Individualisierte Krebstherapie : präklinischer „proof of concept“ einer mutationsspezifischen Immuntherapie

Da nicht-synonyme tumorspezifische Punktmutationen nur in malignen Geweben vorkommen und das veränderte Proteinprodukt vom Immunsystem als „fremd“ erkannt werden kann, stellen diese einen bisher ungenutzten Pool von Zielstrukturen für die Immuntherapie dar. Menschliche Tumore können individuell bis zu tausenden nicht-synonymer Punktmutationen in ihrem Genom tragen, welche nicht der zentralen Immuntoleranz unterliegen. Ziel der vorliegenden Arbeit war die Hypothese zu untersuchen, dass das Immunsystem in der Lage sein sollte, mutierte Epitope auf Tumorzellen zu erkennen und zu klären, ob auf dieser Basis eine wirksame mRNA (RNA) basierte anti-tumorale Vakzinierung etabliert werden kann. Hierzu wurde von Ugur Sahin und Kollegen, das gesamte Genom des murinen B16-F10 Melanoms sequenziert und bioinformatisch analysiert. Im Rahmen der NGS Sequenzierung wurden mehr als 500 nicht-synonyme Punktmutationen identifiziert, von welchen 50 Mutationen selektiert und durch Sanger Sequenzierung validiert wurden. rnNach der Etablierung des immunologischen Testsysteme war eine Hauptfragestellung dieser Arbeit, die selektierten nicht-synonyme Punktmutationen in einem in vivo Ansatz systematisch auf Antigenität zu testen. Für diese Studien wurden mutierte Sequenzen in einer Länge von 27 Aminosäuren genutzt, in denen die mutierte Aminosäure zentral positioniert war. Durch die Länge der Peptide können prinzipiell alle möglichen MHC Klasse-I und -II Epitope abgedeckt werden, welche die Mutation enthalten. Eine Grundidee des Projektes Ansatzes ist es, einen auf in vitro transkribierter RNA basierten oligotopen Impfstoff zu entwickeln. Daher wurden die Impfungen naiver Mäuse sowohl mit langen Peptiden, als auch in einem unabhängigen Ansatz mit peptidkodierender RNA durchgeführt. Die Immunphänotypisierung der Impfstoff induzierten T-Zellen zeigte, dass insgesamt 16 der 50 (32%) mutierten Sequenzen eine T-Zellreaktivität induzierten. rnDie Verwendung der vorhergesagten Epitope in therapeutischen Vakzinierungsstudien bestätigten die Hypothese das mutierte Neo-Epitope potente Zielstrukturen einer anti-tumoralen Impftherapie darstellen können. So wurde in therapeutischen Tumorstudien gezeigt, dass auf Basis von RNA 9 von 12 bestätigten Epitopen einen anti-tumoralen Effekt zeigte.rnÜberaschenderweise wurde bei einem MHC Klasse-II restringierten mutiertem Epitop (Mut-30) sowohl in einem subkutanen, als auch in einem unabhängigen therapeutischen Lungenmetastasen Modell ein starker anti-tumoraler Effekt auf B16-F10 beobachtet, der dieses Epitop als neues immundominantes Epitop für das B16-F10 Melanom etabliert. Um den immunologischen Mechanismus hinter diesem Effekt näher zu untersuchen wurde in verschieden Experimenten die Rolle von CD4+, CD8+ sowie NK-Zellen zu verschieden Zeitpunkten der Tumorentwicklung untersucht. Die Analyse des Tumorgewebes ergab, eine signifikante erhöhte Frequenz von NK-Zellen in den mit Mut-30 RNA vakzinierten Tieren. Das NK Zellen in der frühen Phase der Therapie eine entscheidende Rolle spielen wurde anhand von Depletionsstudien bestätigt. Daran anschließend wurde gezeigt, dass im fortgeschrittenen Tumorstadium die NK Zellen keinen weiteren relevanten Beitrag zum anti-tumoralen Effekt der RNA Vakzinierung leisten, sondern die Vakzine induzierte adaptive Immunantwort. Durch die Isolierung von Lymphozyten aus dem Tumorgewebe und deren Einsatz als Effektorzellen im IFN-γ ELISPOT wurde nachgewiesen, dass Mut-30 spezifische T-Zellen das Tumorgewebe infiltrieren und dort u.a. IFN-γ sekretieren. Dass diese spezifische IFN-γ Ausschüttung für den beobachteten antitumoralen Effekt eine zentrale Rolle einnimmt wurde unter der Verwendung von IFN-γ -/- K.O. Mäusen bestätigt.rnDas Konzept der individuellen RNA basierten mutationsspezifischen Vakzine sieht vor, nicht nur mit einem mutations-spezifischen Epitop, sondern mit mehreren RNA-kodierten Mutationen Patienten zu impfen um der Entstehung von „escape“-Mutanten entgegenzuwirken. Da es nur Erfahrung mit der Herstellung und Verabreichung von Monotop-RNA gab, also RNA die für ein Epitop kodiert, war eine wichtige Fragestellungen, inwieweit Oligotope, welche die mutierten Sequenzen sequentiell durch Linker verbunden als Fusionsprotein kodieren, Immunantworten induzieren können. Hierzu wurden Pentatope mit variierender Position des einzelnen Epitopes hinsichtlich ihrer in vivo induzierten T-Zellreaktivitäten charakterisiert. Die Experimente zeigten, dass es möglich ist, unabhängig von der Position im Pentatop eine Immunantwort gegen ein Epitop zu induzieren. Des weiteren wurde beobachtet, dass die induzierten T-Zellfrequenzen nach Pentatop Vakzinierung im Vergleich zur Nutzung von Monotopen signifikant gesteigert werden kann.rnZusammenfassend wurde im Rahmen der vorliegenden Arbeit präklinisch erstmalig nachgewiesen, dass nicht-synonyme Mutationen eine numerisch relevante Quelle von Zielstrukturen für die anti-tumorale Immuntherapie darstellen. Überraschenderweise zeigte sich eine dominante Induktion MHC-II restringierter Immunantworten, welche partiell in der Lage waren massive Tumorabstoßungsreaktionen zu induzieren. Im Sinne einer Translation der gewonnenen Erkenntnisse wurde ein RNA basiertes Oligotop-Format etabliert, welches Eingang in die klinische Testung des Konzeptes fand.rn

Linking a World Heritage Site to Sustainable Regional Development - Contested Natures in a Local Negotiation Process

Based on the candidature of a region in the Swiss Alps as a World Natural Heritage Site (WHS), this article outlines the negotiation process as reflected in the local media. Discussions of the World Heritage issue over a time span of 4 years revealed how the region concerned was discursively constructed and that discursive constructions implied specific views of nature. By elaborating on these conflicting views of nature, we intend to reflect on the implicit meanings that influenced and structured the debate about the WHS and more generally the issues of sustainable regional development. The results show a broadening of the debate from a rather fragmented toward a more inclusive view of nature, which relates to basic assumptions of the global discourse on sustainable development. Additionally, a view of nature as inherited from past generations extended the WHS discussion and thus gave a new dimension to the concept of sustainability.

Development of a model-based transient calibration process for diesel engine electronic control module tables – Part 2: modelling and optimization

This is the second part of a study investigating a model-based transient calibration process for diesel engines. The first part addressed the data requirements and data processing required for empirical transient emission and torque models. The current work focuses on modelling and optimization. The unexpected result of this investigation is that when trained on transient data, simple regression models perform better than more powerful methods such as neural networks or localized regression. This result has been attributed to extrapolation over data that have estimated rather than measured transient air-handling parameters. The challenges of detecting and preventing extrapolation using statistical methods that work well with steady-state data have been explained. The concept of constraining the distribution of statistical leverage relative to the distribution of the starting solution to prevent extrapolation during the optimization process has been proposed and demonstrated. Separate from the issue of extrapolation is preventing the search from being quasi-static. Second-order linear dynamic constraint models have been proposed to prevent the search from returning solutions that are feasible if each point were run at steady state, but which are unrealistic in a transient sense. Dynamic constraint models translate commanded parameters to actually achieved parameters that then feed into the transient emission and torque models. Combined model inaccuracies have been used to adjust the optimized solutions. To frame the optimization problem within reasonable dimensionality, the coefficients of commanded surfaces that approximate engine tables are adjusted during search iterations, each of which involves simulating the entire transient cycle. The resulting strategy, different from the corresponding manual calibration strategy and resulting in lower emissions and efficiency, is intended to improve rather than replace the manual calibration process.

Effect of Classroom Gender Composition on Students' Development of Self-Regulated Learning Competencies

Success in any field depends on a complex interplay among environmental and personal factors. A key set of personal factors for success in academic settings are those associated with self-regulated learners (SRL). Self-regulated learners choose their own goals, select and organize their learning strategies, and self-monitor their effectiveness. Behaviors and attitudes consistent with self-regulated learning also contribute to self-confidence, which may be important for members of underrepresented groups such as women in engineering. This exploratory study, drawing on the concept of "critical mass", examines the relationship between the personal factors that identify a self-regulated learner and the environmental factors related to gender composition of engineering classrooms. Results indicate that a relatively student gender-balanced classroom and gender match between students and their instructors provide for the development of many adaptive SRL behaviors and attitudes.

Representations of the Human/ Nonhuman Primate Divide: the Influence of Science, Fiction, and Science-Fiction on the Concept of 'Being Human'

For as far back as human history can be traced, mankind has questioned what it means to be human. One of the most common approaches throughout Western culture's intellectual tradition in attempts to answering this question has been to compare humans with or against other animals. I argue that it was not until Charles Darwin's publication of The Descent of Man and Selection in Relation to Sex (1871) that Western culture was forced to seriously consider human identity in relation to the human/ nonhuman primate line. Since no thinker prior to Charles Darwin had caused such an identity crisis in Western thought, this interdisciplinary analysis of the history of how the human/ nonhuman primate line has been understood focuses on the reciprocal relationship of popular culture and scientific representations from 1871 to the Human Genome Consortium in 2000. Focusing on the concept coined as the "Darwin-Müller debate," representations of the human/ nonhuman primate line are traced through themes of language, intelligence, and claims of variation throughout the popular texts: Descent of Man, The Jungle Books (1894), Tarzan of the Apes (1914), and Planet of the Apes (1963). Additional themes such as the nature versus nurture debate and other comparative phenotypic attributes commonly used for comparison between man and apes are also analyzed. Such popular culture representations are compared with related or influential scientific research during the respective time period of each text to shed light on the reciprocal nature of Western intellectual tradition, popular notions of the human/ nonhuman primate line, and the development of the field of primatology. Ultimately this thesis shows that the Darwin-Müller debate is indeterminable, and such a lack of resolution makes man uncomfortable. Man's unsettled response and desire for self-knowledge further facilitates a continued search for answers to human identity. As the Human Genome Project has led to the rise of new debates, and primate research has become less anthropocentric over time, the mysteries of man's future have become more concerning than the questions of our past. The human/ nonhuman primate line is reduced to a 1% difference, and new debates have begun to overshadow the Darwin-Müller debate. In conclusion, I argue that human identity is best represented through the metaphor of evolution: both have an unknown beginning, both have an indeterminable future with no definite end, and like a species under the influence of evolution, what it means to be human is a constant, indeterminable process of change.

Opportunities for Local Development in Jiului Valley"

This was an exploratory study that aimed to gain a rough understanding of the possible ways of implementing community development. The study was carried out between October 1998 and August 1999 in Lupeni, in the Jiu Valley, which is a mining area facing major decline following the government's decision to restructure the mining industry. Against a background of the history of sociology and its insights into the development of the community concept and its theoretical, methodological and practical significance, an analysis was carried out on four levels relevant to the community development approach: social participation, citizens' level of dependency on the state, and membership and the sense of belonging to the local and national community. A needs analysis approach using questionnaires, in-depth interviews and the Delphi approach took into consideration all those actors who could play important roles in local development: local authorities, representatives of local organisations (schools, trade unions, local associations, churches), and local residents.

The Role of the Family in Shaping Self-Concept and Cognitive Styles in Hungary

The project studied the perception of parenting styles and their relation to self-development, cognitive styles, and individualisation in adolescence. Typical parenting styles of mothers and fathers were studied in five different maternal and paternal parenting backgrounds: warm authoritarian, warm democratic, cold neglectful, cold authoritarian, and neutral. Perception of different styles of parenting (for fathers: authority, 'maintaining distance' behaviour, reciprocity, enhancing self-reliance; for mothers: authority, unpredictable behaviour, mutual trust, achievement orientation, and enhancing self-reliance) were analysed in each group using the newly developed Hungarian Parenting Questionnaire (Sallay & Munnich, 1999). This questionnaire has a theoretical basis in the ideas of Harvey (1966, 1967), where the socialisation process is combined with self-development. This categorisation of paternal and maternal parenting backgrounds enabled Sallay to explore and describe in detail how diverse parenting styles contribute to self-development, the development of cognitive complexity, and individualisation. The results show that diverse parenting by mothers and fathers produces differing impacts in nuclear and divorced families and for males and females, taking into consideration such self-components as physical, active, psychological (capabilities, personality, emotions, roles, preferences), social and reflective selves. Cognitive self-complexity varied according to parenting styles and genders: maternal and paternal parenting proved to have the most significant impact on self-complexity in a warm, democratic family. With respect to individualistic tendencies, adolescent boys were most individualistic in a cold, neglectful paternal background in nuclear families as compared to other paternal and maternal family backgrounds and to females.

Coronary artery disease, nitric oxide and oxidative stress: the "Yin-Yang" effect--a Chinese concept for a worldwide pandemic

Prevention of coronary artery disease (CAD) and reduction of its mortality and morbidity remains a major public health challenge throughout the "Western world". Recent evidence supports the concept that the impairment of endothelial function, a hallmark of insulin resistance states, is an upstream event in the pathophysiology of insulin resistance and its main corollaries: atherosclerosis and myocardial infarction. Atherosclerosis is currently thought to be the consequence of a subtle imbalance between pro- and anti-oxidants that produces favourable conditions for lesion progression towards acute thrombotic complications and clinical events. Over the last decade, a remarkable burst of evidence has accumulated, offering the new perspective that bioavailable nitric oxide (NO) plays a pivotal role throughout the CAD-spectrum, from its genesis to the outcome after acute events. Vascular NO is a critical modulator of coronary blood flow by inhibiting smooth muscle contraction and platelet aggregation. It also acts in angiogenesis and cytoprotection. Defective endothelial nitric oxide synthase (eNOS) driven NO synthesis causes development of major cardiovascular risk factors (insulin resistance, arterial hypertension and dyslipidaemia) in mice, and characterises CAD-prone insulin-resistant humans. On the other hand, stimulation of inducible nitric oxide synthase (iNOS) and NO overproduction causes metabolic insulin resistance and characterises atherosclerosis, heart failure and cardiogenic shock in humans, suggesting a "Yin-Yang" effect of NO in the cardiovascular homeostasis. Here, we will present a concise overview of the evidence for this novel concept, providing the conceptual framework for developing a potential therapeutic strategy to prevent and treat CAD.

Structural aspects of postnatal lung development - alveolar formation and growth

The human lung is born with a fraction of the adult complement of alveoli. The postnatal stages of human lung development comprise an alveolar stage, a stage of microvascular maturation, and very likely a stage of late alveolarization. The characteristic structural features of the alveolar stage are well known; they are very alike in human and rat lungs. The bases for alveolar formation are represented by immature inter-airspace walls with two capillary layers with a central sheet of connective tissue. Interalveolar septa are formed by folding up of one of the two capillary layers. In the alveolar stage, alveolar formation occurs rapidly and is typically very conspicuous in both species; it has therefore been termed 'bulk alveolarization'. During and after alveolarization the septa with double capillary networks are restructured to the mature form with a single network. This happens in the stage of microvascular maturation. After these steps the lung proceeds to a phase of growth during which capillary growth by intussusception plays an important role in supporting gas exchange. In view of reports that alveoli are added after the stage of microvascular maturation, the question arises whether the present concept of alveolar formation needs revision. On the basis of morphological and experimental findings we can state that mature lungs contain all the features needed for 'late alveolarization' by the classical septation process. Because of the high plasticity of the lung tissues, late alveolarization or some forms of compensatory alveolar formation may be considered for the human lung.

[Femoroacetabular impingement: trigger for the development of coxarthrosis]

Femoroacetabular impingement (FAI) is frequent; the estimated prevalence ranges between 10 and 15%. Our 10-years experience strongly suggests that FAI leads to osteoarthritis. Isolated acetabular or femoral abnormalities are rare, even though in women acetabular and in men femoral abnormalities predominate. Normal radiographs do not exclude the presence of FAI. Symptoms are related to the degree of deformity and occur earlier in the presence of activities requiring high levels of motion. The majority of patients with FAI are under the age of 40 years.In contrast to impingement in total hip replacement, the natural hip is under much higher constraint, not allowing to escape from impingement-induced shear forces by subluxation or complete dislocation. FAI-induced shear forces due to an aspherical femoral head/neck (cam type) are therefore high, causing outside-in damage with cleavage lesions of the acetabular cartilage by forced flexion and internal rotation. The cartilage of the femoral head remains initially intact, which cannot be explained by the classic concept of osteoarthritis. After the femoral head has migrated into the acetabular cartilage defect, vertical forces contribute to the further course of osteoarthritis. Tears between the labrum and cartilage, as seen by MRI, are not avulsions of the labrum from the cartilage but rather outside-in avulsions of the cartilage from the labrum. In acetabular overcoverage (pincer type) the labrum is the first structure to fail and acetabular cartilage damage develops thereafter.The treatment of FAI in patients under the age of 40 years is aimed at joint preservation. The clinical result is worse in the presence of significant cartilage damage. Therefore, early appreciation of FAI and timely therapeutic intervention as well as professional and athletic adjustment are important if osteoarthritis is to be prevented.

Human experimental pain models in drug development: translational pain research

Human experimental pain models require standardized stimulation and quantitative assessment of the evoked responses. This approach can be applied to healthy volunteers and pain patients before and after pharmacological interventions. Standardized stimuli of different modalities (ie, mechanical, chemical, thermal or electrical) can be applied to the skin, muscles and viscera for a differentiated and comprehensive assessment of various pain pathways and mechanisms. Using a multi-modal, multi-tissue approach, new and existing analgesic drugs can be profiled by their modulation of specific biomarkers. It has been shown that biomarkers, for example, those related to the central integration of repetitive nociceptive stimuli, can predict efficacy of a given drug in neuropathic pain conditions. Human experimental pain models can bridge animal and clinical pain research, and act as translational research providing new possibilities for designing successful clinical trials. Proof-of-concept studies provide cheap, fast and reliable information on dose-efficacy relationships and how pain sensed in the skin, muscles and viscera are inhibited.

PROOF OF CONCEPT PROTOTYPE FOR A RAILROAD PEDESTRIAN WARNING SYSTEM USING WIRELESS SENSOR NETWORKS

Wireless sensor network is an emerging research topic due to its vast and ever-growing applications. Wireless sensor networks are made up of small nodes whose main goal is to monitor, compute and transmit data. The nodes are basically made up of low powered microcontrollers, wireless transceiver chips, sensors to monitor their environment and a power source. The applications of wireless sensor networks range from basic household applications, such as health monitoring, appliance control and security to military application, such as intruder detection. The wide spread application of wireless sensor networks has brought to light many research issues such as battery efficiency, unreliable routing protocols due to node failures, localization issues and security vulnerabilities. This report will describe the hardware development of a fault tolerant routing protocol for railroad pedestrian warning system. The protocol implemented is a peer to peer multi-hop TDMA based protocol for nodes arranged in a linear zigzag chain arrangement. The basic working of the protocol was derived from Wireless Architecture for Hard Real-Time Embedded Networks (WAHREN).