Mapeamento dos canais de água no processo de morfogênese das glândulas salivares humanas: estudo topográfico das aquaporinas 1,3 e 5 / Mapping of water channels in the morphogenesis process of human salivary glands: topographic study of aquaporins 1, 3 and 5

Fernanda de Paula

20 May 2016

Introdução: As glândulas salivares humanas passam por diversos e complexos processos durante o período de desenvolvimento, até que adquiram maturidade estrutural para desempenhar sua função, a formação e secreção de saliva. Considerada essencial à saúde e homeostase da cavidade oral, a saliva é um fluido aquoso que depende de um mecanismo de transporte entre as membranas celulares por meio das aquaporinas. A família de proteínas aquaporinas possui treze membros. Somente algumas dessas proteínas atuam nas glândulas salivares formando poros na bicamada lipídica das membranas celulares facilitando o transporte de água e pequenos solutos, cruciais à regulação da qualidade e quantidade de saliva secretada. Proposição: Diante deste cenário, avaliamos por meio da técnica de imunoistoquímica o padrão de expressão das aquaporinas 1, 3 e 5 de glândulas salivares em desenvolvimento, com o intuito de contribuir com informações de base para futuras pesquisas. Metodologia: 47 espécimes parafinados de glândulas salivares em desenvolvimento, de diferentes sítios da cavidade oral de 20 fetos humanos, com idade entre 14 e 25 semanas, foram submetidos à técnica de imunoperoxidase. Os resultados foram analisados, de acordo com o estágio da morfogênese glandular e localização da expressão das aquaporinas. Resultados: Na fase de botão, houve a expressão das aquaporinas 1, 3 e 5 em todas as células epiteliais; na fase pseudoglandular, a expressão dessas proteínas foi vista nos ductos rudimentares (com exceção da aquaporina 1) e nas porções terminais (futuros ácinos); na fase canalicular as aquaporinas foram principalmente detectadas nos ácinos rudimentares e ductos. Finalmente, na fase de botão terminal, as aquaporinas 3 e 5 foram detectadas nas membranas das células acinares e os ductos expressaram todas as aquaporinas. Conclusão: O presente trabalho evidenciou a imunoexpressão das aquaporinas 1, 3 e 5 nas glândulas salivares humanas durante o período de embriogênese. A análise topográfica dessas proteínas nos permitiu identificar diferenças no padrão de expressão entre as diferentes regiões estruturais e estágios do desenvolvimento glandular, sugerindo diferentes papéis para cada proteína / Introduction: The human salivary glands morphogenesis depends on complex processes during the development period until they reach full structural maturity to perform its function - the synthesis and secretion of saliva. The saliva is a complex aqueous fluid considered essential to health and homeostasis of the oral cavity; its synthesis depends on several molecular mechanisms, including the transport of water, solutes, ions, amongst others across the cell membranes. The aquaporin family of proteins is essential in this process. This protein family consists of thirteen members that form channels across the cell membrane facilitating water and small solutes transportation, crucial to the regulation of quality and quantity of secreted saliva. Aims: In this scenario, we evaluated, using the immunohistochemistry technique, the expression pattern of aquaporins 1, 3 and 5 in the different phases of salivary glands development, in order to understand the role of these protein in the formation of human salivary gland morphogenesis. Methodology: 47 specimens of paraffin embedded human salivary glands at various developmental phases were included in the study. The specimens were derived from various sites of the oral cavity of 20 human fetuses aged between 14 and 25 weeks of gestation. All specimens were subjected to the imunohistochemical immunoperoxidase technique. The results were qualitatively and semiquantitatively analyzed according to the stage of glandular morphogenesis and express location of aquaporin. Results: In the bud stage, there was expression of aquaporin 1, 3 and 5 in all glandular epithelial cells; in pseudoglandular stage, the expression of these proteins was seen in rudimentary ducts (except aquaporin-1) and the terminal end buds (future acini); in the canalicular phase the aquaporins were mainly detected in the rudimentary ducts and acini. Finally, in terminal bud stage, the aquaporin 3 and 5 were detected in the membranes of the ducts and acinar cells expressed all aquaporins. Conclusion: This study showed the presence of aquaporins 1, 3 and 5 in human salivary glands during embryogenesis period. The topographic analysis of these proteins allowed us to identify differences in the expression pattern between the different structural regions and stages of glandular development, suggesting different roles for each of these proteins

Aquaporinas

Feto

Glândulas salivares

Imuno-histoquímica

Morfogênese

Saliva

Técnicas imunoenzimáticas

Aquaporins

Fetus

Immunoenzyme techniques

Immunohistochemistry

Morphogenesis

Saliva

Salivary glands

Décrypter la formation de l'épithélium olfactif : de la diversité cellulaire à la morphogenèse / Deciphering olfactory epithelium development : from cell type diversity to morphogenesis

Aguillon, Raphaël

15 December 2017

La formation d'un organe repose sur la coordination spatio-temporelle du positionnement et de la différenciation de progéniteurs. La finalité de ces évènements permet la constitution structurelle de l'organe et la production de la diversité cellulaire nécessaire pour assurer ses fonctions. L'épithélium olfactif de l'embryon de poisson-zèbre est issu de la migration de progéniteurs qui vont générer entre autres les neurones olfactifs. Au cours de ma thèse je me suis intéressé aux bases génétiques et moléculaires de la coordination de la morphogenèse et de la neurogenèse de cet épithélium tout en étudiant l'origine de la diversité des types cellulaires olfactifs. L'imagerie en temps réel m'a permis de caractériser la migration de ces progéniteurs en générant une carte morphométrique de leur déplacement. Mon travail de thèse révèle que le proneural Neurog1 régule directement l'expression de cxcr4b, un récepteur au chimiokine, dans les progéniteurs olfactifs assurant leur positionnement. Ainsi, Neurog1 coordonnerait la position et l'identité des progéniteurs olfactifs via ses cibles transcriptionnelles. Au sein de l'épithélium olfactif dans l'embryon, deux populations cellulaires (neurones à GnRH et neurones à microvillosités) ont été décrites comme provenant des crêtes neurales céphaliques (CNC). J'ai pu montrer que l'expression de marqueurs spécifiques de ces populations n'est pas affectée dans un contexte d'absence de différenciation des CNCs (sox10-/-) suggérant que ces types cellulaires ne dérivent pas de ce territoire. Afin d'identifier leur territoire d'origine, j'ai développé une méthode d'imagerie en temps réel, le backtracking, qui m'a permis de déterminer que la région de la placode olfactive, et non les crêtes neurales, génère ces deux types cellulaires. Ainsi j'ai pu définir la source de ces deux populations neuronales tout en minimisant la contribution des crêtes neurales. En conclusion mes résultats suggèrent que la diversité des neurones olfactifs serait produite localement et ceci conjointement à la morphogenèse de l'épithélium. / The correct development of sensory organs relies on the coordination between changes in progenitor positioning over time and the differentiation/specification of different neural subtypes. The outcome of this coordination is proper organ shape and cell diversity, which are required for functionality. The zebrafish embryonic olfactory epithelium arises from progenitor migration and differentiation. During my PhD, I studied the genetic and molecular basis of morphogenesis in this tissue, and how this is coordinated with neurogenesis, as well as revisiting the origin of olfactory cell type diversity.First, I generated a morphometric map of olfactory progenitors through the characterization of their migration in live embryos. Next, I showed that the proneural transcription factor Neurog1 directly regulates cxcr4b expression, a chemokine receptor that has already been shown to govern olfactory progenitor positioning. Thus, Neurog1 orchestrates olfactory progenitor position and the generation of olfactory neurons via distinct transcriptional targets. Secondly, I addressed the origin of olfactory neuron diversity. Within the embryonic olfactory epithelium, two cell populations (GnRH neurons and microvillous neurons) have been described as cephalic neural crest (CNC) derivatives. I found, however, that the expression of specific markers of both populations is unaffected in a genetic context blocking CNC differentiation. To revisit the lineage assignment of these cell types, I developed a backtracking approach through time-lapse live imaging. I found that both populations are derived from classical olfactory placode progenitor and not the CNC. In conclusion, my results indicate that heterogeneity of olfactory cell-types is locally generated, and concomitant with morphogenesis of the placode.

Placode

Olfaction

Poisson zèbre

Développement

Identité cellulaire

Morphogenèse

Imagerie en temps réel

Zebrafish

Development

Cell identity

Morphogenesis

Time-lapse imaging

Ontogenetic development of Pennisetum purpureum cv. Napier: consequences for grazing management / Desenvolvimento ontogênico do Pennisetum purpureum cv. Napier: consequências para o manejo do pastejo

Guilherme Portes Silva

15 February 2018

Characterization of the ontogenic program is essential to infer about palnts adaptation strategies. Frequently, morphogenesis of tropical forage grasses is reported to be analogous to that of temperate forage grasses. However, tropical grasses show stem development still during the vegetative phase of growth and under high light availability conditions. Stem elongation potentially impacts plants growth, with implications for grazing management. In tropical conditions, elephantgrass cv. Napier is considered one of the most productive grass species under grazing. The objective of this study was to characterize the ontogenic development of elephantgrass, coordination between phytomers, stem elongation and leaf and internode coordination in main and primary axes, using an isolated plant protocol. The experiment was conducted in Piracicaba, SP, during the Spring (2015), Summer (2016) and Autumn (2016), using a complete randomized block design, with 4 replicates. Eighty fiber cement tanks (0.343 m3) were used. Each block was composed of 20 tanks, 10 used to evaluate the morphogenic and developmental characteristics and 10 for the destructive evaluations. Measurements of leaf and stem elongation were performed every two days to determine the following variables: leaf appearance rate (LAR), leaf elongation rate (LER), leaf elongation duration (LED) and final leaf length (FLL). From day 10 of the evaluation period in Summer and Autumn and day 25 in Spring, 10 cuts were performed for destructive assessments every 5 days. At the time of the destructive evaluations, the following variables were measured: apical meristem heigth (AMH); sheath tube length (STL); number of expanding leaves (NEL); number of expanded leaves (NEXL). Measurements of sheath length (SL) and internode length (IL) were performed only on the main axis. On the main axis LAR (0.02 leaves degree-days-1) and LER (0.26 cm degree-days-1) were constant, whereas LED and FLL increased with leaf rank on the axis. LED ranged from 150 to 280 degree-days from phytomer 10 to 20. In Autumn, due to flowering, LED decreased with leaf rank. SL increased until reaching a maximum value of approximately 10-12 cm from the phytomer 12-13 onwards. When evaluated in phyllochronic units, similar pattern was observed across seasons of the year for a common leaf rank group. However, in all seasons, higher leaf ranks presented greater LED. Higher LAR were reported for topmost primary axes and LER increased with leaf rank until reaching a maximum, remaining constant afterwards. The LED increased with leaf rank in main and primary axes. The stem elongation began from phytomer 8 on the main axis in all seasons of the year, and in earlier phytomers for the other primary axes. In the main axis, internode length ranged from 0.5-2.0 cm for phytomer 8 until reaching a maximum value of 8-10 cm for phytomers 12-13 onwards, in Spring and Summer. During Autumn, maximum values of internode length were approximately 20 cm. Internode elongation begins concomitantly with the cessation of leaf elongation, and after 5 phyllochronic units from leaf appearance. In all axes, STL increased until reaching a maximum value of approximately 12-13 cm in Summer and 11-12 cm in Spring, coinciding with the beginning of stem elongation. The ontogenic development described for elephantgrass differs from that reported for temperate forage grasses. There was a seasonality effect. Axes development presents a hierarchical and synchronized organization. However, for the upper axes and topmost phytomers behavior is different and needs to be investigated. The stem elongation process can be described by the number of produced leaves. This study provides a key element for understanding phenotypic plasticity and corresponds to an useful information to identify the onset of stem elongation in field conditons. This result can potentially be used for functional-structural plant modelling. / A caracterização do desenvolvimento ontogênico é de fundamental importância para inferir sobre estratégias de adaptação das plantas. Frequentemente, a morfogênese de gramíneas tropicais é reportada como análoga à de gramíneas de clima temperado. No entanto, gramíneas tropicais apresentam colmo ainda na fase vegetativa e com elevada disponibilidade de luz. O alongamento de colmo potencialmente altera a dinâmica do desenvolvimento, com implicações sobre o manejo do pastejo. Em condições tropicais, o capim-elefante cv. Napier é considerado uma das gramíneas mais produtivas sob condições de pastejo. Objetivou-se com esse estudo caracterizar o desenvolvimento ontogênico do capim-elefante, a coordenação entre fitômeros, o alongamento de colmo e a coordenação entre folha e entrenó em perfilhos principais e axilares, em condições de plantas isoladas. O experimento foi conduzido em Piracicaba-SP, durante a Primavera (2015), Verão (2016) e Outono (2016), utilizando um delineamento em blocos completos casualizados, com 4 repetições. Foram instalados 80 tanques de fibrocimento (0,343 m3). Cada bloco era composto por 20 tanques, sendo que 10 foram utilizados para avaliar as características morfogênicas e de desenvolvimento e os outros 10 para as avaliações destrutivas. Medições do alongamento da lâmina foliar e do colmo foram realizadas a cada dois dias, para determinação das variáveis: taxa de aparecimento de folhas (TAF), taxa de alongamento de folhas (TAlF), duração do alongamento de folhas (DAF) e comprimento final da folha (CFF). A partir do dia 10 do período de avaliação no Verão e no Outono e do dia 25 na Primavera, foram feitos 10 cortes para avaliações destrutivas, a cada 5 dias. Por ocasião das avaliações destrutivas, as seguintes variáveis foram medidas: altura do meristema apical (AMA); comprimento do tubo de bainha (CTB); número de folhas em expansão (NFE); número de folhas expandidas (NFEX). Medições da bainha foliar (BF) e do comprimento do entreno (CE) foram realizadas apenas para o eixo principal (perfilho basal). No eixo principal, a TAF (0,02 folhas graus-dias-1) e a TAlF (0,26 cm graus-dias-1) foram constantes, enquanto que a DAF e o CFF aumentou com nível de inserção da folha no perfilho. A DAF variou de 150 a 280 graus-dias do fitômero 10 ao 20. No Outono, em função do florescimento, a DAF diminuiu com o nível de inserção da folha. O comprimento da BF foi crescente até atingir um valor máximo de aproximadamente 10-12 cm do fitômero 12-13 em diante. Quando avaliado em unidades filocrônicas, padrão semelhante foi observado entre épocas do ano para um grupo comum de níveis de inserção de folhas. No entanto, em todas as estações, níveis de inserção de folhas superiores apresentaram maiores DAF. Maiores TAF foram reportadas para eixos primários (perfilhos axilares) localizados acima do nível do solo e a TAlF foi crescente com o nível de inserção da folha até atingir um nível máximo, apartir do qual foi constante. A DAF foi crescente com o nível de inserção da folha em todos os eixos. O alongamento do colmo ocorreu a partir do fitômero 8 no eixo principal em todas as estações do ano, e em fitômeros anteriores para os demais eixos primários. No eixo principal, o CE variou de 0,5-2,0 cm no fitômero 8 até atingir valores máximos de 8-10 cm do fitômero 12-13 em diante, na Primavera e Verão. No Outono, valores máximos de entrenó foram de aproximadamente 20 cm. O alongamento do entrenó inicia-se concomitantemente ao término do alogamento da folha, e a um tempo de 5 filocronos do aparecimento da folha. Em todos os eixos, o CTB aumentou até atingir um valor máximo de aproximadamente 12-13 cm no verão e 11-12 cm na primavera, momento que coincidiu com o início do alongamento do colmo. O desenvolvimento ontogênico descrito para capim-elefante diverge daquele descrito para gramíneas de clima temperado. Houve efeito de sazonalidade. O desenvolvimento dos eixos apresenta organização hierárquica e sincronizada. No entanto, para os eixos superiores e fitômeros acima do nível do solo, o comportamento é diferente. O alongamento do colmo pode ser descrito pelo número de folhas produzidas. Este estudo fornece um elemento-chave para a compreensão da plasticidade fenotítipa e informações úteis para identificar o início do alongamento do colmo no campo. Este resultado pode ser utilizado potencialmente para modelagem de processos estrutura-função da planta.

Alongamento do entrenó

Gramínea tropical

Meristema apical

Morfogênese

Perfilhos axilares

Apical meristem

Axillary axis

Internode elongation

Morphogenesis

Tropical grass

The genetics and mechanics of stem cells at the Arabidopsis shoot apex / Génétique et mécanique des cellules souches apicales caulinaires

Rambaud-Lavigne, Léa

16 November 2018

Les organes aériens des plantes sont générés par le méristème apical caulinaire (MAC), dont la mise en place et le maintien ont été largement étudiés. Alors qu’un vaste réseau de gènes assure une régulation robuste de la population de cellules souches, deux gènes se distinguent ; CLAVATA3 (CLV3) et WUSCHEL (WUS). CLV3 s’exprime dans les cellules souches et code pour un peptide signal dont la liaison à des récepteurs transmembranaires mène à la sous-régulation de WUS. Ce dernier code pour un facteur de transcription dans le centre organisateur sous-jacent. En retour, WUS active directement l’expression de CLV3 et l’équilibre entre ces deux molécules est primordial pour la restriction de la population de cellules souches. La perte d’activité de CLV3 conduit à une augmentation de la taille du MAC, tandis que la perte d’activité de WUS abolit le MAC. Selon le modèle actuel, l’apex élargi des mutants clv3 est composé de cellules souches en sur-prolifération. Précédemment, notre groupe a couplé la microscopie à force atomique (mesurant la rigidité cellulaire) à la microscopie confocale (déterminant l’identité cellulaire) et a montré que l’identité des cellules souches est corrélée à une rigidité plus élevée. Dans cette thèse, je montre que les MAC clv3 ont des défauts d’organisation et de mécanique puisque leurs cellules sont moins rigides que ce que prédit le modèle, suggérant que les MAC clv3 diffèrent mécaniquement des cellules souches. J’examine cette contradiction en utilisant un ensemble de gènes exprimés dans différents domaines du MAC pour montrer que les MAC clv3 sont des mosaïques de cellules exprimant simultanément des gènes indiquant un état indifférencié et d’autres indiquant des états de différenciation. De plus, je montre que la composition cellulaire du MAC clv3 diffère de celle du sauvage, que la taille des cellules est dérégulée et que la surface du MAC clv3 est altérée.Notre hypothèse est que les cellules des MAC clv3 subissent un phénomène de ‘stop-start’, au cours duquel leur identité oscille entre cellule souche et cellule différenciée, conduisant à des changements morphométriques à l’origine des phénotypes clv3. En résumé, le ré-examen du rôle que joue CLV3 dans la morphogenèse au niveau du MAC, et donc du modèle CLV-WUS d’homéostasie des cellules souches, me mène à la conclusion que notre vision actuelle est limitée et que les paramètres mécaniques sont à prendre en compte pour une compréhension plus exhaustive des cellules souches. / The shoot apical meristem (SAM) gives rise to above-ground organs and its establishment and homeostasis have been extensively studied. While a vast genetic network ensures the robust regulation of the stem cell population, two genes, CLAVATA3 (CLV3) and WUSCHEL (WUS), are key players. CLV3 is expressed in stem cells and encodes a secreted peptide to signal via transmembrane receptors to downregulate WUS, which encodes a transcription factor in the underlying organising centre. In turn, WUS directly activates the expression of CLV3 and the balance between the two molecules restrains the stem cell pool. The loss of CLV3 activity leads to an increase in SAM size, whereas the loss of WUS activity abolishes the SAM. The prevailing model is that the enlarged clv3 apex is composed of over-proliferating stem cells.Previously, our group coupled atomic force microscopy (to measure cell rigidity) and confocal microscopy (to determine cell identity) to show that stem cell identity correlates with increased stiffness. In this thesis, I show that in addition to altered mechanics, enlarged clv3 SAM also display severe defects in cell organisation. I find that cells in clv3 SAM are soft, instead of being stiff, as we had predicted in light of the model regarding the clv3 phenotype. Our data instead suggest that clv3 SAM differ mechanically from stem cells. I further investigate this contradiction using genetic markers for different domains of the SAM and show that clv3 SAM are in fact mosaic structures, made up of cells that simultaneously express genes that indicate an undifferentiated state and several that indicate multiple states of differentiation. Additionally, I show that the cellular makeup of mutant SAM is significantly altered from the wild type, with a misregulation of cell size in the outer cell layers. Furthermore, mutant SAM also display altered surface smoothness from wild-type SAM.Our working hypothesis is that in clv3 mutant SAM, cells undergo a constant stop-start phenomenon, where they cycle between stemness and specification, resulting in cell-level morphometric changes that generate the characteristic clv3 phenotypes. In summary, during my thesis, I have re-examined the role of CLV3 in morphogenesis at the SAM, and thus the CLV-WUS model of stem cell homeostasis. I conclude that the existing view in the field is limited, and that mechanical parameters need to be considered for a fuller understanding of stem cells.

Développement

Morphogenèse

Cellules souches

Arabidopsis thaliana

Méristèmes apicaux

Biomécanique

Development

Morphogenesis

Stem cells

Arabidopsis thaliana

Apical Meristems

Biomechanics

Hedgehog signalling in lung development and airway regeneration

Uda Ho

Unknown Date

Tumorigenesis is often caused by the dysregulation of developmental pathways that are activated during repair, a process that recapitulates development. The Hedgehog (Hh) pathway is a signalling pathway essential for cell patterning and identity during embryogenesis. Activation of Hh signalling has been reported in small cell lung cancer progression, but the role of the Hh receptor, Patched1 (Ptch1), remains poorly understood. Therefore, it is imperative that we understand how Ptch1 is involved in development and tissue repair in order to understand its roles in cancer. This project aimed to study the role of Ptch1 during the branching process of lung development and in the regeneration of airway epithelial cells. A conditional knockout approach was utilised to excise Ptch1 by crossing Ptch1 conditional mice with Dermo1-Cre mice (Dermo1Cre+/-;Ptch1lox/lox), thereby activating the Hh pathway in the mesenchyme, independent of ligand. Dermo1Cre+/-;Ptch1lox/lox embryos died at E12.0 and showed secondary lung branching arrest leading to lobe formation defects. Expression of Ptch1, Gli1 and Foxf1 were shown to be upregulated in both proximal and distal lung mesenchyme, indicating inappropriate pathway activation and disruption of the Hh gradient. Fgf10 expression was spatially reduced in Dermo1Cre+/-;Ptch1lox/lox lungs and the addition of Fgf10 to these lungs in culture showed partial restoration of branching, thus Hh signalling was shown to regulate branching via Fgf10. Due to the patterning defect associated with our in vivo model, we took an in vitro approach to delete Ptch1 in lung explants cultures. This also showed reduced branching and validated that mesenchymal proliferation was enhanced after Ptch1 deletion, consistent with the previously reported role of Hh signalling in mesenchymal cell survival. Small cell lung cancer originates in the proximal lung and has been linked to aberrant repair processes. Therefore, Hh signalling in proximal airway repair was investigated. Ptch1 expressing cells were detected in the bronchial epithelium and stroma during homeostasis. But these cells were not detected following polidocanol-induced injury in the murine nasal septum and lung. However during naphthalene-induced repair, Ptch1 expressing cells were detected in the regenerating bronchial epithelium, suggesting that Hh dependent progenitors respond specifically to naphthalene-induced damage and perhaps are pulmonary neuroendocrine or variant Clara cells. Therefore, this project has provided insight into how Ptch1 patterns lung branching and lobe specification during development and also highlights the importance of Ptch1 in pulmonary epithelial regeneration.

Hedgehog Signalling

patched1

Fibroblast Growth Factor

Lung Development

airway regeneration

Cell Patterning

Branching Morphogenesis

Mouse Model

polidocanol

Naphthalene

Molecular Regulation of Angiogenesis

Mellberg, Sofie

January 2008

Angiogenesis, de novo formation of blood vessels from the pre-existing vasculature, is crucial in embryo development, and in processes in the adult such as wound healing and ovulation. Angiogenesis is also involved in pathological conditions such as cancer and chronic inflammatory diseases, which are propagated by dysregulated, excess angiogenesis. On the other hand, lack of functional vessels and poor blood flow is a major problem in myocardial and peripheral ischemia. A detailed understanding of the molecular mechanisms underlying angiogenesis is of vital importance for the development of drugs to regulate angiogenesis. The aim of this thesis has been to identify genes involved in regulation of angiogenesis. We have investigated gene expression over time in endothelial cells (ECs), using different in vitro models. We show that the proteoglycan endocan is upregulated in ECs invading a fibrin matrix in response to vascular endothelial growth factor (VEGF)-A. There was increased expression of endocan in renal tumour cells and tumour vessels compared to normal renal tissues, indicating that endocan might have a role in tumour growth and tumour angiogenesis. We also show that vascular endothelial protein tyrosine phosphatase (VE-PTP) is induced in ECs during differentiation into vessel structures in a three dimensional collagen matrix. Silencing of VE-PTP disrupts vessel formation and increases the activity of VEGF receptor-2 (VEGFR-2) and downstream signalling, leading to increased EC proliferation. This presents a possible mechanism for the failure of vessel formation, as EC morphogenesis requires growth arrest of the cells. We also show that VE-PTP and VEGFR-2 are closely associated in resting ECs. VEGF-A stimulation leads to rapid loss of association, coinciding with increased phosphorylation of VEGFR-2. The function of VE-PTP in vivo was investigated using the zebrafish model. We demonstrate specific expression of a zebrafish VE-PTP orthologue (zVE-PTP) in the developing vasculature. Silencing of zVE-PTP leads to defective vessel sprouting and branching, indicating a critical role for zVE-PTP in development of the zebrafish vasculature. In conclusion, this thesis presents gene regulation during endothelial cell morphogenesis and details the expression pattern of endocan and the function of VE-PTP in regulation of VEGFR-2-driven angiogenesis.

endothelial morphogenesis

VEGFR-2

protein tyrosine phosphatase

VE-PTP

PTPRB

endocan

ESM-1

angiogenesis

Molecular medicine

Molekylär medicin

Uncovering New Roles for Hsp90 in Candida albicans Morphogenesis

Senn, Heather

03 December 2012

The trimorphic fungus Candida albicans is the leading cause of systemic candidiasis, a disease with poor prognosis affecting immunocompromised patients. The capacity to switch between growth morphologies is tightly coupled to its ability to cause life-threatening infection. Recently, the molecular chaperone Heat Shock Protein 90 (Hsp90) has been implicated as a major regulator of C. albicans morphogenesis via the Ras1-PKA pathway. In model organisms from plant, animal and fungal kingdoms, Hsp90 stabilizes regulators of cell signaling and participates in many important cellular processes. Hsp90’s roles in C. albicans are beginning to be dissected. This thesis represents a comprehensive overview of the morphological response of C. albicans to compromised Hsp90 function, illuminating previously unidentified roles for this chaperone in cell cycle progression, cytokinesis and vacuole maintenance. This work sheds light on the importance of Hsp90 in fungal development and the therapeutic potential of Hsp90 inhibitors in the treatment of fungal infections.

Candida albicans

Molecular chaperone

Cell biology

Cell cycle

Cytokinesis

Vacuole

Morphogenesis

Hsp90

Mycology

Microbiology

Mitosis

0379

0410

0307

0369

Towards an Understanding of Zebrafish Epiboly: The Characterization of the Epiboly Initiation Mutant Eomesodermin A

Du, Susan

31 December 2010

How cell movements are coordinated during morphogenesis is not well understood. We focus on epiboly, which describes the thinning and spreading of a multilayered cell sheet. The first phase of epiboly involves the doming of the yolk cell up into the overlying blastoderm. We previously showed that over-expression of a dominant– negative eomesodermin a construct inhibits doming. Here I report my analysis of embryos lacking both maternal and zygotic Eomesodermin A (MZeomesa). eomesafh105 mutant embryos (1) exhibit a doming delay, (2) have defective yolk cell microtubules, (3) have tightly packed deep cells with more bleb – like protrusions and (4) express early endoderm markers abnormally. Despite these phenotypes, the majority of MZeomesa embryos are able to complete epiboly and form endodermal derivatives. In both Xenopus and mice, Eomesodermin has also been implicated in the regulation of gastrulation movements and cell fate specification, suggesting a conserved role for Eomesodermin throughout vertebrate development.

Zebrafish

Epiboly

Morphogenesis

Gastrulation

Eomesodermin A

T-box transcription factor

Endoderm

Microtubules

yolk cell

doming

0379

0307

0472

Towards an Understanding of Zebrafish Epiboly: The Characterization of the Epiboly Initiation Mutant Eomesodermin A

Du, Susan

31 December 2010

How cell movements are coordinated during morphogenesis is not well understood. We focus on epiboly, which describes the thinning and spreading of a multilayered cell sheet. The first phase of epiboly involves the doming of the yolk cell up into the overlying blastoderm. We previously showed that over-expression of a dominant– negative eomesodermin a construct inhibits doming. Here I report my analysis of embryos lacking both maternal and zygotic Eomesodermin A (MZeomesa). eomesafh105 mutant embryos (1) exhibit a doming delay, (2) have defective yolk cell microtubules, (3) have tightly packed deep cells with more bleb – like protrusions and (4) express early endoderm markers abnormally. Despite these phenotypes, the majority of MZeomesa embryos are able to complete epiboly and form endodermal derivatives. In both Xenopus and mice, Eomesodermin has also been implicated in the regulation of gastrulation movements and cell fate specification, suggesting a conserved role for Eomesodermin throughout vertebrate development.

Zebrafish

Epiboly

Morphogenesis

Gastrulation

Eomesodermin A

T-box transcription factor

Endoderm

Microtubules

yolk cell

doming

0379

0307

0472

Uncovering New Roles for Hsp90 in Candida albicans Morphogenesis

Senn, Heather

03 December 2012

The trimorphic fungus Candida albicans is the leading cause of systemic candidiasis, a disease with poor prognosis affecting immunocompromised patients. The capacity to switch between growth morphologies is tightly coupled to its ability to cause life-threatening infection. Recently, the molecular chaperone Heat Shock Protein 90 (Hsp90) has been implicated as a major regulator of C. albicans morphogenesis via the Ras1-PKA pathway. In model organisms from plant, animal and fungal kingdoms, Hsp90 stabilizes regulators of cell signaling and participates in many important cellular processes. Hsp90’s roles in C. albicans are beginning to be dissected. This thesis represents a comprehensive overview of the morphological response of C. albicans to compromised Hsp90 function, illuminating previously unidentified roles for this chaperone in cell cycle progression, cytokinesis and vacuole maintenance. This work sheds light on the importance of Hsp90 in fungal development and the therapeutic potential of Hsp90 inhibitors in the treatment of fungal infections.

Candida albicans

Molecular chaperone

Cell biology

Cell cycle

Cytokinesis

Vacuole

Morphogenesis

Hsp90

Mycology

Microbiology

Mitosis

0379

0410

0307

0369