Clinicopathological and molecular characterization of gastroesophageal junction (GEJ) adenocarcinoma before age of 40 years

Gastroesophageal junction (GEJ) adenocarcinoma are uncommon before age of 40 years. While certain clinical, pathological and molecular features of GEJ adenocarcinoma in older patients have been extensively studied, these characteristics in the younger population remain to be determined. In the recent literature, a high sensitivity and specificity for the detection of dysplasia and esophageal adenocarcinoma was demonstrated by using multicolor fluorescence in situ hybridization (FISH) DNA probe set specific for the locus specific regions 9p21 (p16), 20q13.2 and Y chromosome. We evaluated 663 patients with GEJ adenocarcinoma and further divided them into 2 age-groups of or= 50 years, rispectively. FISH with selected DNA probe for Y chromosome, locus 9p21 (p16), and locus 20q13.2 was investigated with formalin fixed and parassin embedded tissue from surgical resections of 17 younger and 11 older patients. Signals were counted in > 100 cells with each given histopathological category. The chromosomal aberrations were then compared in the 2 age-groups with the focus on uninvolved squamous and columnar epithelium, intestinal metaplasia (Barrett's mucosa), glandular dysplasia, and adenocarcinoma. Comparisons were performed by the X2 test, Fisher's exact test, Student's t-test and Mann-Whitney U-test as appropriate. Survival was estimated by the Kaplan-Meier method with univariate analysis by the log-rank. Significance was taken at the 5% level. There was no difference in the surgical technique applied in both age groups and most patients underwent Ivor Lewis esophagectomy. Among clinical variables there was a higher incidence of smocking history in older patient group. We identified a progressive loss of Y chromosome from benign squamos epithelium to Barrett's mucosa and glandular dysplasia, and, ultimately, to a near complete loss in adenocarcinoma in both age groups. The young group revealed significantly more losses of 9p21 in both benign and neoplastic cells when compared to the older patients group. In addition, we demonstrated an increase in the percentage of cells showing gain of locus 20q13.2 with progression from benign epithelium through dysplasia to adenocarcinoma with almost the same trend in both the young and the older patients. When compared with the older age-group, younger patients with GEJ adenocarcinoma possess similar known demographics, environmental factors, clinical, and pathologic characteristics. The most commonly detected genetic aberrations of progressive Y chromosomal loss, 9p21 locus loss, and 20q13 gains were similar in the younger and older patients. However the rate of loss of 9p21 is significantly higher in young patients, in both the benign and the neoplastic cells. The loss of 9p21, and possibly, the subsequent inactivation of p16 gene may be one of the molecular mechanisms responsible for the accelerated neoplastic process in young patients.

Molecular analysis of special type breast carcinomas

The project was developed into three parts: the analysis of p63 isoform in breast tumours; the study of intra-tumour eterogeneicity in metaplastic breast carcinoma; the analysis of oncocytic breast carcinoma. p63 is a sequence-specific DNA-binding factor, homologue of the tumour suppressor and transcription factor p53. The human p63 gene is composed of 15 exons and transcription can occur from two distinct promoters: the transactivating isoforms (TAp63) are generated by a promoter upstream of exon 1, while the alternative promoter located in intron 3 leads to the expression of N-terminal truncated isoforms (ΔNp63). It has been demonstrated that anti-p63 antibodies decorate the majority of squamous cell carcinomas of different organs; moreover tumours with myoepithelial differentiation of the breast show nuclear p63 expression. Two new isoforms have been described with the same sequence as TAp63 and ΔNp63 but lacking exon 4: d4TAp63 and ΔNp73L, respectively. Purpose of the study was to investigate the molecular expression of N-terminal p63 isoforms in benign and malignant breast tissues. In the present study 40 specimens from normal breast, benign lesions, DIN/DCIS, and invasive carcinomas were analyzed by immunohistochemistry and RT-PCR (Reverse Transcriptase-PCR) in order to disclose the patterns of p63 expression. We have observed that the full-length isoforms can be detected in non neoplastic and neoplastic lesions, while the short isoforms are only present in the neoplastic cells of invasive carcinomas. Metaplastic carcinomas of the breast are a heterogeneous group of neoplasms which exhibit varied patterns of metaplasia and differentiation. The existence of such non-modal populations harbouring distinct genetic aberrations may explain the phenotypic diversity observed within a given tumour. Intra-tumour morphological heterogeneity is not uncommon in breast cancer and it can often be appreciated in metaplastic breast carcinomas. Aim of this study was to determine the existence of intra-tumour genetic heterogeneity in metaplastic breast cancers and whether areas with distinct morphological features in a given tumour might be underpinned by distinct patterns of genetic aberrations. 47 cases of metaplastic breast carcinomas were retrieved. Out of the 47 cases, 9 had areas that were of sufficient dimensions to be independently microdissected. Our results indicate that at least some breast cancers are composed of multiple non-modal populations of clonally related cells and provide direct evidence that at least some types of metaplastic breast cancers are composed of multiple non-modal clones harbouring distinct genetic aberrations. Oncocytic tumours represent a distinctive set of lesions with typical granular cytoplasmatic eosinophilia of the neoplastic cells. Only rare example of breast oncocytic carcinomas have been reported in literature and the incidence is probably underestimated. In this study we have analysed 33 cases of oncocytic invasive breast carcinoma of the breast, selected according to morphological and immunohistochemical criteria. These tumours were morphologically classified and studied by immunohistochemistry and aCGH. We have concluded that oncocytic breast carcinoma is a morphologic entity with distinctive ultrastructural and histological features; immunohistochemically is characterized by a luminal profile, it has a frequency of 19.8%, has not distinctive clinical features and, at molecular level, shows a specific constellation of genetic aberration.

LBT AO system: tests and calibration

An Adaptive Optic (AO) system is a fundamental requirement of 8m-class telescopes. We know that in order to obtain the maximum possible resolution allowed by these telescopes we need to correct the atmospheric turbulence. Thanks to adaptive optic systems we are able to use all the effective potential of these instruments, drawing all the information from the universe sources as best as possible. In an AO system there are two main components: the wavefront sensor (WFS) that is able to measure the aberrations on the incoming wavefront in the telescope, and the deformable mirror (DM) that is able to assume a shape opposite to the one measured by the sensor. The two subsystem are connected by the reconstructor (REC). In order to do this, the REC requires a “common language" between these two main AO components. It means that it needs a mapping between the sensor-space and the mirror-space, called an interaction matrix (IM). Therefore, in order to operate correctly, an AO system has a main requirement: the measure of an IM in order to obtain a calibration of the whole AO system. The IM measurement is a 'mile stone' for an AO system and must be done regardless of the telescope size or class. Usually, this calibration step is done adding to the telescope system an auxiliary artificial source of light (i.e a fiber) that illuminates both the deformable mirror and the sensor, permitting the calibration of the AO system. For large telescope (more than 8m, like Extremely Large Telescopes, ELTs) the fiber based IM measurement requires challenging optical setups that in some cases are also impractical to build. In these cases, new techniques to measure the IM are needed. In this PhD work we want to check the possibility of a different method of calibration that can be applied directly on sky, at the telescope, without any auxiliary source. Such a technique can be used to calibrate AO system on a telescope of any size. We want to test the new calibration technique, called “sinusoidal modulation technique”, on the Large Binocular Telescope (LBT) AO system, which is already a complete AO system with the two main components: a secondary deformable mirror with by 672 actuators, and a pyramid wavefront sensor. My first phase of PhD work was helping to implement the WFS board (containing the pyramid sensor and all the auxiliary optical components) working both optical alignments and tests of some optical components. Thanks to the “solar tower” facility of the Astrophysical Observatory of Arcetri (Firenze), we have been able to reproduce an environment very similar to the telescope one, testing the main LBT AO components: the pyramid sensor and the secondary deformable mirror. Thanks to this the second phase of my PhD thesis: the measure of IM applying the sinusoidal modulation technique. At first we have measured the IM using a fiber auxiliary source to calibrate the system, without any kind of disturbance injected. After that, we have tried to use this calibration technique in order to measure the IM directly “on sky”, so adding an atmospheric disturbance to the AO system. The results obtained in this PhD work measuring the IM directly in the Arcetri solar tower system are crucial for the future development: the possibility of the acquisition of IM directly on sky means that we are able to calibrate an AO system also for extremely large telescope class where classic IM measurements technique are problematic and, sometimes, impossible. Finally we have not to forget the reason why we need this: the main aim is to observe the universe. Thanks to these new big class of telescopes and only using their full capabilities, we will be able to increase our knowledge of the universe objects observed, because we will be able to resolve more detailed characteristics, discovering, analyzing and understanding the behavior of the universe components.

Untersuchung der Wirkung von Schwerionenstrahlen auf menschliche Hautfibroblasten unter besonderer Berücksichtigung chromosomaler Veränderungen

In der vorliegenden Arbeit wurden humane diploide Vorhaut-Fibroblasten u.a. auf Chromosomensch?den hin untersucht. Die konfluenten Zellen wurden mit d?nnionisierender R?ntgen-und Kohlenstoffstrahlung, sowie mit dichtionisierendenKohlenstoff- und Nickelionen bestrahlt und der chromosomaleSchaden in Intervallen bis zu 100 h nach Bestrahlungbestimmt. Dabei wurde nach dichtionisierender Strahlung ein deutlicher Anstieg in der Frequenz aberranter Zellen undAberrationen je Metaphase mit der Sammelzeit gefunden. Dieszeigt, dass gesch?digte Zellen von Zellzyklusverz'ogerungenst?rker betroffen sind als ungesch?digte Zellen.Durch Integration ?ber die Zeit wurde der genetische Gesamt-schaden in der proliferierenden Zellpopulation bestimmt. Dabei zeigte sich, dass ein Grossteil der Zellen nachTeilchenbestrahlung einen permanenten Zellzyklusarrest bzw.eine beschleunigte Differenzierung erf?hrt. Nur ein kleinerTeil erreicht die 1. Mitose nach Bestrahlung, so dass nurein geringer Teil der genetischen Sch?den auf die folgendenGenerationen ?bertragen wird. Der beobachtete Gesamtschadenist viel kleiner, als anhand von Daten aus Experimenten mitV79-Zellen abgesch?tzt wurde. Die direkte Extrapolation vonDaten etablierter Nagerzellen auf prim?re menschliche Zellenist demnach nicht m?glich. F?r die Beurteilung vonErgebnissen aus Tierexperimenten w?re es w?nschenswert zuwissen, ob die Unterschiede auf der Art der Zellen, alsoetablierten und prim?ren Zellen beruhen, oder von derSpezies abh?ngen.

Mechanismus der Apoptose, Gentoxizität und DNA-Reparatur in Herpesvirus-Thymidinkinase-exprimierenden Säugerzellen nach Behandlung mit Antiherpes-Virustatika vom Typ der Nukleosidanaloga

Um Cytotoxizität und Gentoxizität nukleosidischer Antiherpes-Virustatika zu untersuchen, wurden stabile CHO-Klone etabliert, die Thymidinkinase (TK) des Herpes simplex-Virus Typ 1 (HSV-TK) oder des Varicella zoster-Virus (VZV-TK) exprimieren. In HSV-TK-exprimierenden Zellen wurde das Purinanalogon Ganciclovir (GCV) effizient in die genomische DNA eingebaut, worauf in den nächsten Replikationsrunden DNA-Strangbrüche und Aberrationen entstehen und Apoptose ausgelöst wird. GCV-induzierte Apoptose wird hauptsächlich über den mitochondrialen Weg vermittelt, wobei das anti-apoptotische Protein Bcl-2 im Mittelpunkt steht. Nach GCV-Behandlung konnte eine Caspase-9-vermittelte post-translationale Spaltung von Bcl-2 nachgewiesen werden. Das 23 kDa-großes Bcl-2-Fragment wirkt im Gegensatz zum intakten Bcl-2-Protein pro-apoptotisch und verstärkt die Cytochrom C-Freisetzung und damit die Aktivierung der Caspase-9, die Bcl-2 spaltet, was zu einem positiven 'Amplifikationsloop' des mitochondrialen apoptotischen Weges führt. In weiteren Experimenten wurde gezeigt, daß in die DNA inkorporiertes GCV durch Basenexzisionsreparatur repariert wird, wobei die DNA-Polymerase ß eine entscheidende Rolle spielt. Diese Reparatur führte zu einer signifikanten Reduktion der Apoptose und Klastogenität und damit zur Resistenzsteigerung gegenüber GCV. In VZV-TK-exprimierenden Zellen wurde gezeigt, daß Brivudin (BVDU), gleichermaßen Apoptose und Nekrose induzierte. Für die BVDU-induzierte Cytotoxizität konnte die Hemmung der Thymidylatsynthetase als Ursache identifiziert werden. Im Gegensatz zur GCV-induzierten Apoptose war für die BVDU-induzierte Apoptose der Rezeptor (Fas/CD95/APO-1)-vermittelte Weg von vorrangiger Bedeutung.

Molekularzytogenetische Untersuchungen an Nierenzelltumoren des Menschen

Nierenkarzinome (NZK) des Erwachsenenalters weisen nebenhistologisch-zytologischen Merkmalen typische genetischeCharakteristika auf, die mit dem biologischen Verhalten derTumorzellen korrelieren. Der Nachweis genomischerVeränderungen wird zur Diagnostik und Prognoseeinschätzungvon Tumoren herangezogen. Für die untersuchtenNierentumorerkrankungen wurden lediglich das vonHippel-Lindau Tumorsuppressorgen (VHL) auf Chromosom 3 oderdas MET Proto-Onkogen auf Chromosom 7 als gesichertepathogenetische Faktoren in der Entstehung von NZKidentifiziert. Die vorliegende Arbeit leistet einen Beitragzur molekularen Charakterisierung derNierentumor-Pathogenese. Die gewählten Ansätze umfassen: (A)Die Analyse 91 primärer Nierentumoren mit CGH (comparativegenomic hybridization), (B) die Untersuchung chromosomalerBruchpunkte eines komplex rearrangierten, familiärenNZK-Falles und (C) die Charakterisierung umschriebenerGenomveränderungen im Bereich des VHL-Lokus auf Chromosom 3p25 .(A) Chromosomen-Aberrationen wurden identifiziert undeingegrenzt. Das Auftreten spezifischer chromosomalerAberrationen konnte mit dem dokumentierten Krankheitsverlaufassoziiert werden. Die als progressionsassoziiert oderprognoserelevant identifizierten Chromosomen(bereiche)5(q22-qter), 4, 10, 14q, 17, 6, 8, 9, 12 können alsAusgangspunkte für eine Suche nach subtypspezifischen,relevanten Tumorgenen dienen. (B) Chromosomenanalysen einerFamilie mit Veranlagung für das klarzellige NZK belegteneine Translokation zwischen den Chromosomen 3 und 8 imperipheren Patientenblut. Weitere molekularzytogenetischeUntersuchungen deckten ein komplexes chromosomalesRearrangement t(3;8)(q13.1;p21.1) auf. (C) DieFeinkartierung der Region um den VHL-Genlokus istinsbesondere bei Tumoren ohne molekulargenetischnachzuweisenden VHL-Verlust erforderlich. Zur Identifikationweiterer in dieser Region kartierender, evtl. ko-deletierterTumorsuppressor-Kandidatengene, wurden genomische(PAC)-Sonden isoliert, charakterisiert und zurDeletionskartierung eingesetzt.

Genomisches Imprinting Beckwith-Wiedemann-Syndrom assoziierter Gene

In der vorliegenden Arbeit wurde das Imprinting von Genen der Chromosomenregion 11p15.5 des Menschen und des orthologen murinen Abschnitts 7F5 untersucht. Bei der Analyse der humanen Gene H19, IGF2 und KCNQ1OT1 stand deren Regulation durch differentiell methylierte Regionen (DMR) und die Identifizierung von Methylierungsfehlern bei Patienten mit Verdacht auf Beckwith-Wiedemann Syndrom (BWS) im Vordergrund. Hierzu wurden unmethylierte Cytosinnukleotide durch Bisulfitbehandlung in Uracilnukleotide umgewandelt und PCR-amplifizierte DNA-Fragmente sequenziert. Die elterliche Herkunft der Allele wurde mit Hilfe von Einzelnukleotidpolymorphismen (SNP) bestimmt. Während in der H19-Promotorregion in Lymphozyten eine nur tendenziell allelspezifische Methylierung festgestellt werden konnte, wurde im B1-Repeat der H19/IGF2-Region in allen Kontroll- und 20 Patienten-DNAs eine spezifische Methylierung des väterlichen Allels nachgewiesen. Vier BWS-DNAs zeigten hingegen eine nahezu vollständige Hypomethylierung. In der zwe

Analisi molecolare dei linfomi cutanei aggressivi

I linfomi primitivi cutanei riconosciuti nella classificazione della WHO/EORTC si presentano come “entità cliniche distinte” su base clinica, morfologica, immunofenotipica e molecolare. Il fenotipo linfocitario T helper CD4+ caratterizza i CTCL, ma alcune entità a prognosi aggressiva presentano un immunofenotipo citotossico CD8+. Numerosi studi di citogenetica (CGH) e gene-expression profiling (GEP) sono stati condotti negli ultimi anni sui CTCL e sono state riscontrate numerose aberrazioni cromosomiche correlate ai meccanismi di controllo del ciclo cellulare. Scopo del nostro studio è la valutazione delle alterazioni genomiche coinvolte nella tumorigenesi di alcuni CTCL aggressivi: il linfoma extranodale NK/T nasal-type, il linfoma primitivo cutaneo aggressivo epidermotropo (AECTCL) e il gruppo dei PTCL/NOS pleomorfo CD8+. Il materiale bioptico dei pazienti è stato sottoposto alla metodica dell’array-CGH per identificare le anomalie cromosomiche; in alcuni casi di AECTCL è stata applicata la GEP, che evidenzia il profilo di espressione genica delle cellule neoplastiche. I dati ottenuti sono stati valutati in modo statistico, evidenziando le alterazioni cromosomiche comuni significative di ogni entità. In CGH, sono state evidenziate alcune aberrazioni comuni fra le entità studiate, la delezione di 9p21.3, l’amplificazione di 17q, 19p13, 19q13.11-q13.32 , 12q13 e 16p13.3, che determinano la delezione dei geni CDKN2A e CDKN2B e l’attivazione del JAK/STAT signaling pathway. Altre alterazioni definiscono l’amplificazione di c-MYC (8q24) e CCND1/CDK4-6 (11q13). In particolare, sono state evidenziate numerose anomalie genomiche comuni in casi di AECTCL e PTCL/NOS pleomorfo. L’applicazione della GEP in 5 casi di AECTCL ha confermato l’alterata espressione dei geni CDKN2A, JAK3 e STAT6, che potrebbero avere un ruolo diretto nella linfomagenesi. Lo studio di un numero maggiore di casi in GEP e l’introduzione delle nuove indagini molecolari come l’analisi dei miRNA, della whole-exome e whole genome sequences consentiranno di evidenziare alterazioni molecolari correlate con la prognosi, definendo anche nuovi target terapeutici.

Analisi molecolare delle fasi evolutive della micosi fungoide

Lo scopo del progetto triennale del dottorato di ricerca è lo studio delle alterazioni genetiche in un gruppo di pazienti affetti da micosi fungoide ed un gruppo di pazienti affetti da sindrome di Sezary. Dalle biopsie cutanee è stato estratto il DNA e analizzato, comparandolo con DNA sano di riferimento, utilizzando la tecnica array-CGH, allo scopo di identificare la presenza di geni potenzialmente implicati nel processo di oncogenesi. Questa analisi è stata eseguita, per ogni paziente, su biopsie effettuate ad una fase iniziale di malattia e ad una fase di progressione della stessa. Sugli stessi pazienti è stata inoltre eseguita un’analisi miRNA. Si ipotizza che il profilo d’espressione dei miRNA possa infatti dare informazioni utili per predire lo stato di malattia, il decorso clinico, la progressione tumorale e la riposta terapeutica. Questo lavoro è stato poi eseguito su biopsie effettuate in pazienti affetti da sindrome di Sezary che, quando non insorge primitivamente come tale, si può considerare una fase evolutiva della micosi fungoide. La valutazione delle alterazioni genetiche, ed in particolare la correlazione esistente tra duplicazione e delezione genetica e sovra/sottoespressione genetica, è stata possibile attraverso l’interpretazione e la comparazione dei dati ottenuti attraverso le tecniche array-CGH e miRNA. Sono stati comparati i risultati ottenuti per valutare quali fossero le alterazioni cromosomiche riscontrate nei diversi stadi di malattia. L’applicazione dell’array-CGH e della metodica di analisi mi-RNA si sono rivelate molto utili per l’identificazione delle diverse aberrazioni cromosomiche presenti nel genoma dei pazienti affetti da micosi fungoide e sindrome di Sezary, per valutare la prognosi del paziente e per cercare di migliorare o trovare nuove linee terapeutiche per il trattamento delle due patologie. Lo studio di questi profili può rappresentare quindi uno strumento di grande importanza nella classificazione e nella diagnosi dei tumori.

Caratterizzazione Citogenetico-Molecolare delle alterazioni cromosomiche 3q26 e 1p36 nelle Sindromi Mieloproliferative

L’overespressione dei geni EVI1(3q26) e PRDM16(1p36), è descritta sia in presenza che in assenza di riarrangiamenti 3q26 e 1p36 in specifici sottogruppi citogenetici di LAM, ed è associata ad una prognosi sfavorevole. Lo scopo principale del nostro studio è stato identificare e caratterizzare tramite FISH e RQ-PCR, alterazioni di EVI1 e PRDM16 in pazienti con alterazioni cromosomiche 3q e 1p.Riarrangiamenti di EVI1 si associavano ad alterazioni cromosomiche 3q26, ma, in 6 casi (6/35;17,1%) erano presenti in assenza di coinvolgimenti, in citogenetica convenzionale, della regione 3q26, a causa di meccanismi complessi e/o alterazioni ‘criptiche’. Inoltre, abbiamo identificato quattro nuovi riarrangiamenti di EVI1, tra cui due nuove traslocazioni simili presenti in due fratelli. Riarrangiamenti e/o amplificazioni di PRDM16 erano spesso associate ad alterazioni 1p36 (7/14;50%). L’analisi di EVI1 e PRDM16 è stata estesa ad altri casi con alterazioni -7/7q-, con cariotipo normale, con alterazioni 3q per PRDM16 e con alterazioni 1p per EVI1. L’overespressione di EVI1 era presente solo nel gruppo -7/7q- (10/58;17.2%) ed in un caso si associava ad amplificazione genica, mentre PRDM16 era overespresso in casi di tutti i gruppi analizzati,sia con cariotipi complessi, dove si associava in alcuni casi ad amplificazione genica, sia con cariotipi normali o con singole alterazioni. Il nostro studio dimostra come la FISH permetta di identificare alterazioni dei geni EVI1 e PRDM16, anche in assenza di coinvolgimenti delle regioni 3q26 e 1p36. Riarrangiamenti complessi e/o una scarsa qualità dei preparati citogenetici sono le cause principali per la mancata identificazione di queste alterazioni. La RQ-PCR permette di identificare l’overespressione anche nei casi in cui non sia dovuta ad alterazioni citogenetiche. È importante confermare con FISH e/o RQ-PCR il coinvolgimento di questi due geni, per individuare alla diagnosi pazienti con prognosi sfavorevole e che potranno beneficiare di terapie maggiormente aggressive e/o di trapianto allogenico di cellule staminali.

In vivo consequences of AML1-ETO fusion protein expression for hematopoiesis

The t(8;21) (q22;q22) translocation fusing the ETO (also known as MTG8) gene on human chromosome 8 with the AML1 (also called Runx1 or CBFα) gene on chromosome 21 is one of the most common genetic aberrations found in acute myeloid leukemia (AML). This chromosomal translocation occurs in 12 % of de novo AML cases and in up to 40 % of the AML-M2 subtype of the French-American-British classification. To date, the in vivo function of aberrant AML1-ETO fusion protein expression has been investigated by several groups. However, in these studies, controversial results were reported and some key issues remain unknown. Importantly, the consequences of aberrant AML1-ETO expression for self-renewing hematopoietic stem cells (HSCs), multipotent hematopoietic progenitors (MPPs) and lineage-restricted precursors are not known. rn The aim of this thesis was to develop a novel experimental AML1-ETO in vivo model that (i) overcomes the current lack of insight into the pre-leukemic condition of t(8;21)-associated AML, (ii) clarifies the in vivo consequences of AML1-ETO for HSCs, MPPs, progenitors and more mature blood cells and (iii) generates an improved mouse model suitable for mirroring the human condition. For this purpose, a conditional tet on/off mouse model expressing the AML1-ETO fusion protein from the ROSA26 (R26) locus was generated. rn Aberrant AML1-ETO activation in compound ROSA26/tetOAML1-ETO (R26/AE) mice caused high rates of mortality, an overall disruption of hematopoietic organs and a profound alteration of hematopoiesis. However, since the generalized activity of the R26 locus did not recapitulate the leukemic condition found in human patients, it was important to restrict AML1-ETO expression to blood cell lineages. Therefore, bone marrow cells from non-induced R26/AE mice were adoptively transplanted into sublethal irradiated RAG2-/- recipient mice. First signs of phenotypical differences between AML1-ETO-expressing and control mice were observed after eight to nine months of transgene induction. AML1-ETO-expressing mice showed profound changes in hematopoietic organs accompanied by manifest extramedullary hematopoiesis. In addition, a block in early erythropoiesis, B- and T-cell maturation was observed and granulopoiesis was significantly enhanced. Most interestingly, conditional activation of AML1-ETO in chimeric mice did not increase HSCs, MPPs, common lymphoid precursors (CLPs), common myeloid progenitors (CMPs) and megakaryocyte-erythrocyte progenitors (MEPs) but promoted the selective amplification of granulocyte-macrophage progenitors (GMPs). rn The results of this thesis provide clear experimental evidence how aberrant AML1-ETO modulates the developmental properties of normal hematopoiesis and establishes for the first time that AML1-ETO does not increase HSCs, MPPs and common lineage-restricted progenitor pools but specifically amplifies GMPs. The here presented mouse model not only clarifies the role of aberrant AML1-ETO for shaping hematopoietic development but in addition has strong implications for future therapeutic strategies and will be an excellent pre-clinical tool for developing and testing new approaches to treat and eventually cure AML.rn

The search for Multiple Myeloma Stem cells: molecular characterization and self-renewal mechanisms involved in the disease persistence

The existence of Multiple Myeloma Stem cells (MMSCs)is supposed to be one of the major causes of MM drug-resistance. However, very little is known about the molecular characteristics of MMSCs, even if some studies suggested that these cells resembles the memory B cells. In order to molecularly characterize MMSCs, we isolated the 138+138- population. For each cell fraction we performed a VDJ rearrangement analysis. The complete set of aberrations were performed by SNP Array 6.0 and HG-U133 Plus 2.0 microarray analyses (Affymetrix). The VDJ rearrangement analyses confirmed the clonal relationship between the 138+ clone and the immature clone. Both BM and PBL 138+ clones showed exactly the same genomic macroalterations. In the BM and PBL 138-19+27+ cell fractions several micro-alterations (range: 1-350 Kb) unique of the memory B cells clone were highlighted. Any micro-alterations detected were located out of any genomic variants region and are presumably associated to the MM pathogenesis, as confirmed by the presence of KRAS, WWOX and XIAP genes among the amplified regions. To get insight into the biology of the clonotypic B cell population, we compared the gene expression profile of 8 MM B cells samples 5 donor B cells vs, thus showing a differential expression of 11480 probes (p-value: <0,05). Among the self-renewal mechanisms, we observed the down-regulation of Hedgehog pathway and the iperactivation of Notch and Wnt signaling. Moreover, these immature cells showed a particular phenotype correlated to resistance to proteasome inhibitors (IRE1α-XBP1: -18.0; -19.96. P<0,05). Data suggested that the MM 138+ clone might resume the end of the complex process of myelomagenesis, whereas the memory B cells have some intriguing micro-alterations and a specific transcriptional program, supporting the idea that these post germinal center cells might be involved in the transforming event that originate and sustain the neoplastic clone.

Molekularbiologische Charakterisierung und funktionelle Analyse des in Kopf-Hals-Tumoren überexprimierten Proteins OSF-2

Im Rahmen dieser Arbeit wurde das in Kopf-Hals-Tumoren überexprimierte, hinsichtlich seiner Funktion jedoch kontrovers diskutierte Protein OSF-2 (Osteoblast specific factor-2) molekularbiologisch charakterisiert und funktionell analysiert. Die endogene OSF-2-Expression wurde in verschiedenen Zelllinien, Geweben, sowie in Primärzellen untersucht. Die durch das N-terminale Sekretionssignal verursachte Proteinsekretion konnte sowohl morphologisch als auch biochemisch nachgewiesen werden. In Microarray-Experimenten konnte gezeigt werden, dass sowohl Tumorzellen als auch Tumor- assoziierte Fibroblasten OSF-2 exprimieren, wobei allerdings keine OSF-2-Isoformsignatur nachgewiesen werden konnte. In funktionellen Assays zeigte OSF-2 zwar keinen Einfluß auf die Proliferation von Kopf-Hals-Tumorzellen, stellte sich jedoch als wichtig für die Zellmigration und das Überleben der Zellen unter ungünstigen Wachstumsbedingungen heraus. Diese Ergebnisse konnten anhand von in vivo-Untersuchungen bestätigt werden. Das verbesserte Überleben der Zellen lässt sich wahrscheinlich durch die OSF-2-induzierte Aktivierung des “Survival Pathways“ Akt/PKB über die PI3-Kinase erklären. Bei den im Rahmen dieser Arbeit durchgeführten Untersuchungen humanen Tumorgewebes war es möglich eine neue Tumorzelllinie des frontalen Sinus zu etablieren und charakterisieren. Hierbei konnte gezeigt werden, dass es sich um HPV-negative, morphologisch äußerst heterogene Zellen mit geringer Migrationsgeschwindigkeit handelt, die eine große Zahl an Chromosomenaberrationen aufweisen. Sie konnten ungünstige Wachstumsbedingungen wie Nährstoffmangel besser überleben als die im Vergleich untersuchte Kopf-Hals-Tumorzelllinie und waren dazu in der Lage nach subkutaner Injektion Tumorwachstum in immundefizienten Nacktmäusen zu initiieren. Aus der Tumorzellpopulation isolierte CD133+ Zellen erhöhten die Tumorinitiation erheblich, was auf das Vorhandensein von Tumorstammzellen innerhalb der CD133+ Zellfraktion hindeutet. Um die Bedeutung von OSF-2 als Zielstruktur für neue Krebsmedikamente einschätzen zu können, sind allerdings weitere Informationen über dessen funktionelle Bedeutung notwendig.

Untersuchungen zum Engraftment primärer humaner akuter myeloischer Leukämieblasten in einem immundefizienten Mausmodel

Die akute myeloische Leukämie (AML) stellt ein äußerst heterogenes hämatologisches Krankheitsbild dar, welches durch die unkontrollierte Proliferation unausdifferenzierter und gleichzeitig nicht-funktioneller hämatopoetischer Zellen gekennzeichnet ist. Sowohl die unterschiedliche Zellherkunft, als auch zytogenetische Aberrationen und molekulargenetische Mutationen sorgen für eine große Diversität der Erkrankung. In der Therapie kommen Chemotherapeutika zum Einsatz, welche die Leukämie in eine komplette Remission bringen sollen. Der einzige kurative Ansatz besteht aus der allogenen hämatopoetischen Stammzelltransplantation. Abgesehen von den gewünschten kurativen Effekten, induzieren die im Transplantat befindlichen Spender-T-Lymphozyten ebenfalls die Transplantat-gegen-Wirt Erkrankung – eine Hauptursache von Mortalität und Morbidität nach erfolgter allogener hämatopoetischer Stammzelltransplantation. Da bei vielen Patienten aufgrund ihres Alters und ihrer Begleiterkrankungen eine Transplantation nicht tolerieren und da viele akuten myeloischen Leukämien trotz Chemotherapie progredient sind, schlägt die Therapie fehl und es gibt keine Chance auf Heilung. rnZur Erforschung der pathologischen Prozesse der akuten myeloischen Leukämie sowie für die Entwicklung neuer Therapiekonzepte bedarf es stabiler Tiermodelle, die die maligne Erkrankung des Menschen darstellen können. Ziel der vorliegenden Arbeit war die Untersuchung des Engraftments humaner primärer akuter myeloischer Leukämien in immuninkompetenten NSG-Mäusen. Die Untersuchungen zeigten, dass lediglich 61,5% der getesteten Leukämien in den Versuchstieren nach der Xenotransplantation nachgewiesen werden konnten. Die Gründe hierfür sind noch nicht ausreichend geklärt, beinhalten jedoch vermutlich Elemente des Homings, des Überlebens der Zelle in der fremden murinen Knochenmarknische, der Abwesenheit spezifischer humaner Wachstumsfaktoren, sowie intrinsische Unterschiede unter den verschiedenen Leukämieproben. Leukämien, die mit einer schlechten Prognose beim Patienten verbunden sind, wachsen in den Tieren stärker an. In den Versuchen konnte gezeigt werden, dass Leukämien mit einer Längenmutation des FLT3-Rezeptors eher häufiger in den NSG-Mäusen anwachsen, als wenn diese Mutation fehlt. Die Analyse der erstellten Wachstumskinetiken zweier Leukämien ergab, dass die Höhe des Engraftments in den einzelnen Organen sowohl von der transplantierten Zellmenge, als auch von der Höhe der angesetzten Versuchszeit abhängt. Zudem wurde ein Wachstum humaner T-Lymphozyten in den xenotransplantierten Mäusen beobachtet, welches sowohl mit einem höheren Engraftment der Leukämie in der Maus verbunden war, als auch mit einer höheren Tiersterblichkeit vergesellschaftet war.rnZum Verhindern dieses Wachstums wurden zwei unterschiedliche Methoden angewendet und miteinander verglichen. Dabei erzielten sowohl die medikamentöse Behandlung der Tiere mit dem Calcineurininhibitor Cyclosporin A, als auch die CD3-Depletion der Leukämie vor der Transplantation ein T-Zell-freies Wachstum in den Mäusen, letzteres erwies sich jedoch als das schonendere Verfahren. In den T-Zell-freien Tieren konnte bei dem Großteil der Tiere kein Engraftment im Knochenmark festgestellt werden, was auf einen positiven Einfluss der humanen T-Lymphozyten beim Vorgang des Engraftments schließen lässt.rn

A novel allele of FILAMENTOUS FLOWER reveals new insights on the link between inflorescence and floral meristem organization and flower morphogenesis

Background The Arabidopsis FILAMENTOUS FLOWER (FIL) gene encodes a YABBY (YAB) family putative transcription factor that has been implicated in specifying abaxial cell identities and thus regulating organ polarity of lateral organs. In contrast to double mutants of fil and other YAB genes, fil single mutants display mainly floral and inflorescence morphological defects that do not reflect merely a loss of abaxial identity. Recently, FIL and other YABs have been shown to regulate meristem organization in a non-cell-autonomous manner. In a screen for new mutations affecting floral organ morphology and development, we have identified a novel allele of FIL, fil-9 and characterized its floral and meristem phenotypes. Results The fil-9 mutation results in highly variable disruptions in floral organ numbers and size, partial homeotic transformations, and in defective inflorescence organization. Examination of meristems indicates that both fil-9 inflorescence and floral meristems are enlarged as a result of an increase in cell number, and deformed. Furthermore, primordia emergence from these meristems is disrupted such that several primordia arise simultaneously instead of sequentially. Many of the organs produced by the inflorescence meristems are filamentous, yet they are not considered by the plant as flowers. The severity of both floral organs and meristem phenotypes is increased acropetally and in higher growth temperature. Conclusions Detailed analysis following the development of fil-9 inflorescence and flowers throughout flower development enabled the drawing of a causal link between multiple traits of fil-9 phenotypes. The study reinforces the suggested role of FIL in meristem organization. The loss of spatial and temporal organization of fil-9 inflorescence and floral meristems presumably leads to disrupted cell allocation to developing floral organs and to a blurring of organ whorl boundaries. This disruption is reflected in morphological and organ identity aberrations of fil-9 floral organs and in the production of filamentous organs that are not perceived as flowers. Here, we show the role of FIL in reproductive meristem development and emphasize the potential of using fil mutants to study mersitem organization and the related effects on flower morphogenesis.