Design and Modeling of a High-Power Periodic Spiral Antenna with an Integrated Rejection Band Filter

O'Brien, Jonathan M.

14 November 2017

This work details the design and fabrication of an ultra-wideband periodic spiral antenna (PSA) with a notch filter embedded directly into the radiating aperture. Prototype fabrication of the PSA reveals long assembly time due to forming the antenna element, therefore modifications are made to allow fabricating the antenna elements on a thin, flexible, Polyimide substrate. A transmission line model is develop to support the updated configuration of the antenna elements. In addition, a symmetric spurline filter is integrated into the arms of the spiral antenna in order to address the common problem of interference in ultra-wideband systems. For the first time, a placement study is conducted to show the optimal location of the filter as a function of frequency. The presented transmission line model demonstrates the ability to decouple the design of the filter and antenna by being able to predict the resonant frequency and achieved rejection after integration of the two. Measured results show a gain rejection of 21 dB along with the ability to tune the resonance of the filter from 1.1 – 2.7 GHz using a lumped capacitor. For high power applications, thermal measurements are conducted, and for the first time, thermal profiles along the top of the antenna are used to show the radiation bands in a spiral antenna. Power tests are successfully conducted up to 40 W across the entire operational bandwidth and up to 60 W for 2 GHz and below. At these elevated power levels, a large voltage is generated across the lumped capacitor used to tune the resonance of the spurline filter; this issue is addressed through the development of a capacitive wedge that is overlapped on top of the spurline stub, which increases the voltage handling to 2,756 V. Measured results reveal a reduced tuning range compared to using lumped capacitors and a gain rejection of greater than 10 dB for all configurations.

Three Dimensional Miniaturization

Ultra-Wideband Antennas

Interference Mitigation

Miniaturization Techniques

Notch Filter

Electromagnetics and Photonics

Notch signalling in carcinogenesis : With special emphasis on T-cell lymphoma and colorectal cancer

Ungerbäck, Jonas

January 2009

<p>The Notch signalling pathway is an evolutionary conserved pathway, named after the Notch receptors, Notch1-4 in mammals, which upon cell-cell contact and ligand binding releases the intracellular domain (NICD). NICD translocates into the nucleus where it binds the transcriptional repressor RBP-Jk, which together with co-activators belonging to the Mastermind-like family of proteins form a transcriptional activation complex. This complex activates genes controlling cell fate decision, embryonic development, proliferation, differentiation, adult homeostasis and stem cell maintenance. On the other hand, disrupted Notch signalling may result in pathological conditions like cancer, although the mechanisms behind the disruption are often complex and in many cases largely unknown.</p><p>Notch1 drives the lymphocyte differentiation towards a T-cell fate and activating mutations in the gene have been suggested to be involved in T-cell lymphoma. In <em>paper I, </em>genetic alterations in <em>Notch1 </em>and the Notch1 regulating gene <em>CDC4 </em>were investigated in tumours from murine T-cell lymphoma induced with phenolphthalein, 1,3-butadiene or 2’,3’-dideoxycytidine. We identified activating <em>Notch1</em> mutations in 39% of the lymphomas, suggesting that <em>Notch1 </em>is<em> </em>an important target gene for mutations in chemically induced lymphomas.<em></em></p><p>While it is known that constitutively activated Notch signalling has a clear oncogenic function in several solid malignancies as well, the molecular mechanisms are less known in this context. Unpublished data of our lab, together with other recent studies, suggest that mutations of Notch and Notch-related genes <em>per se</em> are uncommon in solid malignancies including colorectal cancer, while a growing body of evidence indicates that aberrant Wnt/b-catenin signalling may result in pro-tumoural Notch activation in these contexts. In <em>paper II</em>, we therefore investigated potential transcriptional interactions between the Notch and Wnt signalling pathways in colorectal cancer cell lines. The proximal Notch and Wnt pathway gene promoters were bioinformatically identified and screened for putative TCF/LEF1 and RBP-Jk sites. In canonical Wnt signalling, Apc negatively regulates b-catenin leading to repression of TCF/LEF1 target genes. Upon repression of the Wnt pathway we observed that several genes in the Notch pathway, including <em>Notch2</em>, were transcriptionally downregulated. We also confirmed binding of Lef1 to <em>Notch2</em> as well as other Notch pathway gene promoters and luciferase assays showed an increased activity for at least one LEF1/TCF-site in the <em>Notch2</em> promoter upon co-transfection of HT29 or HCT116 cells with mutated b-catenin. HT29 cell lines were also treated with the g-secretase inhibitor DAPT, leading to inactivation of the Notch pathway by preventing release of NICD. However, results showed no effects on Apc, b-catenin or their target <em>cyclin D1</em>. Taken together, these results indicate that the Wnt pathway may function as a regulator of the Notch pathway through the TCF/LEF1 target gene program in colon cancer cell lines.</p><p>In summary, Notch pathway deregulation is of importance in both murine T-cell lymphoma and human colorectal cancer, although the mechanisms differ. The current results give new insights in Notch pathway alterations as well as the signalling networks in which the Notch pathway interacts, and thus increase the understanding of Notch’s involvement in malignant diseases.</p> / Studies on molecular genetic alterations in colorectal cancer

Notch signalling

T-cell lymphoma

colorectal cancer

Wnt signalling

transcription

Medical cell biology

Medicinsk cellbiologi

Early development of the olfactory placode and early rostrocaudal patterning of the caudal neural tube

Maier, Esther

January 2009

The development of the nervous system is a complex process. Cell divisions, cell differentiation and signalling interactions must be tightly regulated. To comprehend the mature nervous system, we have to understand its assembly during development. Two main questions were addressed in this thesis: (1) how is the caudal part of the central nervous system specified and (2) how is the early development of the olfactory placode regulated? By using tissue and whole embryo assays in the chick, we identified signalling molecules involved in these processes and propose possible mechanisms for their function. The central nervous system is regionalized along its rostrocaudal axis during development. However, the mechanisms by which cells in the caudal part of the neuraxis acquire rostrocaudal regional identity have been unresolved. We provide evidence that at gastrula stages cells in the caudal neural plate are specified as cells of caudal spinal cord character in response to Wnt and FGF signals and that cells of rostral spinal cord and caudal hindbrain character only emerge later at neurulation stages in response to retinoic acid signalling acting on previously caudalized cells. In the hindbrain and spinal cord distinct motor neuron subtypes differentiate at precise rostrocaudal positions from progenitor cells. We provide evidence that cells in the caudal neural plate have acquired sufficient positional information to differentiate into motor neurons of the correct rostrocaudal subtype. The olfactory placode gives rise to all the structures of the peripheral olfactory system, which, in the chick consists of the olfactory nerve, the sensory epithelium, where the olfactory sensory neurons (OSN) are located and the respiratory epithelium, that produces the mucus. Several studies have addressed the role of signalling cues in the specification of OSNs but much less is known about the regulation of sensory versus respiratory patterning and the events controlling early neurogenesis in the developing olfactory placode. We show that by stage 14 the olfactory placode is specified to give rise to both cells of sensory and respiratory epithelial character. Moreover, cells of respiratory epithelial character require BMP signalling, whereas cells of sensory epithelial character require FGF signalling. We suggest a mechanism in which FGF and BMP signals act in an opposing manner to regulate olfactory versus respiratory epithelial cell fate decision. BMP signalling has also been implicated in the regulation of neurogenesis in the sensory epithelium, and we show that BMP signals are required for the generation of OSNs, because in the absence of BMP signalling cells in the sensory epithelium do not mature. Independently, we also analyzed the role of Notch signalling during early olfactory development both in vitro and in vivo and provide evidence that active Notch signalling is required to prevent cells in the olfactory placode from premature differentiation.

olfactory placode

caudal neural tube

Wnt

FGF

RA

BMP

Notch

patterning

Developmental biology

Utvecklingsbiologi

A Novel Model System is Applied to Examine the Interplay of Notch and GATA Factors during T Lineage Committment

de Pooter, Renee

20 January 2009

T lymphocytes comprise one arm of the adaptive immune system and are critical for immunity to neoplasia and infection. A full understanding of their development has important implications for the treatment of autoimmunity, immunodeficiency, and leukemias arising from T cell developmental intermediates. The Notch signaling pathway is already known to be absolutely required for T cell commitment and development, but its collaboration with other factors is poorly understood. Unfortunately, deficiency in many of the genes critical to hematopoiesis, including Notch, causes early embryonic lethality by disrupting multiple developmental processes. This complicates the study of such genes by in vivo models or ex vivo hematopoietic progenitors. To circumvent these difficulties, this thesis describes the use of in vitro-differentiated embryonic stem cell-derived T progenitors to examine the roles of two GATA family members during early T cell development. GATA-2, while not required for T cell development, is shown to act downstream of Notch signals to inhibit myelopoiesis. These findings both characterize a novel role for GATA-2, and demonstrate that T progenitor maturation and exclusion of non-T cell fates are distinct and separable events. GATA-3, in contrast to GATA-2, is absolutely required for T lymphopoiesis. However, the current literature does not distinguish between a requirement for GATA-3 in homing to the thymic environment, committing to the T cell fate, or surviving such a commitment event. This thesis demonstrates that GATA-3 is dispensable for commitment itself, but required to permit survival and proliferation after commitment. Taken together, the results presented in this thesis employ a novel model system to characterize the interactions of two important collaborators with Notch signals during T cell development, and further dissect the stages through which early T cell development is enacted.

lymphopoiesis

T cell development

OP9-DL1

embryonic stem cell

GATA

Notch

0982

Characterization of the Role of Neuralized in Delta Endocytosis and Notch Signalling

Skwarek, Lara Casandra

28 September 2009

Development requires the acquisition of different cell fates. A major conserved pathway required for cell fate determination is the Notch signalling pathway. Neuralized is a key regulator of the Notch pathway and is essential for embryonic development in Drosophila melanogaster. I have been studying the role of Neuralized during Drosophila development, focusing on the regulation of this protein. Neuralized is an E3 ubiquitin ligase that targets Notch ligands for ubiquitination and endocytosis in the signal sending cell. This endocytic event is required for signal transduction, and cells lacking Neuralized fail to signal through Notch. I have identified a conserved interaction between Neuralized and phosphoinositides that is essential for the ability of Neuralized to promote ligand endocytosis and Notch signalling. Interactions between Neuralized and phosphoinositides are not required for ligand ubiquitination, identifying a role for Neuralized in downstream aspects of ligand trafficking. I have also determined that Neuralized is dynamically regulated through a combination of tissue specific expression, subcellular trafficking, protein interactions and posttranslational modification. Neuralized contains two related protein domains of unknown function called Neuralized homology repeats (NHR). To gain insight into the function of the NHR domain, I characterized another NHR containing protein, CG3894. CG3894 is required for development and preliminary data indicate that NHR domains dimerize, suggesting a possible interaction between Neuralized and CG3894. The study of Neuralized in Drosophila has contributed to our understanding of this essential protein both at a developmental and cellular level, and has provided a means through which to ask questions about regulation of Notch signalling in a relatively simple context. Given the importance of Notch signalling to development, and contributions that aberrations in signalling make to cancer and diseases of the nervous system, expanding our understanding of the regulation of Notch signalling is essential to understanding how this important pathway functions.

Notch

Neuralized

phosphoinositides

ubiquitin ligase

Drosophila

signalling

NHR domains

CG3894

0379

Régulation de la métalloprotéase ADAM10/Kuzbanian par les tétraspanines à 8 cystéines et conséquences sur l'activation de la voie Notch chez les mammifères et la Drosophile

Dornier, Emmanuel

11 December 2012

L'importance des activités protéolytiques associées à la membrane plasmique dans divers processus biologiques fondamentaux est de mieux en mieux définie. Les protéases de la famille ADAM (A Disintegrin and Metalloprotease), et ADAM10 en particulier, ont suscité un intérêt tout particulier du fait de l'importance de leurs substrats (récepteur de l'EGF, TNFα, Notch, APP...). Néanmoins, peu d'études se sont intéressées aux mécanismes régulant le trafic d'ADAM10.Les tétraspanines sont une super-famille de protéines de surface impliquées dans de nombreux processus biologiques fondamentaux parmi lesquels la migration, les interactions intercellulaires, la réponse immunitaire, la fusion des gamètes... L'une des caractéristiques majeure des tétraspanines est leur capacité à organiser un réseau d'interactions moléculaires appelé le " tetraspanin web ". De précédentes études menées dans le laboratoire ont montré qu'ADAM10 est associé au " tetraspanin web ". Néanmoins, la tétraspanine en interaction directe avec ADAM10 permettant son association au réseau n'est pas encore connue. Dans cette étude nous nous sommes intéressés à la régulation d'ADAM10 par les tétraspanines. Nous avons ainsi pu identifier une sous-famille de tétraspanines à 8 cystéines, les TspanC8 (Tspan5, Tspan10, Tspan14, Tspan15, Tspan17 et Tspan33), comme étant capables d'interagir directement avec ADAM10 et de réguler sa sortie du réticulum endoplasmique. Nous avons montré que Tspan5, Tspan14, Tspan15 et Tspan33 sont capables de réguler l'expression de surface d'ADAM10 et que Tspan10 et Tspan17 entrainent l'accumulation d'ADAM10 dans un compartiment endosomal tardif. Les TspanC8 pourraient également contribuer à la régulation de la spécificité de substrat d'ADAM10 puisque nous avons montré que l'expression des TspanC8 humaines Tspan5 et Tspan14 augmente l'activation de la voie Notch alors que Tspan15 n'a pas d'effet. Par ailleurs, les TspanC8 de Drosophile sont capables d'interagir directement avec Kuzbanian (l'orthologue d'ADAM10), permettent son accumulation à la surface cellulaire et régulent l'activation de la voie Notch dans différents contextes développementaux. Nous proposons que les TspanC8 soient une nouvelle famille de protéines ayant une fonction très conservée dans la régulation de l'activité et du trafic d'ADAM10, capables de réguler l'activation de la voie Notch.

Tétraspanines

Adam10

Reticulum endoplasmique

Notch

Trafic

TspanC8

Drosophile

Α-secretase

Novel Properties of SP cells in STS, and How They May Be Targeted to Develop Potential Therapies

Wang, Chang Ye Yale

30 December 2010

Tumours contain heterogeneous cell populations. A population enriched in tumour-initiating potential has been identified in soft-tissue sarcoma (STS) by the isolation of "side population" (SP) cells. In this study, we compared the gene expression profiles of SP and non-SP cells in STS and identified Hedgehog (Hh) and Notch pathways as potential candidates for the targeting of SP cells. Upon verification of the activation of these pathways in SP cells, using primary tumor xenografts in NOD-SCID mice as our experimental model, we used the Hh blocker Triparanol and the Notch blocker DAPT to demonstrate that the suppression of these pathways effectively depleted the abundance of SP cells, reduced tumour growth, and inhibited the tumour-initiating potential of the treated sarcoma cells upon secondary transplantation. The data provide additional evidence that SP cells act as tumour initiating cells and points to Hh and Notch pathways as enticing targets for developing potential cancer therapies.

Cancer

Stem Cell

Soft-tissue sarcoma

sarcoma

Notch

Hedgehog

Therapy

0306

0992

0307

Novel Properties of SP cells in STS, and How They May Be Targeted to Develop Potential Therapies

Wang, Chang Ye Yale

30 December 2010

Tumours contain heterogeneous cell populations. A population enriched in tumour-initiating potential has been identified in soft-tissue sarcoma (STS) by the isolation of "side population" (SP) cells. In this study, we compared the gene expression profiles of SP and non-SP cells in STS and identified Hedgehog (Hh) and Notch pathways as potential candidates for the targeting of SP cells. Upon verification of the activation of these pathways in SP cells, using primary tumor xenografts in NOD-SCID mice as our experimental model, we used the Hh blocker Triparanol and the Notch blocker DAPT to demonstrate that the suppression of these pathways effectively depleted the abundance of SP cells, reduced tumour growth, and inhibited the tumour-initiating potential of the treated sarcoma cells upon secondary transplantation. The data provide additional evidence that SP cells act as tumour initiating cells and points to Hh and Notch pathways as enticing targets for developing potential cancer therapies.

Cancer

Stem Cell

Soft-tissue sarcoma

sarcoma

Notch

Hedgehog

Therapy

0306

0992

0307

Identification de nouveaux régulateurs du trafic et de l'activité signalisatrice des ligands du récepteur Notch chez la drosophile : analyse du rôle des glycosphingolipides

Hamel, Sophie

09 October 2009

La voie de signalisation Notch est une voie de signalisation conservée et primordiale aussi bien pour le développement des métazoaires que la maintenance de leurs tissus adultes. L'ubiquitine ligase Mind bomb1 (Mib1) est nécessaire à l'activation du récepteur Notch et contrôle l'ubiquitination et l'endocytose des ligands DLS (Delta/Serrate/Lag-2) de Notch. Afin d'identifier de nouveaux régulateurs de la signalisation des ligands DSL chez la drosophile, j'ai réalisé un crible modificateur sur un phénotype d'aile induit par des pertes partielles d'activité mib1. Une collection de lignées GS (Gene Search), permettant l'expression ectopique des gènes adjacents à leur point d'insertion, a permis d'identifier deux interacteurs génétiques de mib1 : α4GT1 et Hsc70-4. Hsc70-4 est un régulateur de la dynamique du manteau de clathrin dont la fonction dans la signalisation Notch et l'endocytose des ligands DSL n'a pas encore été analysée. α4GT1 est une α1,4- Nacétylgalactosaminyltranferase impliquée dans la voie de biosynthèse des glycosphingolipides (GSLs). L'obtention d'allèles mutants de cette enzyme a révélé qu'elle n'était pas essentielle à la signalisation Notch. En revanche, sa surexpression restaure le trafic des ligands DSL dans des contextes de pertes partielles d'activité ubiquitine ligase. Des analyses génétiques et biochimiques ont permis de montrer que cette fonction d'α4GT1 dans la signalisation Notch nécessite la synthèse d'un glycosphingolipide (GSL) particulier, N5, produit par α4GT1. L'identification d'un motif conservé d'interaction avec les GSLs dans le domaine Nterminal de Delta et Serrate suggère une interaction directe entre ces ligands et les GSLs.

Notch

Mind bomb1

4GT1

Glycosphingolipides

Signalisation

Drosophile

A Novel Model System is Applied to Examine the Interplay of Notch and GATA Factors during T Lineage Committment

de Pooter, Renee

20 January 2009

T lymphocytes comprise one arm of the adaptive immune system and are critical for immunity to neoplasia and infection. A full understanding of their development has important implications for the treatment of autoimmunity, immunodeficiency, and leukemias arising from T cell developmental intermediates. The Notch signaling pathway is already known to be absolutely required for T cell commitment and development, but its collaboration with other factors is poorly understood. Unfortunately, deficiency in many of the genes critical to hematopoiesis, including Notch, causes early embryonic lethality by disrupting multiple developmental processes. This complicates the study of such genes by in vivo models or ex vivo hematopoietic progenitors. To circumvent these difficulties, this thesis describes the use of in vitro-differentiated embryonic stem cell-derived T progenitors to examine the roles of two GATA family members during early T cell development. GATA-2, while not required for T cell development, is shown to act downstream of Notch signals to inhibit myelopoiesis. These findings both characterize a novel role for GATA-2, and demonstrate that T progenitor maturation and exclusion of non-T cell fates are distinct and separable events. GATA-3, in contrast to GATA-2, is absolutely required for T lymphopoiesis. However, the current literature does not distinguish between a requirement for GATA-3 in homing to the thymic environment, committing to the T cell fate, or surviving such a commitment event. This thesis demonstrates that GATA-3 is dispensable for commitment itself, but required to permit survival and proliferation after commitment. Taken together, the results presented in this thesis employ a novel model system to characterize the interactions of two important collaborators with Notch signals during T cell development, and further dissect the stages through which early T cell development is enacted.

lymphopoiesis

T cell development

OP9-DL1

embryonic stem cell

GATA

Notch

0982