Influence of PTPN2 and pre-existing immunity on the generation of effector and memory CD8 T cells

Notre système immunitaire joue un rôle important pour la protection envers les maladies infectieuses. Au cours d'une réponse à une infection primaire, des cellules B et des cellules T spécifiques, dirigées contre le pathogène en question, sont générées et certaines d'entre elles deviennent des cellules dites mémoires. Leur fonction est de nous protéger contre une nouvelle infection avec le même pathogène, une infection secondaire. Dans certaines situations, comme c'est par exemple le cas avec la grippe, les pathogènes ne sont pas toujours complètement identiques et les cellules mémoires ne sont pas à même d'assurer leur rôle protecteur et d'empêcher une réinfection. Pourtant, on ne sait à l'heure actuelle que très peu comment une immunité acquise, mais non protectrice, influence le développement d'une réponse immunitaire ultérieure. Dans la première partie de cette thèse, nous avons étudié comment les cellules T mémoires cytotoxiques altèrent la réponse de cellules T cytotoxiques nouvellement induites. Au cours d'une réaction immunitaire dirigée contre une infection primaire, un vaste répertoire de lymphocytes T est créé, constitué de cellules T possédant divers degrés d'affinité pour le pathogène. Lors d'une infection secondaire, seules les cellules T ayant une forte affinité pour le pathogène participent à la réponse. Nous avons pu démontrer que ce phénomène de restriction du répertoire des cellules T est principalement causé par les cellules T mémoires qui sont à même de reconnaître un antigène pathogénique présent dans les deux infections. Dans un deuxième projet, nous avons étudié comment l'absence de PTPN2 influence la réponse des cellules T. Chez l'homme, une mutation dans le gène de PTPN2 est associée à des maladies auto-immunes et résulte en une activité réduite de cette phosphatase dans les lymphocytes T. Nous avons montré que la baisse d'activité de la phosphatase PTNP2 conduit à une meilleure expansion des cellules T ayant une qualité comparable à des cellules T auto-antigène spécifiques. De plus, nous avons observé que la survie de ces cellules T effectues ayant une phosphatase diminuée est nettement améliorée. Cela peut conduire à une réponse immunitaire plus efficace ou, éventuellement, à une pathologie auto-immune plus grave. En outre, nos résultats montrent qu'en manipulant l'activité de cette phosphatase, il est possible d'augmenter l'efficacité du transfert des cellules T dans un hôte receveur. Un tel transfert de cellules T est pratiqué chez des patients atteints de tumeurs. Nos travaux suggèrent que la manipulation de la phosphatase PTPN2 pourrait donc représenter une approche thérapeutique novatrice et prometteuse. -- Notre système immunitaire joue un rôle important pour la protection contre les maladies. Les cellules T CD8+ ont une importance primordiale pour le contrôle d'infections primaires causées par des virus ou bactéries, mais également contre certaines tumeurs. Par conséquent, mieux comprendre les exigences nécessaires à l'induction de bonnes réponses des cellules T CD8 pourrait nous permettre de construire des vaccins contre les pathogènes contre lesquels nous n'avons pour l'instant pas de vaccins mais aussi d'améliorer les réactions immunitaires dirigées anti-tumorales. Dans la première partie de cette thèse, nous avons étudié l'influence qu'une immunité préexistante a sur la réponse des cellules T CD8. Nous sommes souvent exposés à des pathogènes qui sont similaires mais pas identiques à ceux que nous avons rencontrés auparavant. De telles infections hétérologues ne sont pas l'objet de beaucoup d'études et certains exemples indiquent même qu'une immunité préexistante partielle peut mener à une aggravation de la maladie. Nous avons étudié le répertoire des lymphocytes T CD8 qui sont générés lors d'une rencontre avec un nouvel antigène, et ce en comparant infection primaire et secondaire. En utilisant le modèle expérimental d'infections à Listeria monocytogenes, nous avons pu montrer que lors d'une infection primaire, un répertoire diversifié comprenant des cellules T CD8 de forte et faible affinité est constitué. Au contraire, dans le cas d'une infection secondaire, le répertoire des cellules T est fortement limité et seulement les lymphocytes T de forte affinité sont impliqués dans la réponse immunitaire. Nous avons pu démontrer que ces Rangements sont provoqués par des cellules T CD8 mémoires capables de reconnaître un antigène présent dans les deux infections. Cette augmentation du seuil d'activation des cellules effectrices est majoritairement causée par les lymphocytes T CD8 mémoires non transférables. Ces observations indiquent que les vaccins visant à induire des cellules T anti-tumorales de faible affinité seraient inefficaces si le vaccin contient des épitopes contre lesquels il existe une mémoire immunologique. Les réponses immunitaires conduites par les cellules T contre les antigènes tumoraux dépendent des cellules T CD8 de faible réactivité contre les antigènes tumoraux puisque les cellules à forte réactivité sont éliminées par les mécanismes de tolérance. Nous basant sur l'existence dans la littérature de preuves indiquant que PTPN2 influence la réponse des cellules T de faible affinité, nous nous sommes intéressés à comprendre comment PTPN2 impacte les réponses des cellules T CD8 en général. Nous avons remarqué que des cellules T CD8 déficientes en PTPN2 exhibent une meilleure capacité à proliférer suite à une faible ou courte stimulation du récepteur des lymphocytes T. La phase effectrice est prolongée et la contraction retardée résultant ainsi à globalement plus de cellules effectrices. Ce phénomène est également accompagné d'une meilleure survie des cellules effectrices de différentiation terminale. Une fois transférées dans un nouvel hôte receveur, les cellules effectrices terminales KLRG1+CD127- déficientes en phosphatase PTPN2 peuvent survivre et se transformer en cellules mémoires CD127+ fonctionnelles. De façon inattendue, nous avons découvert que l'élimination de PTPN2 améliore l'efficacité du transfert et la formation des cellules mémoires ainsi que leur capacité protectrice. Manipuler l'activité de cette phosphatase apparaît donc comme une approche intéressante et prometteuse pour la thérapie cellulaire par transfert adoptif de lymphocytes T. Nos observations montrent que la manipulation d'un facteur intrinsèque, l'absence de PTPN2, peut, dans certaines circonstances, améliorer la réponse des cellules T. Une meilleure connaissance des mécanismes contrôlant la réponse des lymphocytes T CD8 pourrait donc permettre la manipulation de ces derniers et conduire à des réponses immunitaires plus vigoureuses. Si ces réponses sont déclenchées par l'utilisation de vaccins, il est nécessaire de considérer l'historique d'une exposition préalable à des agents pathogènes ou à des vaccins puisque celle-ci peut, comme nous l'avons démontré, influencer le répertoire des cellules T recrutées dans la réponse immunitaire et, par conséquent, modifier l'aptitude de notre système immunitaire à faire face à une infection. -- Our immune system plays an important role in the protection from disease. CD8 T cells are critical for the control of primary infections with most viruses and certain bacteria as well as against some tumors. Therefore, better knowledge of CD8 T cell responses might enable us to generate vaccines against pathogens for which currently no vaccines are available or to improve anti-tumor immune responses. In the first part of this thesis we addressed the issue how previously acquired immunity impacts on the response of CD8 T cells. We are often exposed to pathogens that are related but not identical to the previously encountered ones. Such heterologous infections are not well studied and there are some indications that partial pre-existing immunity may in some cases even lead to an enhancement of disease. We specifically studied the T cell repertoire of CD8 T cells that are responding to a newly encountered antigen in secondary compared to primary infections. Using the experimental model of Listeria monocytogenes infections, we showed that in primary infections a wide repertoire including high and low affinity CD8 T cells is recruited into the immune response. In contrast to this, in secondary infections, the T cell repertoire is severely restricted and only T cells of high affinity are responding. We were able to pinpoint this difference to the presence of memory CD8 T cells that recognize an antigen that is shared between the two subsequent infections. This increase in the activation threshold was most effectively mediated via non-transferable memory CD8 T cells. This would argue that vaccines targeting low affinity tumor-specific T cells would fail if the vaccine contains previously encountered CD8 T cell epitopes. T cell mediated immune responses to tumor antigen rely often on T cells which weakly react to tumor antigen as high affinity T cells are eliminated by tolerance mechanisms. Following indication in the literature that PTPN2 impacts on the response of such weakly antigen-reactive T cells, we investigated how PTPN2 impacts in general the response of CD8 T cells. We observed that CD8 T cells lacking PTPN2 show an enhanced expansion following weak or short-term T cell receptor stimulation. The effector phase is prolonged and contraction delayed thus resulting in overall more effector cells. This is accompanied by a better survival of terminal effector cells. When transferred into new recipients, KLRG1+CD127- terminal effector cells lacking PTPN2 can survive and convert into CD127+ functional memory cells. Surprisingly, we discovered that elimination of PTPN2 enhances the transfer efficacy and formation of memory cells as well as the protective capacity. Targeting PTPN2 might thus be a promising approach for adoptive T cell therapy. Our observations show how the manipulation of an intrinsic factor, the absence of PTPN2, can enhance T cell responses under certain circumstances. A better understanding of underlying mechanisms for the control of CDS T cell responses might enable the manipulation of these and allow for more powerful responses. If these responses are induced through vaccines it is imperative that the previous history of exposure to pathogens or vaccines is considered as it can, as we have shown in this thesis, influence the recruited T cell repertoire and thus possibly the ability to handle the infection.

Delivery of antigen to nasal-associated lymphoid tissue microfold cells through secretory IgA targeting local dendritic cells confers protective immunity.

BACKGROUND: Transmission of mucosal pathogens relies on their ability to bind to the surfaces of epithelial cells, to cross this thin barrier, and to gain access to target cells and tissues, leading to systemic infection. This implies that pathogen-specific immunity at mucosal sites is critical for the control of infectious agents using these routes to enter the body. Although mucosal delivery would ensure the best onset of protective immunity, most of the candidate vaccines are administered through the parenteral route. OBJECTIVE: The present study evaluates the feasibility of delivering the chemically bound p24gag (referred to as p24 in the text) HIV antigen through secretory IgA (SIgA) in nasal mucosae in mice. RESULTS: We show that SIgA interacts specifically with mucosal microfold cells present in the nasal-associated lymphoid tissue. p24-SIgA complexes are quickly taken up in the nasal cavity and selectively engulfed by mucosal dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin-positive dendritic cells. Nasal immunization with p24-SIgA elicits both a strong humoral and cellular immune response against p24 at the systemic and mucosal levels. This ensures effective protection against intranasal challenge with recombinant vaccinia virus encoding p24. CONCLUSION: This study represents the first example that underscores the remarkable potential of SIgA to serve as a carrier for a protein antigen in a mucosal vaccine approach targeting the nasal environment.

Synthetic long peptide-based vaccine formulations for induction of cell mediated immunity: A comparative study of cationic liposomes and PLGA nanoparticles.

Nanoparticulate formulations for synthetic long peptide (SLP)-cancer vaccines as alternative to clinically used Montanide ISA 51- and squalene-based emulsions are investigated in this study. SLPs were loaded into TLR ligand-adjuvanted cationic liposomes and PLGA nanoparticles (NPs) to potentially induce cell-mediated immune responses. The liposomal and PLGA NP formulations were successfully loaded with up to four different compounds and were able to enhance antigen uptake by dendritic cells (DCs) and subsequent activation of T cells in vitro. Subcutaneous vaccination of mice with the different formulations showed that the SLP-loaded cationic liposomes were the most efficient for the induction of functional antigen-T cells in vivo, followed by PLGA NPs which were as potent as or even more than the Montanide and squalene emulsions. Moreover, after transfer of antigen-specific target cells in immunized mice, liposomes induced the highest in vivo killing capacity. These findings, considering also the inadequate safety profile of the currently clinically used adjuvant Montanide ISA-51, make these two particulate, biodegradable delivery systems promising candidates as delivery platforms for SLP-based immunotherapy of cancer.

From T cell “exhaustion” to anti-cancer immunity

The immune system has the potential to protect from malignant diseases for extended periods of time. Unfortunately, spontaneous immune responses are often inefficient. Significant effort is required to develop reliable, broadly applicable immunotherapies for cancer patients. A major innovation was transplantation with hematopoietic stem cells from genetically distinct donors for patients with hematologic malignancies. In this setting, donor T cells induce long-term remission by keeping cancer cells in check through powerful allogeneic graft-versus-leukemia effects. More recently, a long awaited breakthrough for patients with solid tissue cancers was achieved, by means of therapeutic blockade of T cell inhibitory receptors. In untreated cancer patients, T cells are dysfunctional and remain in a state of T cell "exhaustion". Nonetheless, they often retain a high potential for successful defense against cancer, indicating that many T cells are not entirely and irreversibly exhausted but can be mobilized to become highly functional. Novel antibody therapies that block inhibitory receptors can lead to strong activation of anti-tumor T cells, mediating clinically significant anti-cancer immunity for many years. Here we review these new treatments and the current knowledge on tumor antigen-specific T cells.

Condition-dependence, pleiotropy and the handicap principle of sexual selection in melanin-based colouration.

The signalling function of melanin-based colouration is debated. Sexual selection theory states that ornaments should be costly to produce, maintain, wear or display to signal quality honestly to potential mates or competitors. An increasing number of studies supports the hypothesis that the degree of melanism covaries with aspects of body condition (e.g. body mass or immunity), which has contributed to change the initial perception that melanin-based colour ornaments entail no costs. Indeed, the expression of many (but not all) melanin-based colour traits is weakly sensitive to the environment but strongly heritable suggesting that these colour traits are relatively cheap to produce and maintain, thus raising the question of how such colour traits could signal quality honestly. Here I review the production, maintenance and wearing/displaying costs that can generate a correlation between melanin-based colouration and body condition, and consider other evolutionary mechanisms that can also lead to covariation between colour and body condition. Because genes controlling melanic traits can affect numerous phenotypic traits, pleiotropy could also explain a linkage between body condition and colouration. Pleiotropy may result in differently coloured individuals signalling different aspects of quality that are maintained by frequency-dependent selection or local adaptation. Colouration may therefore not signal absolute quality to potential mates or competitors (e.g. dark males may not achieve a higher fitness than pale males); otherwise genetic variation would be rapidly depleted by directional selection. As a consequence, selection on heritable melanin-based colouration may not always be directional, but mate choice may be conditional to environmental conditions (i.e. context-dependent sexual selection). Despite the interest of evolutionary biologists in the adaptive value of melanin-based colouration, its actual role in sexual selection is still poorly understood.

Genomic evidence for adaptive inversion clines in Drosophila melanogaster.

Clines in chromosomal inversion polymorphisms-presumably driven by climatic gradients-are common but there is surprisingly little evidence for selection acting on them. Here we address this long-standing issue in Drosophila melanogaster by using diagnostic single nucleotide polymorphism (SNP) markers to estimate inversion frequencies from 28 whole-genome Pool-seq samples collected from 10 populations along the North American east coast. Inversions In(3L)P, In(3R)Mo, and In(3R)Payne showed clear latitudinal clines, and for In(2L)t, In(2R)NS, and In(3R)Payne the steepness of the clinal slopes changed between summer and fall. Consistent with an effect of seasonality on inversion frequencies, we detected small but stable seasonal fluctuations of In(2R)NS and In(3R)Payne in a temperate Pennsylvanian population over 4 years. In support of spatially varying selection, we observed that the cline in In(3R)Payne has remained stable for >40 years and that the frequencies of In(2L)t and In(3R)Payne are strongly correlated with climatic factors that vary latitudinally, independent of population structure. To test whether these patterns are adaptive, we compared the amount of genetic differentiation of inversions versus neutral SNPs and found that the clines in In(2L)t and In(3R)Payne are maintained nonneutrally and independent of admixture. We also identified numerous clinal inversion-associated SNPs, many of which exhibit parallel differentiation along the Australian cline and reside in genes known to affect fitness-related traits. Together, our results provide strong evidence that inversion clines are maintained by spatially-and perhaps also temporally-varying selection. We interpret our data in light of current hypotheses about how inversions are established and maintained.

Adaptive optimization schemes for mobile VoIP applications Battery life and call quality aspects

In this thesis programmatic, application-layer means for better energy-efficiency in the VoIP application domain are studied. The work presented concentrates on optimizations which are suitable for VoIP-implementations utilizing SIP and IEEE 802.11 technologies. Energy-saving optimizations can have an impact on perceived call quality, and thus energy-saving means are studied together with those factors affecting perceived call quality. In this thesis a general view on a topic is given. Based on theory, adaptive optimization schemes for dynamic controlling of application's operation are proposed. A runtime quality model, capable of being integrated into optimization schemes, is developed for VoIP call quality estimation. Based on proposed optimization schemes, some power consumption measurements are done to find out achievable advantages. Measurement results show that a reduction in power consumption is possible to achieve with the help of adaptive optimization schemes.

Genome-wide analysis of adaptive molecular evolution in the carnivorous plant Utricularia gibba

The genome of the bladderwort Utricularia gibba provides an unparalleled opportunity to uncover the adaptive landscape of an aquatic carnivorous plant with unique phenotypic features such as absence of roots, development of water-filled suction bladders, and a highly ramified branching pattern. Despite its tiny size, the U. gibba genome accommodates approximately as many genes as other plant genomes. To examine the relationship between the compactness of its genome and gene turnover, we compared the U. gibba genome with that of four other eudicot species, defining a total of 17,324 gene families (orthogroups). These families were further classified as either 1) lineage-specific expanded/contracted or 2) stable in size. The U. gibba-expanded families are generically related to three main phenotypic features: 1) trap physiology, 2) key plant morphogenetic/developmental pathways, and 3) response to environmental stimuli, including adaptations to life in aquatic environments. Further scans for signatures of protein functional specialization permitted identification of seven candidate genes with amino acid changes putatively fixed by positive Darwinian selection in the U. gibba lineage. The Arabidopsis orthologs of these genes (AXR, UMAMIT41, IGS, TAR2, SOL1, DEG9, and DEG10) are involved in diverse plant biological functions potentially relevant for U. gibba phenotypic diversification, including 1) auxin metabolism and signal transduction, 2) flowering induction and floral meristem transition, 3) root development, and 4) peptidases. Taken together, our results suggest numerous candidate genes and gene families as interesting targets for further experimental confirmation of their functional and adaptive roles in the U. gibba's unique lifestyle and highly specialized body plan.

Neural mechanisms underlying adaptive actions after slips

An increase in cognitive control has been systematically observed in responses produced immediately after the commission of an error. Such responses show a delay in reaction time (post-error slowing) and an increase in accuracy. To characterize the neurophysiological mechanism involved in the adaptation of cognitive control, we examined oscillatory electrical brain activity by electroencephalogram and its corresponding neural network by event-related functional magnetic resonance imaging in three experiments. We identified a new oscillatory thetabeta component related to the degree of post-error slowing in the correct responses following an erroneous trial. Additionally, we found that the activity of the right dorsolateral prefrontal cortex, the right inferior frontal cortex, and the right superior frontal cortex was correlated with the degree of caution shown in the trial following the commission of an error. Given the overlap between this brain network and the regions activated by the need to inhibit motor responses in a stop-signal manipulation, we conclude that the increase in cognitive control observed after the commission of an error is implemented through the participation of an inhibitory mechanism.

Automated, adaptive methods for forest inventory

Forest inventories are used to estimate forest characteristics and the condition of forest for many different applications: operational tree logging for forest industry, forest health state estimation, carbon balance estimation, land-cover and land use analysis in order to avoid forest degradation etc. Recent inventory methods are strongly based on remote sensing data combined with field sample measurements, which are used to define estimates covering the whole area of interest. Remote sensing data from satellites, aerial photographs or aerial laser scannings are used, depending on the scale of inventory. To be applicable in operational use, forest inventory methods need to be easily adjusted to local conditions of the study area at hand. All the data handling and parameter tuning should be objective and automated as much as possible. The methods also need to be robust when applied to different forest types. Since there generally are no extensive direct physical models connecting the remote sensing data from different sources to the forest parameters that are estimated, mathematical estimation models are of "black-box" type, connecting the independent auxiliary data to dependent response data with linear or nonlinear arbitrary models. To avoid redundant complexity and over-fitting of the model, which is based on up to hundreds of possibly collinear variables extracted from the auxiliary data, variable selection is needed. To connect the auxiliary data to the inventory parameters that are estimated, field work must be performed. In larger study areas with dense forests, field work is expensive, and should therefore be minimized. To get cost-efficient inventories, field work could partly be replaced with information from formerly measured sites, databases. The work in this thesis is devoted to the development of automated, adaptive computation methods for aerial forest inventory. The mathematical model parameter definition steps are automated, and the cost-efficiency is improved by setting up a procedure that utilizes databases in the estimation of new area characteristics.

Exploring Adaptive Implementation of On-Chip Networks

As technology geometries have shrunk to the deep submicron regime, the communication delay and power consumption of global interconnections in high performance Multi- Processor Systems-on-Chip (MPSoCs) are becoming a major bottleneck. The Network-on- Chip (NoC) architecture paradigm, based on a modular packet-switched mechanism, can address many of the on-chip communication issues such as performance limitations of long interconnects and integration of large number of Processing Elements (PEs) on a chip. The choice of routing protocol and NoC structure can have a significant impact on performance and power consumption in on-chip networks. In addition, building a high performance, area and energy efficient on-chip network for multicore architectures requires a novel on-chip router allowing a larger network to be integrated on a single die with reduced power consumption. On top of that, network interfaces are employed to decouple computation resources from communication resources, to provide the synchronization between them, and to achieve backward compatibility with existing IP cores. Three adaptive routing algorithms are presented as a part of this thesis. The first presented routing protocol is a congestion-aware adaptive routing algorithm for 2D mesh NoCs which does not support multicast (one-to-many) traffic while the other two protocols are adaptive routing models supporting both unicast (one-to-one) and multicast traffic. A streamlined on-chip router architecture is also presented for avoiding congested areas in 2D mesh NoCs via employing efficient input and output selection. The output selection utilizes an adaptive routing algorithm based on the congestion condition of neighboring routers while the input selection allows packets to be serviced from each input port according to its congestion level. Moreover, in order to increase memory parallelism and bring compatibility with existing IP cores in network-based multiprocessor architectures, adaptive network interface architectures are presented to use multiple SDRAMs which can be accessed simultaneously. In addition, a smart memory controller is integrated in the adaptive network interface to improve the memory utilization and reduce both memory and network latencies. Three Dimensional Integrated Circuits (3D ICs) have been emerging as a viable candidate to achieve better performance and package density as compared to traditional 2D ICs. In addition, combining the benefits of 3D IC and NoC schemes provides a significant performance gain for 3D architectures. In recent years, inter-layer communication across multiple stacked layers (vertical channel) has attracted a lot of interest. In this thesis, a novel adaptive pipeline bus structure is proposed for inter-layer communication to improve the performance by reducing the delay and complexity of traditional bus arbitration. In addition, two mesh-based topologies for 3D architectures are also introduced to mitigate the inter-layer footprint and power dissipation on each layer with a small performance penalty.