 17:316, 2007). Aus kryokonservierten Blutlymphozyten verschiedener Zeitpunkte wurden durch Stimulation mit autologen Tumorzellen (D41-MEL) in unabhängigen gemischten Lymphozyten-/Tumorzell-Kulturen (MLTCs) tumorreaktive CD8+ T-Zellen angereichert. Als Erstes wurde überprüft, ob sie gegen bekannte Melanomantigene in Assoziation mit den HLA-Klasse I-Allelen des Patienten gerichtet waren. Dabei zeigten sich Reaktivitäten gegen das melanosomale Differenzierungsantigen Melan-A mit HLA-A*0201 und darüber hinaus gegen die Cancer/Testis-Antigene (CTA) MAGE-A3 und MAGE-A6 mit HLA-A*0101, sowie NY-ESO-1, MAGE-A4 und MAGE-A10 mit HLA-A*0201. In einem zweiten Schritt wurde mit T-Zell-Klonen aus D41-MLTC 2, die keines dieser Antigene erkannten, eine cDNA-Expressionsbank von D41-MEL gescreent. Dies führte zur Klonierung einer für TSPY 1 (testis-specific protein Y-encoded 1) kodierenden cDNA mit einem der T-Zell-Klone. Er erkannte mit hoher Affinität die synthetischen TSPY 1-Peptide LLDDIMAEV (Aminosäurepositionen 66-73) und LLLDDIMAEV (Aminosäurepositionen 65-73) in Assoziation mit HLA-A*0201. Serologische Immunantworten gegen das als CTA einzustufende TSPY 1 sind bekannt. In der vorliegenden Arbeit wurde erstmals eine T-Zell-Antwort gegen TSPY 1 nachgewiesen. TSPY 1 trägt mutmaßlich zu Entstehung des Gonadoblastoms bei, seine Expression wurde jedoch z.B. auch in Seminomen, Leberzellkarzinomen und Melanomen nachgewiesen. Die Expression von TSPY 1 in der Zelllinie D41-MEL-Zellen war sehr heterogen. Einzelne Klone der Linie exprimierten TSPY 1 auf stabil hohem, andere Klone auf ebenso stabil intermediärem bzw. nicht detektierbarem Niveau. Die Expression und die Erkennung durch TSPY 1-reaktive T-Zell-Klone wurde durch die demethylierende Substanz 5-Aza-2´-deoxycytidine gesteigert. Dies spricht für eine Promotor-Hypermethylierung als Ursache fehlender bzw. niedriger Expression, wie dies für verschiedene CTA zutrifft. Die im Blut des Patienten D41 detektierbare antitumorale T-Zell-Reaktivität war bereits vor der Vakzinierung mit Tumorzellen nachweisbar und hatte sich somit spontan entwickelt. Ihre Individualität war vorgegeben durch das Antigenexpressionsmuster der D41-Tumorzellen, sowie durch den HLA-Phänotyp und mutmaßlich auch das T-Zellrepertoire des Patienten. Die detaillierte Analyse komplexer antitumoraler T-Zellantworten legt den Grundstein für eine Immuntherapie, die sich auf das tatsächliche Potential des individuellen T-Zellsystems stützen kann.