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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Investigating the role of phosphorylation and ubiquitylation dependent regulation of Hippo signalling

Fulford, Alexander January 2018 (has links)
The Hippo Pathway is a highly conserved regulator of tissue growth and size determination, limiting the activity of the transcriptional co-activator Yorkie (Yki), which promotes proliferation and inhibits apoptosis. Hippo signalling integrates and transduces cell polarity and cell-cell adhesion inputs thereby responding to the state of tissue architecture. The transmembrane apical polarity protein Crumbs (Crb) controls the activity of Yki by regulating Expanded (Ex), a protein that promotes Hippo signalling through kinase-dependent and -independent mechanisms to robustly inhibit Yki activity. Crb plays a dual role in the regulation of Ex by controlling its apical localisation, facilitating Yki inhibition, and by promoting Ex degradation, thus activating Yki. Crb regulates the stability of Ex by stimulating a phosphorylation-dependent ubiquitylation and proteasomal degradation. Characterisation of the precise mechanisms by which Crb regulates Ex has been the focus of this thesis. Based on candidates identified by mass spectrometry and from literature, the Casein Kinase 1 (CK1) family of kinases, and the deubiquitylating enzyme (DUB) Usp2 have both been identified as novel regulators of Ex stability. CK1s promote Ex phosphorylation and degradation, acting as Ex inhibitors, while Usp2 promotes Ex function by promoting its stabilisation. Furthermore, in a screen to identify DUBs that regulate Drosophila adult wing size, CG10889 has been established as a novel regulator of growth that interacts with members of the Hippo pathway.
2

Characterization of the Interactome of the Hippo Tumour Suppressor Pathway using Mass Spectrometry

Yuan, Fang 11 December 2013 (has links)
The Hippo signaling pathway offers an intrinsic mechanism to control organ sizes, and dysfunction of this pathway can often lead to cancer. Great advancement has been made in recent years into understanding this pathway. Despite all this invaluable knowledge, much remains to be explored. Mass spectrometry offers an unbiased approach to characterize the interactome of any protein of interest and is particularly powerful for identifying potential novel regulators of signalling pathways. I therefore set out to characterize the interactome of all the Hippo pathway main components using mass spectrometry, with the goal of uncovering novel regulatory mechanism(s) of the Hippo pathway. In the end, I was able to identify over 250 novel interactors of the Hippo pathway in total. This study demonstrates the utility of mass spectrometry to identify novel regulators of the Hippo pathway and characterization of one such interactor.
3

Characterization of the Interactome of the Hippo Tumour Suppressor Pathway using Mass Spectrometry

Yuan, Fang 11 December 2013 (has links)
The Hippo signaling pathway offers an intrinsic mechanism to control organ sizes, and dysfunction of this pathway can often lead to cancer. Great advancement has been made in recent years into understanding this pathway. Despite all this invaluable knowledge, much remains to be explored. Mass spectrometry offers an unbiased approach to characterize the interactome of any protein of interest and is particularly powerful for identifying potential novel regulators of signalling pathways. I therefore set out to characterize the interactome of all the Hippo pathway main components using mass spectrometry, with the goal of uncovering novel regulatory mechanism(s) of the Hippo pathway. In the end, I was able to identify over 250 novel interactors of the Hippo pathway in total. This study demonstrates the utility of mass spectrometry to identify novel regulators of the Hippo pathway and characterization of one such interactor.
4

Defining mechanisms directing YAP/TAZ-mediated tumorigenesis

Hiemer, Samantha Elizabeth 17 February 2016 (has links)
Dysregulated Hippo pathway signaling promotes the onset of aggressive cancers through the induced nuclear activity of yes-associated protein (YAP) and transcriptional co-activator with PDZ binding motif (TAZ) (YAP/TAZ). Uncontrolled nuclear YAP/TAZ activity evokes tumor-initiating properties in a range of epithelial-derived cancers, including oral and breast cancers, but their downstream targets and mechanisms of action are unclear. Recent studies have suggested that the pro-tumorigenic roles for YAP/TAZ relate to their convergence with growth factor signaling pathways. Based on these previous studies, I hypothesized that YAP/TAZ driven transcription contributes to carcinoma progression, and that cooperation with transforming growth factor β (TGFβ)-induced signals promotes aggressive oncogenic traits. In this thesis I show that dysregulated YAP localization precedes oral squamous cell carcinoma (OSCC) development, and that nuclear YAP/TAZ activity drives cell proliferation, survival, and migration in vitro, and is required for tumor growth and metastasis in vivo. Global gene expression studies in OSCC cells revealed that YAP/TAZ-mediated gene expression correlates with expression changes that occur in human OSCCs identified by “The Cancer Genome Atlas” (TCGA), many of which encode cell cycle and survival regulators. By exploring the relationship with growth factor signaling, I found that YAP/TAZ induce pro-tumorigenic events by converging with TGFβ-induced signals, particularly in breast cancer cells where TGFβ is known to promote metastatic properties. My observations indicated that YAP/TAZ are necessary for maintaining and promoting TGFβ-induced tumorigenic phenotypes in breast cancer cells, and that these phenotypes result from the cooperative activity of YAP/TAZ, the TEA domain family of transcription factors (TEADs), and TGFβ-activated SMAD2/3 in the nucleus. Genome-wide expression analyses indicated that YAP/TAZ, TEADs, and TGFβ-induced signals coordinate a specific pro-tumorigenic transcriptional program. Importantly, genes cooperatively regulated by these complexes, such as the novel targets neuronal growth regulator 1 (NEGR1) and urothelial cancer associated 1 (UCA1), are necessary to maintain tumorigenic activity in metastatic breast cancer cells. Nuclear YAP/TAZ also cooperate with TGFβ signaling to promote phenotypic and transcriptional changes in non-tumorigenic cells to overcome TGFβ-mediated growth inhibition. This work thus defines novel roles for YAP/TAZ in cancer, offering molecular mechanisms that may be useful for identifying and targeting YAP/TAZ-driven cancers.
5

Evaluating the role of the Hippo pathway in the onset and disease progression of the SOD1 mouse model of amyotrophic lateral sclerosis

Granucci, Eric 18 June 2016 (has links)
The Hippo pathway is a cell signaling pathway involved in organ size regulation and tumorigenesis in mammals. This pathway regulates the activity of Yes-associated protein (YAP), a transcriptional coactivator which binds to the transcription factor TEAD to promote expression of genes controlling growth and proliferation of tissues, as well as inhibition of apoptosis. The Hippo pathway has recently been implicated as a pathogenic mechanism in neurodegenerative disorders. Specifically, mammalian sterile 20 (Ste20)-like kinase 1 (MST1), a protein kinase in the Hippo pathway, has been found to promote neuronal death under conditions of oxidative stress. Moreover, homozygous deletion of MST1 in a mouse model of Amyotrophic Lateral Sclerosis (ALS) significantly delayed onset of neurodegenerative symptoms. We examined the expression levels of key Hippo pathway components in cortex, lumbar spinal cord, and gastrocnemius muscle samples of male and female G39A SOD1 mice using western blots. Our results revealed a significant increase in phosphorylated MST1 (pMST1) in lumbar spinal cord of presymptomatic transgenic animals, and found this increase to be sex and gene copy number dependent. These results suggest that the Hippo pathway is dysregulated in the SOD1 mouse model and that MST1 may play a critical role in pathogenesis and disease progression in ALS.
6

Mammalian upstream Hippo signalling pathway proteins activate core pathway kinases and functionally antagonize oncogenic YAP

Moleirinho, Susana January 2013 (has links)
The mechanism of body and organ size control is an unsolved puzzle. Initially characterized in Drosophila melanogaster, the Salvador/Warts/Hippo (Hippo) signalling pathway, highly conserved throughout evolution, defines a novel signalling cascade regulating cell contact inhibition, organ size control, cell growth, proliferation, apoptosis, and cancer development in mammals. The upstream regulation of this pathway has been less well defined than the core kinase cassette. Previously Willin/FRMD6 has been proposed as the human orthologue of Expanded and, to date, little is known about the functional role of Willin in mammalian cells. My study elucidated the mechanism by which Willin antagonizes the transcriptional co-activator YAP. In MCF10A cells, Willin ectopic expression antagonizes YAP-induced epithelial-mesenchymal phenotypes via YAP Ser127 phosphorylation site. Loss of Willin expression attenuates MST1/2, LATS1, and YAP phosphorylation promoting YAP's oncogenic transformation activity in vitro, as analysed by its ability to display epithelial-to-mesenchymal transition (EMT) features. These biological outputs are YAP dependent. These data support the involvement of Willin in the regulation of the mammalian Hippo signalling activity by activating the core Hippo pathway kinase cassette. KIBRA has been shown to function as an upstream member of the Hippo pathway by influencing the phosphorylation of LATS and YAP, but the functional consequences of these biochemical changes have not been previously addressed. I showed that in MCF10A cells, loss of KIBRA expression displays EMT features, which are concomitant with decreased LATS and YAP phosphorylation, but not MST1/2. In addition, ectopic KIBRA expression antagonizes YAP via the Ser 127 phosphorylation site and I showed that KIBRA, Willin and Merlin differentially regulate genes controlled by YAP. Willin/FRMD6 was first identified in rat sciatic nerve, which is composed of Schwann cells and fibroblasts. To elucidate the function of Willin in the mammalian sciatic nerve, I showed that Willin is predominantly expressed in fibroblasts and that its expression activates the Hippo signalling cascade and induces YAP translocation from the nucleus to the cytoplasm. In addition within these cells, although it inhibits cellular proliferation, Willin expression induces a quicker directional migration towards scratch closure and an increased expression of factors linked to nerve regeneration. These evidence show that Willin modulates sciatic nerve fibroblast activity, indicating that Willin may have a potential role in the regeneration of the peripheral nervous system.
7

STK38L kinase ablation promotes loss of cell viability in a subset of KRAS-dependent pancreatic cancer Cell lines

Grant, Trevor James 01 November 2017 (has links)
Pancreatic ductal adenocarcinomas (PDACs) are highly aggressive malignancies, associated with poor clinical prognosis and limited therapeutic options. The KRAS oncogene is mutated in over 90% of PDACs and plays a pivotal role in tumor progression. Global gene expression profiling of PDAC reveals 3-4 major molecular subtypes with distinct phenotypic traits and pharmacological vulnerabilities, including variations in oncogenic KRAS pathway dependencies. PDAC cell lines of the aberrantly differentiated endocrine exocrine (ADEX) subtype are robustly KRAS-dependent for survival. The KRAS gene is located on chromosome 12p11-12p12, a region amplified in 5-10% of primary PDACs. Within this amplicon, we identified co-amplification of KRAS with the STK38L gene in a subset of primary human PDACs and PDAC cell lines. This provided rationale to determine whether PDAC cell lines are dependent on STK38L expression for proliferation and viability. STK38L (also known as NDR2) encodes a nuclear Dbf2-related (NDR) serine/threonine kinase, which shares homology with Hippo pathway LATS1/2 kinases. We show that STK38L expression levels are elevated in a subset of primary PDACs and PDAC cell lines that display ADEX subtype characteristics, including overexpression of mutant KRAS. RNAi-mediated depletion of STK38L in a subset of ADEX subtype cell lines results in decreased cellular proliferation and increased apoptotic cell death. Concomitant with cytostatic and cytotoxic effects, STK38L depletion causes increased expression of the LATS2 kinase and the cell cycle regulator p21. LATS2 depletion partially rescues the cell proliferation and viability effects of STK38L depletion. Lastly, high STK38L mRNA expression is associated with worse patient prognosis compared to low STK38L expression in PDACs. Taken together, our study uncovers STK38L as a candidate, targetable vulnerability in a subset of molecularly defined PDACs. / 2019-11-01T00:00:00Z
8

Μελέτη της έκφρασης σηματοδοτικών μορίων που εμπλέκονται στη βιολογική συμπεριφορά των μηνιγγιωμάτων του ανθρώπου

Θεοδωροπούλου, Ανδριάνα 17 September 2012 (has links)
Τα μηνιγγιώματα αποτελούν ιδιαίτερα συχνούς όγκους του Kεντρικού Νευρικού Συστήματος, όχι όμως επαρκώς μελετημένοι. Στην πλειοψηφία τους είναι καλοήθεις όγκοι (WHO grade I), όμως το 10% όλων των μηνιγγιωμάτων εμφανίζουν κακοήθη χαρακτηριστικά, όπως διήθηση των παρακείμενων ιστών, αυξημένα ποσοστά υποτροπής μετά από εξαίρεση, κ.α. Το σηματοδοτικό μονοπάτι Hippo είναι ένα διατηρημένο εξελικτικά μονοπάτι που εμπλέκεται σε διαδικασίες ρύθμισης του μεγέθους των οργάνων, κυτταρικού πολλαπλασιασμού, διαφοροποίησης και ανάπτυξης καρκίνου. Λίγα είναι γνωστά όσον αφορά το ρόλο του Hippo μονοπατιού στα μηνιγγιώματα. Σκοπός της παρούσας εργασίας είναι η μελέτη του Hippo μονοπατιού στα χαμηλής και υψηλής κακοήθειας μηνιγγιώματα. Χρησιμοποιήθηκαν 53 δείγματα από εξαιρεθέντα μηνιγγιώματα, 34 χαμηλής κακοήθειας και 19 υψηλής κακοήθειας, τα οποία μελετήθηκαν ανοσοϊστοχημικά ως προς την έκφραση των παραγόντων του Hippo CD44, YAP και TAZ. Παρατηρήσαμε στατιστικά σημαντική συσχέτιση μεταξύ της έκφρασης των CD44, ΥΑΡ και ΤΑΖ. Υπήρχε στατιστικά σημαντική συσχέτιση μεταξύ του βαθμού κακοήθειας και της έκφρασης των παραπάνω μορίων. Παρατηρήθηκε στατιστικά σημαντική διαφορά στην πυρηνική εντόπιση των ΥΑΡ και ΤΑΖ μεταξύ των υψηλής και χαμηλής κακοήθειας μηνιγγιωμάτων. Βάσει των παραπάνω αποτελεσμάτων, συμπεραίνουμε ότι το σηματοδοτικό μονοπάτι Hippo είναι απενεργοποιημένο στα υψηλής κακοήθειας μηνιγγιώματα με αποτέλεσμα οι μεταγραφικοί συνενεργοποιητές ΥΑΡ και ΤΑΖ να δρουν στον πυρήνα προάγοντας τον κυτταρικό πολλαπλασιασμό και διαδικασίες αντιαπόπτωσης. Αυτό, είναι ίσως εφικτό μέσω της δράσης του CD44 που αλληλεπιδρά με την μερλίνη, upstream ρυθμιστής του μονοπατιού. Απαιτούνται περαιτέρω μελέτες για τη διευκρίνηση του ακριβούς μηχανισμού. / Meningiomas are among the most common primary tumors of the Central Nervous System, but relatively understudied. The majority of meningiomas are benign tumors (WHO grade I), but almost 10% of all diagnosed meningiomas exhibit malignant features, such as invasiveness to the surrounding brain tissue, high recurrence rate, etc. Hippo signaling pathway is an evolutionary highly conserved protein kinase cascade involved in organ size control, cell proliferation and apoptosis, differentiation and cancer development. Very few are known about the role of Hippo pathway and meningiomas. In this study we attempt to find out whether Hippo path functions differently between high and low grade meningiomas. For this purpose paraffin embedded tissues obtained from 53 patients who underwent surgical removal of meningiomas were examined histoimmunologicaly. 34 out of 53 cases were low grade meningiomas and 19 out of 53 were high grade meningiomas. The paraffin sections were immunostained with CD44, YAP and TAZ antibodies, components of the Hippo signaling pathway. We observed statistically significant association between the expression of CD44, YAP and TAZ. There was a significant correlation between high grade meningiomas and expression of the examined factors. Moreover there was a significant difference in nuclear accumulation of YAP and TAZ between high and low grade meningiomas. Our findings suggest that in high grade meningiomas, Hippo pathway is inactivated and YAP and TAZ transcriptional co activators are able to insert nucleus and promote proliferation and antiapoptosis. This may be due to CD44 function, which interacts with merlin, an upstream regulator of the Hippo path. More experiments are required to verify the exact mechanism.
9

YAP-regulated epithelial-fibroblast crosstalk

Khaliqdina, Shoheera 08 April 2016 (has links)
According to the Centers for Disease Control, cancer is one of the leading causes of death in the United States. Characterized as a disease that develops as a result of an unstable genome, cancer is known to arise from numerous spontaneous mutations in the DNA of cells. Recent evidence shows that cancer cells within tumors are not self-reliant; rather, they progress along with other cells in their surrounding environment. Tumor cells recruit neighboring cells that, like the cancer cells, also become deregulated, forming the tumor stroma that aids in tumor progression. Within the stroma, cancer-associated fibroblasts (CAFs) play a vital role in the progression of cancer. Recent studies have found an important link between increased matrix stiffness surrounding the tumor and the invasion of the tumor. Thus, it is proposed that as the matrix stiffens, the tumor takes on more aggressive phenotypes. The transcriptional regulators YAP and TAZ (YAP/TAZ), key effectors of the Hippo pathway, are known to respond and influence matrix stiffening. In stiff matrix environments YAP/TAZ accumulate in the nucleus, and can drive transcriptional events. CAF's from late stage breast cancers have been found to exhibit increased YAP expression and increased ability to remodel and stiffen the extracellular matrix. Whether YAP or TAZ in these CAFs influences the metastatic properties of tumor cells is unclear. The present study aims to establish a link between YAP/TAZ activity in CAFs and cancer migration and invasion. We hypothesized that high nuclear activity of YAP/TAZ in fibroblasts would lead to non-autonomous signals that increase epithelial migration, and conversely that signals originating from epithelial cells affect YAP regulation in fibroblasts. We obtained CAFs from oral squamous cell carcinomas (OSCC) at various stages, and interestingly found that when CAFs obtained from stage III and stage IV tumors were co-cultured with OSCC cells they had the ability to cause OSCC cell migration. This CAF-induced migration was dependent on YAP/TAZ in the CAFs, as YAP/TAZ knockdown repressed this crosstalk. To gain insight into the mechanisms driving this process, transwell migration assays were conducted using NIH-3T3 fibroblasts engineered to overexpress YAP, or mutants of YAP, in doxycycline-inducible manner. We found that expression of YAP in NIH-3T3 cells, particularly a nuclear-localized YAP mutant, promoted the ability for OSCC cells to migrate in co-culture experiments. Media conditioned from these cells was sufficient to recapitulate this phenotype, suggesting that secreted factors from these fibroblasts may act as a signal that promotes migration. This activity of YAP was dependent on the ability for YAP to bind to the TEAD transcription factors, a major mediator of YAP transcriptional activity. Together these results indicate that nuclear YAP activity in fibroblasts can modulate the migration of neighboring cancer cells, suggesting that YAP plays a key role in stroma-cancer crosstalk during cancer progression.
10

Defining the roles of YAP/TAZ in controlling cell fate decisions following abnormal mitosis

Bolgioni-Smith, Amanda 24 October 2018 (has links)
Mitosis is a critically important and time sensitive cellular process that proceeds rapidly, typically completing in 15-45 minutes. Mechanisms have evolved to measure the duration of mitosis, resulting in the identification of aberrant cells that spend too long in mitosis. If non-transformed cells undergo a mitosis that exceeds 90 minutes, then the resulting daughter cells activate a durable G1 arrest and cease proliferating. The underlying mechanism acting to time the duration of mitosis is unknown. Here, we demonstrate that cells activate the Hippo pathway upon entry into mitosis, which initiates degradation of the pro-growth transcriptional co-activators YAP and TAZ. Consequently, prolonged mitosis leads to decreased YAP/TAZ levels in the following G1, thus enforcing cell cycle arrest. We reveal that inactivation of the Hippo pathway, which is common in solid tumors, is sufficient to restore YAP/TAZ levels following a prolonged mitosis, and cells born from this prolonged mitosis can progress through the cell cycle. We also demonstrate that Hippo pathway inactivation alters cell fate decisions in response to mitotic arrest. Antimitotics (e.g. Taxol) have long been used to permanently arrest cells in mitosis, which frequently results in mitotic cell death. It has long been recognized that some cancer cells are resistant to antimitotics; this resistance can arise from cells escaping mitosis into the G1 phase in a process termed mitotic slippage. The mechanisms underlying these cell fate decisions are poorly understood. Here, we demonstrate that inactivation of the Hippo pathway promotes mitotic slippage and overall survival in cells treated with antimitotics by increasing antiapoptotic protein expression. Our data suggest that inactivation of the Hippo pathway may promote resistance to antimitotic therapies by favoring the survival and proliferation of cells that have experienced a prolonged mitosis. Interestingly, we find that restoring Hippo signaling to cancer cells that are resistant to antimitotic therapies sensitizes them to antimitotics and promotes mitotic cell death. Overall, we illuminate a broad role for Hippo signaling in determining cell fate during mitosis and identify a novel mechanism by which resistance to antimitotic therapies can arise. / 2020-10-24T00:00:00Z

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