Characterization of an acanthamoeba castellanii adhesin /

Kennett, Mary Josephine,

January 1999

Thesis (Ph. D.)--University of Missouri--Columbia, 1999. / "May 1999." Typescript. Vita. Includes bibliographical references (leaves 117-128). Also available on the Internet.

Transcriptional properties of the Kaiso class of transcription factors /

Elzi, David John,

January 2007

Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 109-119).

The macrophage response to biomaterial topography : gene expression, integrin signaling, and surface adhesions /

Collie, Angela M. B.

January 2006

Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 69-82).

Helicobacter pylori-mediated dysregulation of p120ctn and matrix metalloproteinase-7

Ogden, Seth Rayborn.

January 2009

Thesis (Ph. D. in Cancer Biology)--Vanderbilt University, May 2009. / Title from title screen. Includes bibliographical references.

Effects of cell adhesion molecules and extracellular matrix molecules on growth cone motility and pathfinding

Burden Gulley, Susan M.

January 1995

No description available.

Biology, Neuroscience

Cell adhesion molecules

Extracellular matrix molecules

Growth cone

The Role of Cell Adhesion, the Cytoskeleton, and Membrane Trafficking during Synapse Outgrowth: A Dissertation

Ashley, James A.

13 September 2006

The synapse, the minimal element required for interneuronal communication in the nervous sytems, is a structure with a great deal of plasticity, capable of undergoing changes that alter transmission strength, and even forming new connections. This property has great implications for a number of processes, including circuit formation and learning and memory. However, the proteins behind this synaptic plasticity are still not fully understood. To uncover and characterize the proteins that regulate the plastic nature of the synapse, I turned to the Drosophilalarval neuromuscular junction (NMJ), a powerful and accessible model system. I began by examining synaptic cell adhesion, as Cell Adhesion Molecules (CAMs) have long been implicated in synaptic outgrowth as well as learning and memory. CAMs have traditionally been thought of as molecules that mediate cell adhesion between the pre- and postsynaptic membrane. However, through the course of the studies presented here I demonstrate a CAM function that goes beyond simple cell adhesion, acting as a receptor that transduces adhesive signals to the intracellular space. In particular, I have demonstrated a role for the Drosophila CAM, Fasciclin II(FasII), in a signaling complex involving the Amyloid Precursor Protein-Like (APPL) and the Drosophila homolog of X11/MINT/Lin-10 (dX11). Further results show that deletion of either APPL or dX11 inhibits the FasII mediated outgrowth. These studies show that during NMJ expansion the transinteraction between FasII molecules in the pre- and postsynaptic membrane results in the recruitment of APPL and dX11 to the presynaptic cell surface, and the initiation of a signaling cascade that leads to bouton outgrowth. The next question addressed here was regarding the cytoskeletal changes that must occur during synapse remodeling. In particular I centered on the evolutionarily conserved cell polarity complex aPKC-Par3-Par6, which is know to regulate axon growth, the cell cytoskeleton during polarized cell division, and learning and memory. To understand the role of the cytoskeleton during NMJ expansion, I examined the organization of microtubules and actin during this process. Further, I identified atypical protein kinase C (aPKC) as a regulator of microtubule dynamics. I found that aPKC is required for regulating the degree of stabilization of synaptic microtubules. This stabilization requires the Microtubule Associated Protein-1B (MAP1B) homolog Futsch, which I demonstrated was required for aPKC to associate with and stabilize the microtubule cytoskeleton. The process of synaptic expansion not only requires modifications to the presynapse, but to the postsynapse as well. Previous work demonstrates that levels of the scaffolding proteins DrosophilaMembrane Associated Guanlyate Kinase (MAGUK) protein Discs-large (DLG), as well as the vertebrate homolog Postsynaptic Density-95 (PSD-95), which are concentrated at synapses, determine the size of postsynaptic membranes. To identify the underlying mechanisms of the regulation of postsynaptic size, we performed a yeast two hybrid screen, searching for DLG interacting proteins. We found a novel interaction between DLG, and a t-SNARE, GUK-interacting Syntaxin (Gtaxin; GTX), and went on to demonstrate that this interaction is required for proper postsynaptic membrane addition. Strong hypomorphic mutations in either dlg or gtx show a dramatic reduction in postsynaptic expansion. Overexpression of DLG produces an increase of synaptic GTX, as well as an increase in postsynaptic size, and an increased formation of GTX positive SNARE complexes. Taken together, these observations suggest that the MAGUK DLG regulates postsynaptic membrane addition by modulating the formation of a SNARE complex of the t-SNARE Gtaxin, and by targeting GTX to sites of postsynaptic membrane addition. In summary, the studies performed in this thesis probe a trans-synaptic adhesion based signaling complex required for presynaptic expansion, a specific pathway for dynamic microtubule stabilization required for pre- and postsynaptic expansion, and how a scaffolding protein regulates postsynaptic membrane expansion. These processes are all interconnected to maintain the efficacy of the synapse. The studies conducted revealed important information about how these processes are accomplished, and constitute an important step to elucidate the mechanisms by which synapse plasticity occurs at the level of single synaptic terminals.

synapse

synaptic plasticity

Drosophila

neuromuscular junction

cell adhesion molecules

cytoskeleton

Neuronal Plasticity

Synapses

Cell Adhesion Molecules

Microtubule Proteins

Protein Transport

Dissertations, UMMS

Neuroscience and Neurobiology

Functional roles of L1-Cam/Neuroglian in the nervous system of Drosophila Melanogaster

Unknown Date

Neuronal cell adhesion molecules of L1 family play a critical role in proper nervous system development. Various mutations on human L1-CAM that lead to severe neurodevelopmental disorders like retardation, spasticity etc. termed under L1 syndrome. The vertebrr their roles in axon pathfinding, neurite extension and cell migration, howeverate L1CAM and its homolog in Drosophila, neuroglian (nrg) have been well studied fo, much less is known about the mechanisms by which they fine tune synaptic connectivity to control the development and maintenance of synaptic connections within neuronal circuits. Here we characterized the essential role of nrg in regulating synaptic structure and function in vivo in a well characterized Drosophila central synapse model neuron, the Giant Fiber (GF) system. Previous studies from our lab revealed that the phosphorylation status of the tyrosine in the Ankyrin binding FIGQY motif in the intracellular domain of Nrg iscrucial for synapse formation of the GF to Tergo-Trochanteral Motor neuron (TTMn) synapse in the GF circuit. The present work provided us with novel insights into the role of Nrg-Ank interaction in regulating Nrg function during synapse formation and maintenance. By utilizing a sophisticated Pacman based genomic rescue strategy we have shown that dynamic regulation of the Neuroglian–Ankyrin interaction is required to coordinate transsynaptic development in the GF–TTMn synapse. In contrast, the strength of Ankyrin binding directly controls the balance between synapse formation and maintenance at the NMJ. Human L1 pathological mutations affect different biological processes distinctively and thus their proper characterization in vivo is essential to understand L1CAM function. By utilizing nrg14;P[nrg180ΔFIGQY] mutants that have exclusive synaptic defects and the previously characterized nrg849 allele that affected both GF guidance and synaptic function, we were able to analyze pathological L1CAM missense mutations with respect to their effects on guidance and synapse formation in vivo. We found that the human pathological H210Q, R184Q and Y1070C, but not the E309K and L120V L1CAM mutations affect outside-in signaling via the FIGQY Ankyrin binding domain which is required for synapse formation and not for axon guidance while L1CAM homophilic binding and signaling via the ERM motif is essential for axon guidance in Drosophila. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2014. / FAU Electronic Theses and Dissertations Collection

Cell adhesion molecules

Cellular signal transduction

Cognitive neuroscience

Cognitive neuroscience

Drosophila melanogaster

Molecular neurobiology

A Novel Role of the Ankyrin-Binding Motif of L1-Type CAM Neuroglian in Nuclear Import and Transcriptional Regulation of Myc

Unknown Date

L1-type cell adhesion molecule (L1CAM) plays an essential role in the development of nervous system and is also highly relevant for the progression of diseases such as Alzheimer’s disease, stroke and cancers, some of the leading causes of human mortality. In addition to its canonical role as a plasma membrane protein organizing the cytoskeleton, recent in vitro studies have revealed that transmembrane as well as cytosolic fragments of proteolytically cleaved vertebrate L1CAM translocate to the nucleus and regulate expression of genes involved in DNA post-replication repair, cell cycle control, migration and differentiation. However, little is known about the in vivo function of L1CAM in the adult nervous system. This dissertation research focuses on studying in vivo nuclear translocation and function of L1CAM. Using the Drosophila model system, we first show that the sole Drosophila L1CAM homolog, Neuroglian (Nrg), is proteolytically cleaved by Alzheimer’s associated secretases, similar to L1CAM, and is also translocated to the nucleus in the adult nervous system. Subsequently, we have shown that the deletion of highly conserved Ankyrin binding domain or FIGQY motif disrupts nuclear import. Further experiments have revealed that the nuclear translocation of Nrg is in fact regulated by the phosphorylation of the FIGQY motif. Importantly, our studies also show transgenic expression of full-length Nrg or the intracellular domain of Nrg resulted in increased myc expression, which is associated with increased sensitivity to oxidative stress and reduced life span. On the other hand, deletion of the FIGQY motif or mutations preventing its phosphorylation led to decrease in myc expression. In summary, we have identified a novel role for the highly conserved Ankyrin binding domain in nuclear translocation and transcriptional regulation of the Drosophila myc oncogene, which is of high relevance to neurodegenerative diseases and cancer associated with oxidative stress. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection

Cell adhesion molecules.

Myc proteins.

Transcription, Genetic.

Transcription factors

Gene expression.

Ankyrins.

Translocation, Genetic.

Effects of glycosylation on melanoma interactions with type IV collagen models

Unknown Date

Tumor cells interact with basement membrane collagen at the site of extravasation through distinct cellular receptors, including the α2β1 and α3β1integrins. These receptors are known to be differentially expressed in metastatic tumors, relative to the normal cells, depending on tumor type and stage of progression. The binding sites within type IV collagen for the α2β1 andα3β1 integrins have been identified. Since both of the integinspecific sequences possess at least one glycosylated Hyl residue, we questioned whether glycosylation could modulate integrin binding. Triple-helical peptides with and without Lys substituted by glycosylated Hyl for Lys543 and Lys540 from the human a1(IV)531-543 gene sequence (α3β integrin-specific) and Lys393 from the human a1(IV)382-393 gene sequence (α2β1 integrin-specific) were synthesized and utilized in the present study. / Cellular response to these triple helical ligands was tested with a primary melanoma cell line, WM-115, and three highly metastatic melanoma cell lines , WM-266-4, M14#5, and SK-MEL-2. Cell adhesion and cell spreading assays yielded differing results depending on whether the ligands contained glycosylated Hyl residues or not. In general, a decrease in cellular affinity toward the ligands was observed when glycosylated Hyl was present. Differences in the levels of adhesion and spreading between cell lines representing different stages of melanoma were also observed. Neutral B-galactosidase activity was detected in all four cell lines. Enzymatic activity levels were comparable for the three metastatic cell lines, whereas distinctively higher activity was detected for cells originating from a primary lesion. This acitivity can signal the potential of tumor cells to enhance and recover their invasive abilities. / The ability of each cell line to remove the galactose from the peptide ligands has been investigated, to test whether tumor cells can reestablish binding relationships between the α2β1 and α3β1 integrins and type IV collagen that are reduced by glycosylation. / by Beatrix Aukszi. / Thesis (Ph.D.)--Florida Atlantic University, 2008. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2008. Mode of access: World Wide Web.

Animal cell biotechnology

Combinatorial chemistry

Integrins--Research--Methodology

Análise da expressão de moléculas de adesão no tumor primário e em metástases ósseas e linfonodais de pacientes com câncer de próstata / Adhesion molecules in localized prostate cancer and in bone and lymph node metastases

Pontes Junior, José

12 February 2010

Objetivo: As moléculas de adesão celular (MAC) são essenciais para a manutenção do fenótipo epitelial. Alguns estudos têm relatado associação entre as alterações de sua expressão e a carcinogênese, mas o seu papel no câncer de próstata não é claro. Nosso objetivo foi estudar o perfil de expressão de E-caderina, cateninas e integrinas em espécimes cirúrgicos de câncer de próstata e associar as suas expressões com a evolução do tumor. Avaliamos também o perfil de expressão em metástases ósseas e linfonodais, a fim de compreender a influência destes marcadores na progressão do câncer de próstata. Materiais e Métodos: Foram selecionados 111 pacientes com câncer de próstata localizado tratados com prostatectomia radical pelo mesmo cirurgião. Sessenta pacientes não apresentaram recidiva tumoral após acompanhamento médio de 123 meses. A expressão das MAC foi avaliada por imuno-histoquímica (IH) em microarranjo tecidual (TMA), contendo duas amostras de cada tumor. Empregamos análise semiquantitativa para avaliação da expressão e determinamos a associação entre a expressão de cada MAC com a recorrência do tumor após a cirurgia. Avaliamos também a expressão das MAC por IH em TMA contendo espécimes de 28 metástases ósseas e em outro TMA contendo 19 metástases linfonodais com seus 19 tumores primários correspondentes. Resultados: Nos tumores primários a análise multivariada mostrou que a expressão das integrinas 3 e 3 1 relaciona-se com recidiva da doença. Quando a expressão de 3 foi forte e a expressão de 3 1 foi positiva, as chances de recorrência foram de 3,0 e 2,5 vezes maior. Apenas 19% e 28% dos pacientes estavam livres de recidiva após seguimento médio de 123 meses, quando os tumores apresentavam forte imunoexpressão de 3 ou positiva para 3 1 respectivamente. Outras integrinas apresentaram expressão reduzida, exceto 6 que foi expressa pela maioria dos tumores primário e metástases. A E-Caderina e as cateninas não mostraram associação com o prognóstico no tumor de próstata localizado. No sítio metastático, houve perda global de expressão das MAC. Encontramos ganho de expressão com a progressão do câncer de próstata somente para a integrina 3 que mostrou forte expressão em metade das metástases ósseas e linfonodais. Encontramos forte expressão de e -catenina foi em 94% dos linfonodos e 45% Conclusões: Nossos experimentos demonstram que a expressão das integrinas 3 e 3 1 está independentemente associada à recidiva de câncer de próstata após prostatectomia radical, e que a perda das moléculas de adesão celular pode ser considerada uma característica da progressão desta neoplasia / Purpose: Cell adhesion molecules (CAM) are essential for the maintenance of epithelial phenotype. Some studies have reported correlations between abnormalities in their expression and carcinogenesis, but their role in prostate cancer is unclear. Our aim was to study the expression profile of E-cadherin, catenins and integrins in surgical specimens of prostate cancer and associate their expression with outcome. We also assessed these expressions in bone and lymph node metastases in order to understand their influence in the progression of prostate cancer. Materials and Methods: We selected 111 patients with localized prostate cancer who underwent radical prostatectomy performed by the same surgeon. Sixty patients had no tumor recurrence after a median follow-up of 123 months. The CAM expression was evaluated by immunohistochemistry in a tissue microarray (TMA) containing two samples of each tumor. A semiquantitative analysis was employed and we measured the association between the expression of CAM and tumor recurrence. We also evaluated CAM expression by immunohistochemistry in a TMA containing 28 bone metastases and in other TMA containing 19 lymph node metastases with their corresponding 19 primary tumors. Results: In primary tumors, multivariate analysis showed that expression of 3 and 31 integrins was related to worse outcome. When 3 expression was strong and 31 expression was positive,the odds of recurrence were 3.0 and 2.5 fold higher. Only 19% and 28% of patients were recurrence-free in a mean follow up period of 123 months, when tumors showed strong 3 or positive 31 immuno-expression respectively. Other integrins have shown reduced expression, except 6 , which was expressed in most primary and metastatic cases. E-cadherin and catenins expressions were not associated with primary tumor outcome. At the metastatic setting, there was a global loss of CAM expression. We observed reliable gain of expression with prostate cancer progression only for integrin 3 that showed strong expression in half of bone and lymph node metastases. Interestingly, strong expression of and -catenin was observed in 94% of lymph node and 45% of bone metastases. Conclusions: We have demonstrated that the expression of integrins 3 and 31 was independently associated with recurrence after radical prostatectomy. In addition, we have shown that the loss of cell adhesion molecules can be considered a characteristic of prostate cancer progression

Caderinas

Cadherins

Câncer de próstata

Cateninas

Catenins

Cell adhesion molecules

Integrinas

Integrins

Moléculas de adesão celular

Prostate cancer