Illuminating Actionable Biology in Breast Cancer: Novel Predictive and Prognostic Biomarkers

Bellos, Angela Ogden

10 May 2017

Assessing hormone receptors (the estrogen and progesterone receptors) and the human epidermal growth factor receptor 2 (HER2) to guide clinical decision making revolutionized treatment for breast cancer patients. However, in the years since these biomarkers were first incorporated into routine clinical care, only a few others have been validated as clinically useful in guiding adjuvant chemotherapy decisions and are recommended by the American Society of Clinical Oncology (ASCO) for patients with hormone-positive breast cancer. For patients with triple-negative breast cancer (TNBC), which lacks hormone and HER2 receptors, not any of these biomarkers are recommended by ASCO due to insufficient evidence that they meaningfully improve clinical outcomes. Breast cancer is the second-leading cause of cancer-related death among women in the US, indicating an unmet need to improve treatments, which can be accomplished in part by identifying and validating novel predictive and prognostic biomarkers that yield actionable information about the clinical course of breast cancers, especially TNBCs. A major obstacle to improving outcomes for breast cancer patients is intratumor heterogeneity (ITH), which can be extensive in breast cancer and drives treatment resistance and relapse. I envision that assaying drivers of ITH can inform clinicians about which breast tumors may be intrinsically more aggressive and carry a greater risk of breast cancer-related morbidity and mortality. My research, presented here, primarily focuses on testing the impact of drivers of ITH (namely, centrosome amplification [CA], the clustering protein KIFC1, and mitotic propensity and its drivers) on clinical outcomes in breast cancer in multivariable models as well as the correlates of in vitro efficacy of centrosome declustering drugs (which can selectively eliminate cancer cells with CA). Collectively, these studies reveal gene signatures and immunohistochemical biomarkers that are independent predictors of aggressive breast cancer course and rational strategies to optimize targeted therapy to combat cancer cells exhibiting CA, thereby contributing to the literature on the development of precision medicine for breast cancer patients, including TNBC patients.

Chromosomal instability

proliferation

Ki67

HSET

HER3

EGFR

RARA

racial disparity

Hair cell regeneration in vestibular epithelia : a study in an in vitro model

Werner, Mimmi

January 2016

Background Hair cells (HCs) are the sensory receptors in both the auditory and the vestibular organs of the inner ear. Supporting cells (SCs) are non-sensory cells embracing the HCs. Injuries of the HCs by aging, acoustic trauma or ototoxic drugs (mainly aminoglycosides, e.g. gentamicin) and cisplatin, often cause permanent impairment of hearing and balance. Birds and amphibians can regenerate their auditory and vestibular HCs after injury through proliferation of SCs or direct transdifferentiation of a SC into a HC. For mammals this ability is limited and spontaneous HC regeneration occurs only in the vestibular sensory epithelia. The utricle is one of the five vestibular organs and contributes to our balance by registering linear acceleration and head tilts. The aim of this PhD thesis was to investigate morphological and morphometric events during spontaneous HC regeneration following gentamicin exposure in neonatal rat utricular explants. Methods Long-term organ culture of macula utriculi, which is stable and reproducible for up to 28 days in vitro (DIV), was used in all papers in the thesis. HC damage was induced by gentamicin. On 2 DIV the explanted utricular maculae were divided into two groups, a control group and a gentamicin-exposed group. In the latter group macular explants were exposed to gentamicin for 48 hours during 2-3 DIV and then allowed to recover. Morphologic and morphometric evaluations were done from utricles harvested at various time points during 28 DIV. Imaging techniques used were light microscopy, including immunohistochemistry, and transmission electron microscopy. Results In the control group the epithelia were well preserved with a slight decline in HC density after 14 DIV. In the gentamicin-exposed group there was an initial substantial decline in HC density and thereafter the proportion of HCs in relation to SCs increased significantly. Using BrdU as a proliferation marker and myosin 7a as a HC marker, we found no cells that were double marked. At the ultrastructural level, the apical occlusion of the explanted epithelia was intact in both the control and the gentamicin exposed group during the entire in vitro period. Cells that seemed to be in a transitional state, transforming from SCs into HCs were observed in the gentamicin-exposed group. These cells had cytoplasmic extensions basally i.e. foot processes, an assembly of mitochondria basally in the cell or in these foot processes, and often apical SC extensions covering the HC. HCs classified as transitional cells had an increased number of SC connections to their basal parts compared to mature HCs. Conclusions  In these neonatal rat utricular explants: - The morphological structure of the sensory epithelia was well preserved during long-term culture. - The renewal of hair cells after gentamicin exposure occurred through direct transdifferentiation of supporting cells into hair cells. - There was also a proliferative response by the supporting cells, but this supporting cell proliferation did not contribute to the generation of new hair cells. - Cells in a transitional state, showing a characteristic morphology, were observed during the process of transdifferentiation from supporting cells into hair cells. - The tight junctional seal of the epithelia stayed morphologically intact also after gentamicin exposure. - Gap junctions were observed in between supporting cells but not found in between hair cells and supporting cells or between transitional cells and supporting cells.

Vestibular hair cell

regeneration

transdifferentiation

proliferation

utricle

rat

Direct And Indirect Targets Of Jagged1/notch1 Signaling In Reactive Astrocytes.

LeComte, Matthew David

01 January 2014

Stroke or cerebral vascular accident (CVA) is the 4th leading cause of mortality and the principle cause of long-term disability in the United States. Unfortunately, current reperfusion-based treatments (e.g. thrombolysis, tPA) cannot be administered to the majority of patients presenting with ischemic stroke. Accordingly, new treatments for ischemic stroke are desperately needed. Reactive astrocytes perform key roles in tissue repair and remodeling following stroke such as preservation and repair of the blood-brain barrier, modulation of immune cell invasion, glutamate uptake and neuroprotection, and glial scar formation. The proliferative subpopulation of reactive astrocytes found immediately adjacent to the infarct core after stroke (known as the peri-infarct area) is particularly important for protecting the brain parenchyma from ischemic damage and inflammation. Defining the signaling network that controls reactive astrocyte formation and function has potential to provide new treatment strategies for patients ineligible for reperfusion therapy. Notch1 signaling is required for the proliferation of peri-infarct reactive astrocytes after stroke. To identify downstream targets and potential functional effectors of Notch1 signaling in reactive astrocytes, we developed an ex vivo forward signaling screen. To generate large quantities of adult reactive astrocytes, we employed adult Reactive astrocyte-derived Neural Stem Cells (Rad-NSCs) isolated from the peri-infarct area of mice after stroke. Astrocytes re-differentiated from Rad-NSCs (AstroRad-NSC) were then exposed to immobilized Jagged-1, a Notch1 ligand. In response to Jagged-1, many genes involved in reactive astrocyte-mediated tissue protection, metabolic regulation, angiogenesis and glial scar formation were up-regulated. Of special interest, several genes for proteins that regulate with glutamate uptake and metabolism were increased by Jagged-1/Notch signaling, including the glial-specific GLutamate-ASpartate Transporter (GLAST). With loss-of-function experiments, we determined that deletion of Notch1 decreased GLAST transcript and protein levels in cultured AstroRad-NSC. Furthermore, we isolated reactive astrocytes directly from cerebral cortex after stroke and confirmed the effects of Notch1 on GLAST in vivo. Our results suggest that treatments designed to stimulate Notch1 signaling after stroke may promote glutamate uptake, thereby decreasing excitotoxicity and neuronal cell death. Binding of Endothelin peptides to the type B Endothelin receptor (ETBR) has been shown to alter cell proliferation. Investigating a possible relationship between Jagged-1/Notch1 and Endothelin signaling in reactive astrocytes, we determined that Notch1 signaling regulated ETBR indirectly, by activating STAT3, an unidentified transcriptional activator of ETBR. Using inducible transgenic astrocyte-specific conditional knockout (cKO) mice (GFAP-ETBR-cKO), we found that specific deletion of ETBR in reactive astrocytes phenocopied the defect in reactive astrocyte proliferation observed in our previous work with GFAP-Notch1-cKO mice. Notably, the Notch1-STAT3-ETBR axis we identified is likely to control reactive astrocyte proliferation in most, if not all, forms of CNS injury. The experimental results presented in this doctoral dissertation provide novel insight into signaling mechanisms that may someday be exploited to improve care for patients with stroke and other forms of CNS injury or disease.

Endothelin

Notch

proliferation

Reactive Astrocytes

stroke

Medical Sciences

Neurosciences

Vitamin D receptor (VDR) polymorphisms: effect on VDR levels and cell proliferation in EBV transformed B-lymphocytes.

15 May 2008

The vitamin D receptor (VDR) is a transcription factor mediating genomic responses to the biologically active form of vitamin D, 1,25(OH)2D3, a key modulator of the immune system. Knowledge on how these polymorphisms modulate the vitamin D endocrine system and confer risk of disease is hindered by the fact that several of the associated allelic variants are located in introns or are synonymous and likely serve as markers within an extended haplotype covering disease-causing alleles. The functional relevance of VDR polymorphisms need to be studied in the context of the haplotype, comparing haplotypes with the process of DNA transcription, protein levels and biological function. These functional studies should be performed using techniques reflecting the in vivo, naturally occurring milieu as close as possible. VDR has several known allelic variants including a FokI restriction fragment length polymorphism in exon II, BsmI and ApaI polymorphisms in the intron VIII, and a synonymous TaqI variant in exon IX. The aim of the current study was the identification of sequence variants in VDR, to define haplotype patterns in the Caucasian population and to understand the functional consequences of single nucleotide polymorphisms (SNPs) and haplotypes. Methods: EBV transformed B-lymphocyte cell lines, from twenty-three individuals, within the Caucasian population were established. Polymorphisms and haplotypes in VDR were identified by genotyping and sequencing. Quantification of the VDR protein level measured with flow cytometry was studied together with the genotype and haplotype data to determine possible influence of genotypes or haplotype and VDR protein levels. Biological function was analysed by the percentage inhibition that each individual experienced in the presence of 1,25(OH)2D3, measured by the Alamar Blue assay and the Trypan blue dye exclusion method. Results: The results showed thatVDR genotypes and haplotypes may not influence VDR protein level although certain genotypes and haplotypes significantly influenced biological function. It was proposed that VDR variants may account for significant influences on cellular responsiveness to 1,25(OH)2D3 as mediated by VDR. Conclusions: The findings of the current study suggest that individual SNPs and haplotypes of VDR influences quality of the repose in the presence of 1,25(OH)2D3, rather than quantity of the VDR levels. This knowledge may permit a rational choice of polymorphisms to use in epidemiology studies or improve our understanding of the significance of VDR genetic polymorphisms on biological function. Keywords: functionality, polymorphism, haplotype, vitamin D receptor, VDR, 1,25(OH)2D3, structure-function analysis, biological responsiveness. / Prof. L. Bornman

Epstein-Barr virus diseases

lymphocytes

cell proliferation

B Cells

Signalmechanismen der epithelialen Proliferation und DIfferenzierung / Signal mechanisms of Proliferation and Differentiation in Epithelia

Giner, Martin

January 2007

Gestörte Proliferations- und Differenzierungsprozesse in Keratinozyten spielen eine wichtige Rolle in der Pathogenese vieler Hauterkrankungen. Intrazelluläre Signalmechanismen, die die korrekte Balance zwischen epidermaler Proliferation und Differenzierung aufrecht halten, sind bis jetzt größtenteils unbekannt. Einer dieser ausschlaggebenden Transkriptionsfaktoren ist der Nukleäre Faktor-kappaB (NF-kB). Uns interessierte der Einfluss des IKK/IkBa/NF-kB-Signalweges auf das intrinsische Differenzierungsprogramm von Keratinozyten. Mittels retroviraler Infektion wurden sowohl in primären Keratinozyten als auch in HaCaT verschieden mutante Formen von Faktoren des NF-kB-Signalweges eingebracht: dominant negative (dn) Formen der IKK1 und IKK2, eine konstitutiv aktive Form der IKK2 (IKK2 EE) und eine nicht-degradierbare Form des Inhibitors IkBa. Zusätzlich wurden auch pharmakologische Inhibitoren von NF-kB (BAY 11-7082 und SC-514) untersucht. Die Funktionalität der Mutanten wurde im Westernblot durch Analyse der IkBa Degradation überprüft. Anschließend wurde die Differenzierung der Keratinozyten durch Erhöhung des extrazellulären Calciums induziert. Der Grad der Differenzierung wurde durch morphologische Studien und Untersuchung der Expression der Differenzierungs-marker p21 und Involucrin untersucht. Im Gegensatz zu Ergebnissen aus Tiermodellen, konnten wir keine Effekte der mutierten IkB Kinasen 1 und 2 auf die Calcium-induzierte in vitro Differenzierung beobachten. Jedoch wurde die Aktivierung inflammatorischer Gene, gemessen an der Induktion von ICAM-1 und IL-8 nach TNF-a Stimulation, vollständig in den IKK2 KD und mut IkBa exprimierenden Zellen inhibiert. In der Zelllinie, welche die entsprechende IKK1 Mutante trug, wurde deren Expression nur teilweise geblockt. Zusammenfassend lässt sich aus unseren Ergebnissen schließen, dass zumindest in vitro IKK1 und IKK2 nicht an der Regulation des Calcium-induzierten intrinsischen Differen-zierungsprozesses von Keratinozyten beteiligt sind, jedoch eine zentrale Rolle in der inflammatorischen Aktivierung dieser Zellen spielen. / Disturbed proliferation and differentiation processes of keratinocytes play a major role in the pathogenesis of many skin diseases. Intracellular signalling mechanisms which regulate the balance between epidermal proliferation and differentiation, however, are thus far largely unknown. Earlier reports suggest a role for the transcription factor nuclear factor–kappaB (NF-kB) in such processes. Here we attempted to analyze the impact of the IKK/IkBa/NF-kB signalling pathway on the intrinsic differentiation process of keratinocytes. Primary human keratinocytes as well as HaCaT cells were retrovirally infected to express different mutant forms of components of the IKK/NF-kB pathway: dominant negative (dn) mutants of NF-kB upstream kinases IKK1 and IKK2, a constitutive active form of IKK2 (IKK2 EE), and a non degradable mutant form of IkBa. In addition, pharmacological inhibitors of the pathway such as BAY 11-7082 and SC-514 were analysed. Proper functionality of the generated mutants was subsequently confirmed by Western blot analysis monitoring induced IkBa degradation. Thereafter, differentiation of keratinocytes was induced by elevation of extracellular calcium levels. The differentiation state of keratinocytes was then assessed by studying morphology and expression of differentiation markers such as p21 as well as involucrin. In contrast to data reported from animal models, we could not detect any effects of mutated IKK1 or IKK2 on the calcium-induced intrinsic differentiation program in keratinocytes. However, inflammatory activation of keratinocytes as measured by TNF-a-mediated up-regulation of ICAM-1 and IL-8 was almost completely inhibited in cells expressing dn IKK2 and the IkBa mutant form whereas it was only partly blocked in IKK1dn cells. In conclusion, our data suggest that, in least in vitro, IKK1 and IKK2 are not involved in the regulation of calcium-induced keratinocyte differentiation while they are pivotal for inflammatory activation of these cells.

NF-kappaB

Keratinozyten

Involucrin

Differenzierung

Proliferation

inflammatorische Antwort

ddc:570

Wachstumsverhalten und Expansionskapazität humaner mesenchymaler Stammzellen aus Pankreas und Knochenmark / Growth and expansion potential of human mesenchymal stem cells derived from pancreas and bone marow

Rothhammer, Veit

January 2008

Primäre Nestin-positive adulte Stamm-/Vorläuferzellen aus menschlichen Langerhans'schen Inseln besitzen einen mesenchymalen Charakter und das prinzipielle Potenzial zur in vitro-Differenzierung in Insulin produzierende Phänotypen. Allerdings ist die Entwicklung effektiver Differenzierungsstrategien bisher noch nicht gelungen. Dies ist unter anderem durch das limitierte Wachstumsverhalten dieser Primärzellen in Kultur begründet, das in der vorliegenden Arbeit ausführlich charakterisiert wurde. So besitzt die Gesamtpopulation aus pankreatischen humanen Langerhansschen Inseln auswachsender Zellen (hIZ) ein begrenztes Wachstumspotenzial von im Mittel 19 Passagen. Diese Tatsache limitiert zum einen die Entwicklung von Protokollen zur Differenzierung dieser Zellen und führt zum anderen zu einer Limitierung der Vision in vitro vermehrbaren und differenzierbaren Vorläuferzellmaterials, das nach Differenzierung transplantiert werden und in vivo die beta-Zellfunktion ersetzen könnte. Vor diesem Hintergrund zeigt die vorliegende Arbeit anhand des Nestin-positiven und mesenchymalen Zellmodells der menschlichen Knochenmarksstammzelllinie hMSC-TERT weiterhin, dass sich eine gentechnisch induzierte transiente und stabile Überex-pression des wachstums- und proliferationsassoziierten Proteins p8 fördernd auf das Wachstumsverhalten dieser Zelllinie auswirkt. Dieser Effekt beruht, wie an stabil generierten p8-überexprimierenden Zelllinien gezeigt werden konnte, zum einen auf der Steigerung der Proliferationsrate. Zum anderen ist das verbesserte Wachstumsverhalten jedoch auch auf eine bis dato unbekannte Verminderung der basalen Apoptoserate von hMSC-TERT zurückzuführen. Das Protein p8 konnte erstmals als molekularer Mediator des Wachstums und Überlebens mesenchymaler Nestin-positiver und zu beta-Zellähnlichen Phänotypen differenzierbarer Vorläuferzellen charakterisiert werden. Es kann somit einen entscheidenden Beitrag zur Lösung des Problems begrenzten differenzierbaren Stammzellmaterials auf der Suche nach einer zellbasierten kurativen, breit und risikoarm einsetzbaren Therapiestrategie für den Diabetes mellitus leisten. / The definitive treatment of type 1 diabetes, namely transplantation of isolated pancreatic islets, is limited by rareness of donor organs. Generation of insulin producing cells from human pancreatic islet derived nestin+ precursors is well feasible and has recently been demonstrated (Zulewski et al, Diabetes 50:521, 2001). We therefore characterized a putative stem population of human islet-derived progenitor cells grown out of human pancreatic islets (hIZ). As we show here, these cells have a mesenchymal phenotype, express the filament protein nestin and feature a mean life span of 16 passages with continuous decrease of growth from passage 6 until growth arrest. This hampers the development of efficient differentiation strategies. We therefore tested the growth enhancing properties of the proliferation associated protein p8 in human nestin+ hMSC-TERT bone marrow derived adult stem cells, which share a similar phenotype as hIZ and have excellent differentiation potential not only into endocrine phenotypes. hMSC-TERT cells were transfected with CMV promoter driven p8-IRES-GFP or mock-IRES-GFP vectors. Transient transfection results in significantly increased numbers of GFP+ cells after 12 and 18 hours which remain elevated for up to 30 h. Loss of growth induction at later timepoints is caused by dilution of cellular plasmid content during mitosis. In contrast, stably transfected and selected subclones with p8 overexpression display durable significant augmentation of growth index (cell numbers) by 1.75 fold mock, respectively. This effect is not only due to an extensive increase in proliferation (BrdU+ cells, 2,7 fold mock) but also to a decrease in basal apoptosis (Caspase+ cells, -40% mock), as we could demonstrate. We characterized p8 as a potent molecular mediator of growth and expansion of mesenchymal stem cells such as hMSC-TERT and hIZ acting through both induction of cell proliferation and inhibition of apoptosis. These properties of p8 may be useful in the development of stem cell based tissue regeneration strategies by providing sufficient supply of homogeneous and fast-growing stem cell cultures for differentiation. In this way, the problem of limited availability of human donor material for definitive treatment of diabetes mellitus type 1 could be solved.

Adulte Stammzelle

Bauchspeicheldrüse

Knochenmark

Proliferation

Apoptosis

Diabetes mellitus

ddc:610

Regulation der Proliferation und Differenzierung hämatopoetischer Vorläuferzellen durch zyklische Nukleotide / Cyclic nucleotide regulated proliferation and differentiation vary in human hematopoietic progenitor cells

Brich, Sonja, geb. Heeg

January 2009

In dieser Arbeit wurde in humanen CD34-positiven Stammzellen die PK-G, PK-A sowie ihr Substratprotein VASP nachgewiesen. Dabei liegt VASP in unstimulierten Zellen in nicht-phosphorylierter Form vor. Die VASP-Phosphorylierung kann durch die aus anderen Zellsystemen bekannten cAMP- und cGMP- abhängigen Signalkaskaden auch im Zellkultursystem von humanen CD34-positiven Stammzellen reguliert werden. Ein weiterer Teilaspekt war der Einfluss des cGMP-erhöhenden Stickstoffmonoxyd-Donors DEA/NO auf das Proliferations,- und Differenzierungsverhalten humaner CD34-positiver Stammzellen. Hierbei fand sich ein dualer konzentrationsabhängiger Effekt von cGMP: niedrige Konzentrationen zeigten einen hemmenden Einfluss auf die Proliferation undgleichzeitig einen aktivierenden Effekt auf die Differenzierung der hämatopeotischen Zellen zu CD41-positiven Megakaryozyten. Die höhere Konzentration von DEA/NO beinflusst zwar das Zellwachstum positiv, die Differenzierung der CD34-positiven Zellen hingegen wird gehemmt. Eine Zelldifferenzierung von humanen CD34-positiven Stammzellen zu CD15-positiven Granulozyten /Monozyten unter DEA/NO war nicht zu beobachten. Zusammenfassend konnte in der vorliegenden Arbeit gezeigt werden, dass Signalwege, die über zyklische Nukleotide reguliert werden, eine wichtige Rolle in Proliferations- und Differenzierungsvorgängen humaner hämatopoetischer Progenitorzellen spielen. Damit stehen diese Signalwege prinzipiell als Grundlage für neue pharmakologische Therapieoptionen zu Verfügung. / In the present study, the effects of cyclic nucelotide-elevating agents on hematopoietic progenitor cells (HPC) were investigated. HPC contained cyclic guanosine monophosphate (cGMP)-dependent and cyclic adenosine monophosphate (cAMP)-dependent protein kinases G and A (PKG and PKA) and also one of their substrate, the vasodilator-stimulated phosphoprotein (VASP). HPCs from healthy persons and patients with tumors were isolated from peripheral blood or leukapheresis materials and analyzed for proliferation and differentiation into megakaryocytic or granulocytic lineages. Stimulation of PKG in HPCs showed a biphasic reaction: low cGMP concentrations inhibited proliferation and stimulated differentiation into megakaryocytes, whereas high concentrations revealed the opposite effect. In contrast, differentiation into granulocytes was inhibited in a concentration-dependent manner. In summary cyclic nucleotide-regulated pathways are clearly involved in HPC differentiation and proliferation. Pharmacological strategies using cyclic nucleotide elevating substances to influence HPC growth and differentiation in the bone marrow might support current strategies in HPC recovery from the peripheral blood.

Cyclonucleotide

Zelldifferenzierung

Proliferation

ddc:610

Die Rolle der Serin/Threonin Kinase Cot in Proliferation, Differenzierung und Apoptose

Matenia, Dorthe

January 2000

Mitogene Signale werden von der Plasmamembran zum Zellkern über komplexe z.T. miteinander verknüpfte Signaltransduktionskaskaden übertragen. In der vorliegenden Arbeit wurde das Proto-Onkoprotein Cot als eine neue Komponente von mitogenen Signalkaskaden identifiziert, die die Fähigkeit hat, sowohl die klassische mitogene Kaskade als auch den JNK-Streß-Kinaseweg zu aktivieren. Wildtyp und aktiviertes Cot phosphorylieren und aktivieren MEK-1 und SEK-1 in vitro. Expression von onkogenem Cot in 293-, NIH3T3- und PC12- Zellen führt auch in vivo zu einer Phosphorylierung der endogenen Proteine c-Jun und ERK-1/2. In Bezug auf diese Fähigkeit, zwei unterschiedliche Signalkaskaden zu stimulieren, wurden die biologischen Effekte von Cot auf verschiedene Zelltypen, sowie seine tumorauslösende Wirkung in der Maus untersucht. Expression von onkogenem c-Raf-1 oder v-Mos führt zu einer Differenzierung in PC12-Zellen. Cot induziert ebenfalls Neuritenbildung in diesen Zellen. Ähnlich wie v-raf hat onkogenes cot eine antiapoptotische Wirkung auf 32D-Zellen nach IL-3-Entzug. In neugeborenen NSF/N-Mäusen induzierte retroviral-exprimiertes onkogenes Cot nach einer Latenzzeit von 7-10 Wochen B-Zell-Lymphome vergleichbar mit v-raf/v-myc induzierten Tumoren [191]. Diese Daten stimmen mit der Rolle von Cot in der klassischen mitogenen Kaskade überein und lassen darauf schließen, daß die simultane Aktivierung von JNK in diesem Zusammenhang keinen antagonistischen Effekt hat. Aktives NF-kB reguliert die Transkription einer Reihe von Ziel-Genen, die in verschiedenen zellulären Funktionen involviert sind. Viele Stimuli, Mitglieder der mitogenen Kaskade eingeschlossen, aktivieren NF-kB, so z.B. auch c-Raf-1, das mit Cot überlappende Effekte auf Apoptose-Suppression, Transformation und Differenzierung aufweist und auf der gleichen Ebene zu funktionieren scheint. In der vorliegenden Arbeit wurde gezeigt, daß Cot NF-kB aktiviert, dieses aber indirekt durch einen autokrinen Loop geschieht, der den EGFR und die Streß-Kinasekaskade involviert. Mit c-Raf-1 konnten in unserem Labor bereits ähnliche Ergebnisse gezeigt werden [234]. Eine direkte Interaktion zwischen Cot und der NF-kB-Aktivierung konnte durch die Identifikation von p105, einem Vorläuferprotein und Regulator von NF-kB, als Cot-Interaktionspartner in einem Two-Hybrid Screen gefunden werden. Die Tatsache, daß Cot mit IKKa und IkBa, beides NF-kB-Regulatoren, copräzipitiert, deutet ebenfalls auf einen direkten Mechanismus der Cot-abhängigen NF-kB-Aktivierung hin. Dieser Prozeß wird hauptsächlich durch den Transport der Komponenten des NF-kB-Transkriptionsfaktorkomplexes und seiner Regulatoren zwischen Zytosol und Nukleus kontrolliert. Das kleine G-Protein Ran spielt eine kritische Rolle in derartigen Transportprozessen und wurde interessanterweise ebenfalls in einem Two-Hybrid Screen als neuer Interaktionspartner von Cot identifiziert. Durch Coimmunopräzipitationsexperimente konnte dieses Ergebnis bestätigt werden. Diese Daten weisen auf einen neuen Mechanismus der NF-kB-Regulation durch Cot hin und geben neue Ansätze, die komplexen Funktionen von Cot in der Zelle zu diskutieren und weiter zu analysieren. / Mitogenic signals initiated at the plasma membrane are transmitted to the nucleus through complex and partially connected signal transduction cascades. The proto oncoprotein Cot was identified in this thesis as a new component of mitogenic signalling cascades, which activates both, the classic cytoplasmic cascade and the JNK stress pathway. Wildtype and activated Cot phosphorylate and activate MEK-1 and SEK-1 in vitro. Moreover, expression of oncogenic Cot in 293, NIH3T3 and PC12 cells leads to phosphorylation of endogenous c-Jun and ERK 1/2 in vivo. To test the relevance of the ability of Cot to stimulate two different signalling cascades we have examined the effects of Cot on different cell types as well as on tumor induction in mice. Expression of oncogenic c-Raf-1 or v-Mos leads to differentiation of PC12 cells. Cot induces as well neurite outgrowth in these cells. Furthermore, oncogenic Cot shows similar to v-raf an antiapoptotic effect on 32D cells after IL-3 deprivation. Retrovirally expressed oncogenic Cot induces B-cell lymphomas in newborn NSF/N mice after a latency of 7-10 weeks similiar to v-raf/v-myc [191]. This data are consistent with the role of Cot in the classic mitogenic cascade and suggest that the simultaneously activated JNK stress pathway has no antagonistic effects in this context. Active NF-kB regulates transcription of a variety of target genes involved in distinct cellular functions. Many stimuli activate NF-kB including members of the mitogenic cascade, e.g. c-Raf-1, which seems to function on the same level as oncogenic Cot and has partially overlapping effects on apoptosis suppression, transformation and differentiation. The work presented in this thesis demonstrates that Cot activates NF-kB and that this activation occurs indirectly via an autocrine loop which involves the EGF-receptor and also results in the activation of the stresskinase pathway. Similar results have been obtained in our lab in the past with Raf-1 [234]. An additional more direct pathway from Cot to NF-kB activation was demonstrated by our identification of p105, a precursor protein and regulator of NF-kB, as Cot interaction partner in a Two-hybrid screen. Furthermore, Cot coprecipitates with IKKa and IkBa, which are both regulators of NF-kB. The process of NF-kB activation is mainly controlled by the shuttling of components of the active transcription factor complex as well as of its regulators between cytosol and the nucleus. It is assumed that the small GTPase Ran plays a crucial role in these transports. Interestingly, we observed in a Two-hybrid screen that Ran is interacting with Cot which also was confirmed by coimmunoprecipitation experiments. These results point to a new mechanism of NF-kB regulation by activated Cot and gives new starting points to analyse the complex functions of Cot in the cell.

Protein-Serin-Threonin-Kinasen

Apoptosis

Proliferation

Zelldifferenzierung

Molekularbiologie

ddc:570

Verstärkung und Modulation der Immunantwort der Ratte mit Hilfe eines superagonistischen, CD28-spezifischen, monoklonalen Antikörpers / Amplification and modulation of the immune response of the rat by means of a superaonistic, monoclonal, anti-CD28-specific antibody

Elflein, Karin

January 2004

In der vorliegenden Arbeit wurden die in-vivo-Effekte eines „superagonistischen“ mAks mit Spezifität für den kostimulierenden Rezeptor CD28 der Ratte untersucht. Dieser Antikörper unterscheidet sich von konventionellen CD28-spezifischen mAk durch seine Fähigkeit, T Zellen auch ohne Ligation des TZR und damit polyklonal zu aktivieren. Die so ausgelöste Expansion der T Zellen verläuft so schnell und effizient wie eine durch Antigen gesteuerte Proliferation; die überproportionale Vermehrung anti-inflammatorischer regulatorischer T Zellen während der initialen Expansionsphase ist vermutlich für das Ausbleiben toxischer Effekte im Zuge der polyklonalen TZellvermehrung verantwortlich. / The present project focuses on the mitogenic effects of the superagonistic rat anti- CD28 mAb, with particular emphasis on its ability to activate and expand residual, mature T cells in lymphopenic rats in a TCR independent manner. The CD28 superagonist possesses the capacity to initiate T cell activation without TCR engagement. The resulting polyclonal T cell expansion is as rapid and efficient as an antigen driven proliferation, and its additional property to transiently increase the frequency of antiinflammatory regulatory T-cells is likely to be responsible for the of toxic side-effects during CD28-driven polyclonal T-cell expansion.

Antigen CD28

T-Lymphozyt

Proliferation

Ratte

ddc:570

Approaches for raising the level of FOXO3a in animal cells

Unknown Date

The turtle is a unique model of anoxic survival. The turtle's brain can tolerate total oxygen deprivation for hours to days as well as prevent high levels of mitochondrial-derived free radicals upon re-oxygenation. Because of its ability to prevent elevated free radical generation, the turtle has also become recognized as a model of exceptional longevity. We are employing the turtle model for an investigation into the regulation of a key antioxidant enzyme system - methionine sulfoxide reductases (Msrs), primarily MsrA and MsrB. The Msr system is capable of reversing oxidation of methionines in proteins and Msr subtypes have been implicated in protecting tissues against oxidative stress, as well as, enhancing the longevity of organisms from yeast to mammals. Preliminary data, unpublished results, indicate that MsrA protein and transcripts are elevated by anoxia. A recent study on Caenorhabditis elegans demonstrated that FOXO is involved in activation of the MsrA promoter. Using the turtle MsrA promoter sequence we worked to determine which regions in the promoter are necessary for activation by anoxia. The results of the present study were 1) to prepare a TAT-FOXO3a fusion protein which could penetrate animal cells and 2) to construct a FOXO3a expression vector for transcription studies on MsrA expression. / by Diana Navarro. / Thesis (M.S.)--Florida Atlantic University, 2012. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2012. Mode of access: World Wide Web.

Cellular signal transduction

Cell proliferation

Oxidative stress--Prevention

Adaptation (Physiology)