Hlavní strukturní protein myšího polyomaviru: interakce s buněčnými strukturami / Major capsid protein of mouse polyomavirus: interaction with cellular structures

Horníková, Lenka

January 2012

Mouse polyomavirus (MPyV) is small non-enveloped DNA virus. Although this virus has been studied for almost 60 years, it still remains unclear, how can virus transport its genetic information to the cell nucleus. Also, the mechanism of virion morphogenesis is not well understood. First part of this work is focused on endocytic pathway which is used by MPyV for trafficking toward the cell nucleus. Using dominant negative mutant of caveolin-1 we showed that caveolin-1dependent endocytic pathway, described for SV40, is not used by MPyV for productive infection. MPyV is transported to early endosomes. Acidic milieu of endosomes is indispensable for productive infection. Preventing virus localisation into early endosomes (dominant negative mutant of Rab 5 GTPase) or endosomes alkalisation (by ammonium chloride or bafilomycin A1) led to dramatic decrease of virus infectivity. Alkalisation of endosomes entailed retention of MPyV in early endosomes. It indicates that virus is further transported to late endosomes. Finally, we confirmed by FRET that MPyV is in perinuclear space localized into recycling endosomes. Another poor characterized process is virion morphogenesis. To characterize the participation of cellular proteins in virion precursor complexes, nuclear as well as whole-cell lysates of infected cells or...

Régulation du trafic des récepteurs AMPA et de la plasticité synaptique induite par les récepteurs P2X / ATP P2X receptors down-regulate ampa receptor trafficking and postsynaptic efficacy in hippocampal neurons

Pougnet, Johan

13 December 2013

Les récepteurs ionotropiques AMPA (AMPAR) activés par le glutamate sont les principaux acteurs de la transmission synaptique excitatrice rapide du cerveau. Ils jouent également un rôle crucial dans les processus de plasticité synaptique, reconnus pour être à la base des fonctions cognitives. Les récepteurs canaux P2X sont activés par l'adénosine-5'-triphosphate (ATP) extracellulaire libéré par les neurones ou les cellules gliales. Ils sont exprimés dans le cerveau en périphérie des synapses glutamatergiques, où ils participent à l’excitabilité neuronale et modulent la transmission synaptique ainsi que la plasticité synaptique. Bien que la signalisation purinergique ait de multiples effets sur la transmission et la plasticité synaptique, la fonction des récepteurs P2X au niveau des synapses du cerveau reste à établir. Ici, nous montrons dans les neurones d'hippocampe en culture que l'activation des récepteurs P2X postsynaptiques par l'ATP exogène ou via la libération d'ATP endogène par les cellules gliales diminue l'amplitude des courants miniatures et évoqués des AMPAR postsynaptiques. En utilisant des approches d’électrophysiologie, de biochimie et d'imagerie en temps réel, nous démontrons que l'afflux de calcium passant par les canaux P2X déclenche l’internalisation des AMPAR par un mécanisme d’endocytose clathrine et dynamine dépendante. Cette diminution de surface altère par conséquent la transmission synaptique médiée par les AMPAR. Nous avons aussi démontré par des approches moléculaires et pharmacologiques la cascade de signalisation engagée dans l’altération du trafic des AMPAR de surface après activation des récepteurs P2X. Cette inhibition par les récepteurs P2X, serait dépendante de l’activation de kinases et des phosphatases qui régulent le niveau de phosphorylation des AMPAR. Nos travaux de recherche suggèrent ainsi, que les récepteurs postsynaptiques P2X jouent un rôle essentiel dans la régulation de l'expression de surface des AMPAR et régulent ainsi la force et la plasticité synaptique. / Ionotropic AMPA receptors (AMPAR) activated by glutamate are the main actors of the fast excitatory synaptic transmission in the brain. They also play a crucial role in the process of synaptic plasticity that are widely recognized to be the basis cognitive functions. P2X receptors are ATP-gated cation channels widely expressed in the brain where they mediate action of extracellular adenosine-5’-triphosphate (ATP) released by neurons or glia. P2X receptors are located et the periphery of glutamatergic synapses and although purinergic signaling has multiple effects on synaptic transmission and plasticity, the function of P2X receptors at brain synapses remains to be established.Here, we show in cultured hippocampal neurons that activation of postsynaptic P2X receptors by exogenous ATP or glial release of endogenous ATP decreases the amplitude of miniature excitatory postsynaptic currents and AMPA-evoked currents. Using a combination of electrophysiology, surface or internalization assays and real time imaging, we demonstrate that the calcium influx through the ATP-gated channels triggers AMPA receptor internalization through clathrin-mediated dynamin-dependent endocytosis leading to reduced surface AMPA receptors and therefore, altered AMPA-mediated current. We also identified by molecular and pharmacological approaches the signaling cascade involved in the P2X-mediated alteration of surface AMPAR trafficking. P2X-mediated AMPAR internalization is dependent on the activation of kinases CamKII and phosphatases which regulate the phosphorylation level of AMPARs. Our finding indicates that postsynaptic P2X receptors play a critical role in regulating the surface expression of AMPAR and thereby regulate the synaptic strength.

Récepteurs P2X

AMPAR

Endocytose

Neuromodulation

Synapse

P2X receptors

AMPAR

Endocytosis

Neuromodulation

Synapse

Efeitos da elevada concentração de glicose sobre a reciclagem de integrinas contendo a subunidade b1 em fibroblastos. / Effects of high glucose concentration on the recycling of b1-containing integrins in fibroblasts.

Monteiro, Kelly Salzmann

03 October 2014

Introdução: In vivo ou in vitro a exposição de fibroblastos a alta concentração de glicose promove um aumento do estresse oxidativo e consequentemente prejudica a migração celular, assim como a maturação da adesão. Além disso, a elevada concentração de glicose reduz a expressão de diferentes integrinas na superfície celular devido alterações na síntese do receptor e sua reciclagem. Objetivo: Avaliar os efeitos da elevada concentração de glicose no tráfego de vesículas contendo EEA1 (endossomos primários), Rab4 (via rápida da reciclagem), Rab11 (via lenta de reciclagem) e Rab7 (endossomos de degradação) em fibroblastos NIH3T3. Métodos: células foram cultivadas em meio contendo baixa concentração de glicose (LG, 5 mM) ou em alta concentração (HG 25 mM) durante 21 dias antes de realizar os experimentos. EEA1, Rab4, Rab11 e Rab7 expressão e distribuição foram avaliados por western blotting e imunofluorescência, respectivamente. Resultados: Células expostas à alta concentração não apresentaram diferenças na expressão e distribuição das proteínas EEA1 e Rab7, enquanto a expressão de Rab11 foi reduzida em 30%. Conclusão: a alta concentração de glicose altera a via lenta da reciclagem contendo Rab11, afetando potencialmente a reciclagem de integrinas e outros receptores e a sua expressão na superfície celular. / Background: In vivo or in vitro exposure of fibroblasts to high glucose concentrations (HG) promotes oxidative stress and consequently impairs cell migration, also inhibiting adhesion maturation. Additionally, HG reduces the expression of different integrins on the cell surface, potentially due to altered receptor synthesis and recycling. Aim: to evaluate the effects of HG on the trafficking vesicles containing EEA1 (early endosomes), Rab4 (fast recycling pathway) and Rab7 (endocytic degradation pathway) on NIH3T3 fibroblasts. Methods: cells were cultured under low glucose (LG, 5 mM) or HG (25 mM) concentrations during 21 days before the assays. EEA1, Rab4 and Rab7 expression and distribution were evaluated by western blotting and immunofluorescence, respectively. Results: HG did not affect proteins EEA1 and Rab7 expression and distribution, whereas Rab11 expression was reduced by 30%. The number of vesicles containing Rab11 was also significantly reduced in HG cells. Conclusion: high glucose alters the slow recycling endocytic pathway via Rab11, potentially affecting integrins and other receptors synthesis and expression on the cell surface.

Endocitose

Endocytosis

Fibroblast

Fibroblastos

Glicose elevada

GTPases Rab

Hyperglycemia

Integrinas

Integrins

Rab GTPases

Reciclagem

Recycling

Efeitos da elevada concentração de glicose sobre a reciclagem de integrinas contendo a subunidade b1 em fibroblastos. / Effects of high glucose concentration on the recycling of b1-containing integrins in fibroblasts.

Kelly Salzmann Monteiro

03 October 2014

Introdução: In vivo ou in vitro a exposição de fibroblastos a alta concentração de glicose promove um aumento do estresse oxidativo e consequentemente prejudica a migração celular, assim como a maturação da adesão. Além disso, a elevada concentração de glicose reduz a expressão de diferentes integrinas na superfície celular devido alterações na síntese do receptor e sua reciclagem. Objetivo: Avaliar os efeitos da elevada concentração de glicose no tráfego de vesículas contendo EEA1 (endossomos primários), Rab4 (via rápida da reciclagem), Rab11 (via lenta de reciclagem) e Rab7 (endossomos de degradação) em fibroblastos NIH3T3. Métodos: células foram cultivadas em meio contendo baixa concentração de glicose (LG, 5 mM) ou em alta concentração (HG 25 mM) durante 21 dias antes de realizar os experimentos. EEA1, Rab4, Rab11 e Rab7 expressão e distribuição foram avaliados por western blotting e imunofluorescência, respectivamente. Resultados: Células expostas à alta concentração não apresentaram diferenças na expressão e distribuição das proteínas EEA1 e Rab7, enquanto a expressão de Rab11 foi reduzida em 30%. Conclusão: a alta concentração de glicose altera a via lenta da reciclagem contendo Rab11, afetando potencialmente a reciclagem de integrinas e outros receptores e a sua expressão na superfície celular. / Background: In vivo or in vitro exposure of fibroblasts to high glucose concentrations (HG) promotes oxidative stress and consequently impairs cell migration, also inhibiting adhesion maturation. Additionally, HG reduces the expression of different integrins on the cell surface, potentially due to altered receptor synthesis and recycling. Aim: to evaluate the effects of HG on the trafficking vesicles containing EEA1 (early endosomes), Rab4 (fast recycling pathway) and Rab7 (endocytic degradation pathway) on NIH3T3 fibroblasts. Methods: cells were cultured under low glucose (LG, 5 mM) or HG (25 mM) concentrations during 21 days before the assays. EEA1, Rab4 and Rab7 expression and distribution were evaluated by western blotting and immunofluorescence, respectively. Results: HG did not affect proteins EEA1 and Rab7 expression and distribution, whereas Rab11 expression was reduced by 30%. The number of vesicles containing Rab11 was also significantly reduced in HG cells. Conclusion: high glucose alters the slow recycling endocytic pathway via Rab11, potentially affecting integrins and other receptors synthesis and expression on the cell surface.

Endocitose

Fibroblastos

Glicose elevada

GTPases Rab

Integrinas

Reciclagem

Endocytosis

Fibroblast

Hyperglycemia

Integrins

Rab GTPases

Recycling

Synaptic vesicle recycling in preclinical models of intellectual disability, autism spectrum disorder and epilepsy

Bonnycastle, Katherine

January 2018

The development of the central nervous system is dysregulated in neurodevelopmental disorders such as intellectual disability, autism spectrum disorder, and epilepsy. These three disorders have different clinical features, yet there is high comorbidity between them. They can be difficult to study due to their highly complex aetiologies, however there are various monogenic diseases that can cause all of them, including SYNGAP1 haploinsufficiency where the synaptic guanosine triphosphatase (GTPase)-activating protein (SYNGAP) protein levels are highly reduced; Fragile X syndrome where the fragile X mental retardation protein (FMRP) is no longer translated; and DNM1 epileptic encephalopathy where mutations in the Dynamin1 gene alter the protein function. These monogenic conditions are synaptopathies as the proteins affected play important roles in synapse stability and neurotransmission. Because of the high comorbidity between these disorders, it is hypothesised that there may be a common mechanism underlying them. We hypothesise that a deficit in presynaptic vesicle recycling may be part of a common mechanism underlying intellectual disability, autism spectrum disorder, and epilepsy especially in SYNGAP1 haploinsufficiency, Fragile X syndrome, and DNM1 epileptic encephalopathy. Using various fluorescent presynaptic activity reporters including synaptic pHluorins, tetramethylrhodamine dextran and calcium dyes to compare presynaptic activity in in vitro models of these monogenic conditions, we found differences in synaptic vesicle (SV) endocytosis in the genetically altered conditions compared to wildtype controls. We observed various SV endocytosis defects in clathrin-mediated endocytosis (CME) or activity-dependent bulk endocytosis (ADBE) in our models. We observed enhanced CME in SynGAP1 KO mouse hippocampal neurons. This enhanced SV endocytosis was accompanied by decreased SV cargo on the plasma membrane. Rat SynGAP1 KO hippocampal neurons did not display enhanced SV endocytosis, nor did neurons with the GTPase-activating (GAP) domain of SynGAP deleted. This was perhaps due to the altered time course of development between these rodent species. In mouse and rat models of Fragile X syndrome, CME was not altered compared to wildtype controls. However, in a rat model, we observed fewer nerve terminals undergoing ADBE which is the dominant SV endocytosis mode during elevated neuronal activity. De novo epileptic encephalopathy-associated mutations in DNM1 had differential effects on SV recycling through both CME and ADBE. Mouse hippocampal neurons overexpressing Dyn1R237W, Dyn1I289F and Dyn1H396D all showed less CME compared to overexpression of Dyn1WT. Moreover, fewer nerve terminals overexpressing Dyn1H396D were found to undergo ADBE. We also found that a large-conductance potassium (BK) channel opener can accelerate clathrin-mediated endocytosis and thus may be able to rescue the impaired SV endocytosis caused by these mutants. Although there is not yet a common underlying pathway at the presynaptic level between these conditions, SV recycling dysfunction is present across all of these models. Furthermore, we propose an axis of pathophysiology model where optimal SV endocytosis is required for optimised neural performance. We propose that either decreased or increased SV endocytosis can lead to the synaptic dysfunction observed in these models.

Molecular mechanisms of protein secretion in plant cells.

January 2013

蛋白質分泌及胞吐作用是指蛋白質在內質網(ER)中合成後前往質膜(PM) ， 隨後， 被分泌到達細胞外的過程。 而細胞分泌路徑是指蛋白質途經數個含有膜包被的細胞器後運送到细胞之外。 這些細胞器，包括內質網， 高爾基體， 反式高爾基網絡(TGN) 及質膜。 分泌蛋白分泌出细胞之外後， 在细胞外基質中進行其功能。 / 為達到這項研究的目的，我們結合了細胞、分子和生物化學上的方法， 來對蛋白質運輸路徑及參與蛋白質分泌的細胞器進行研究。首先，通過MALDI-MS/MS對煙草懸浮BY-2細胞中的原態分泌性蛋白質進行分析。第二，把已識別的分泌蛋白包括陽離子過氧化物酶同工酶40K（40K）和N1過氧化物酶（N1），透過轉基因細胞的GFP融合表達方式、及應用特異性抗體於免疫螢光和膠體金免疫電鏡上的測定來對其特性作進一步分析。 第三，總合以上的研究，煙草懸浮BY-2細胞的典型蛋白質分泌路徑次序為質網 - 高爾基體 - 反式高爾基網絡 - 質膜。 / Protein secretion or exocytosis is the process by which proteins synthesized in the endoplasmic reticulum (ER) travel to the plasma membrane (PM) for their subsequent secretion outside of the cell. The secretory pathway responsible for protein secretion contains several membrane-bounded organelles such as the ER, Golgi apparatus, trans-Golgi Network (TGN), and PM. The secreted proteins move outside of the cell and perform their functions in the extracellular matrix. / The general objective of this study was to examine the transport pathways and organelles involved in protein secretion in plant cells using a combination of cellular, molecular and biochemical approaches. First, major native secreted proteins in suspension cultures of tobacco BY-2 culture cells were identified via MALDI-MS/MS analysis. Second, the identified secreted proteins, cationic peroxidase Isozyme 40K (40K) and peroxidase N1 (N1), were further characterized by examining the GFP fusion expression of transgenic cell lines and by generating specific antibodies in immunofluorescent and immunogold electron microscope (EM) studies. Third, throughout all of these studies, a typical ER-Golgi-TGN-PM pathway was mapped for protein secretion in tobacco BY-2 cells. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Lam, Chun Kok. / "December 2012." / Thesis (M.Phil.)--Chinese University of Hong Kong, 2013. / Includes bibliographical references (leaves 79-84). / Abstracts also in Chinese. / Thesis /Assessment Committee --- p.i / Statement --- p.i / Abstract --- p.ii / 摘要 --- p.iv / Acknowledgements --- p.v / List of Abbreviations --- p.xiii / Chapter Chapter 1 --- Introduction --- p.1 / Chapter 1.1. --- Secreted protein --- p.1 / Chapter 1.2. --- Secretory Pathway --- p.1 / Chapter 1.3. --- Protein secretion --- p.2 / Chapter 1.4. --- Plant Peroxidases --- p.3 / Chapter 1.5. --- Project Objective --- p.4 / Chapter 1.6. --- Significance --- p.4 / Chapter Chapter 2 --- Materials and Methods --- p.6 / Chapter 2.1. --- Mass spectrometry analysis --- p.6 / Chapter 2.2. --- Generation of 40K/N1-GFP construct --- p.7 / Chapter 2.2.1. --- For transient expression --- p.7 / Chapter 2.2.2. --- For stable expressing constructs --- p.7 / Chapter 2.3. --- Transient expression of 40K/N1-GFP --- p.7 / Chapter 2.4. --- Generation of transgenic cell lines --- p.8 / Chapter 2.5. --- Fluorescence microscopic screening --- p.9 / Chapter 2.6. --- Generation and characterization of antibodies specific for 40K/N1 peroxidase --- p.9 / Chapter 2.7. --- Confocal immunofluorescence studies --- p.10 / Chapter 2.8. --- (TIRF) Total internal reflection fluorescence microscopy --- p.11 / Chapter 2.9. --- Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and western blot analysis --- p.11 / Chapter 2.10. --- Drug Treatment --- p.12 / Chapter 2.10.1. --- Dexamethasone (dex) --- p.12 / Chapter 2.10.2. --- Brefeldin A (BFA)/Concanamycin A (ConcA) --- p.12 / Chapter 2.11. --- Salt treatment (plasmolysis) --- p.13 / Chapter 2.12. --- EM (electron microscopy) study --- p.13 / Chapter Chapter 3 --- Results --- p.14 / Chapter 3.1. --- Protein secretion from tobacco BY2 cells --- p.14 / Chapter 3.2. --- Western blot analysis --- p.15 / Chapter 3.3. --- Protein expression in tobacco plant tissues --- p.15 / Chapter 3.4. --- EM labeling on the wild type BY-2 cells --- p.16 / Chapter 3.5. --- Localization in the tobacco root tip apoplast --- p.17 / Chapter 3.6. --- 40K/N1 peroxidase transient/stable cell line expression --- p.18 / Chapter 3.7. --- Time course study of 40K/N1 peroxidase-GFP cell line expression after induction --- p.18 / Chapter 3.8. --- Plasmolysis (salt treatment analysis) --- p.20 / Chapter 3.9. --- Brefeldin A (BFA) and concanamycin A (ConcA): Trafficking through the Golgi and TGN --- p.20 / Chapter 3.10. --- Examining exocytosis by total internal reflectance fluorescence (TIRF) --- p.22 / Chapter 3.11. --- Immunolabeling study --- p.23 / Chapter 3.12. --- EM study on transgenic 40K & N1 peroxidase-GFP cell lines --- p.24 / Chapter Chapter 4 --- Discussion --- p.26 / Chapter 4.1. --- Trafficking from the ER to the extracellular matrix --- p.26 / Chapter 4.2. --- Secretion through PM by exocytosis --- p.28 / Chapter 4.3. --- Time required for the secretory pathway --- p.29 / Chapter 4.4. --- Similarities of 40K and N1 --- p.30 / Chapter 4.5. --- Future perspectives --- p.30 / References --- p.79

Plant cells and tissues--Inclusions

Plant translocation

Endocytosis

Proteins--Secretion

Proteins--Physiological transport

Mécanismes moléculaires du couplage exocytose-endocytose dans les cellules neuroendocrines : rôle des protéines Scramblase-1 et Oligophrénine-1 / Molecular mechanisms of exocytosis-endocytosis coupling in neuroendocrine cells : role of Scramblase-1 and Oligophrenin-1 proteins

Estay Ahumada, Catherine

02 December 2016

De récentes études ont montré dans les cellules chromaffines que la libération des granules de sécrétion est temporellement et spatialement couplée au processus d’endocytose. Nous avons proposé l’hypothèse que la membrane du granule préserve son intégrité au sein de la membrane plasmique durant l’exocytose avant d’être internalisée ainsi avec ses composants. Cependant, les mécanismes moléculaires de ce processus d’endocytose compensatrice sont encore inconnus. Ainsi, mon projet de thèse vise a répondre à la question suivante : Quels sont les différents mécanismes déclenchant et régulant l’exocytose et l’endocytose compensatrice? Les propriétés physiques des lipides jouent des rôles fondamentaux dans le trafic membranaire. Ils servent de système d’échafaudage pour maintenir la machinerie spécifique à des endroits précis de la membrane plasmique. Par exemple, la formation de microdomaines de gangliosides et de PIP2 au niveau des sites d’exocytose ou encore le mélange de lipides au sein de la bicouche lipidique représentent des processus attractifs pour permettre cette fonction au cours des événements d’exo-endocytose dans les cellules neuroendocrines. De plus, en raison de leur implication importante dans les processus d’exo-endocytose ou dans le remodelage des lipides, l’annexine A2, la synaptotagmine 1, l’oligophrénine1 et la scramblase 1 doivent être considérées comme des signaux potentiels pour le déclenchement de l’endocytose de la membrane granulaire. Au cours de mon doctorat, je me suis intéressée à étudier comment l’exocytose et l’endocytose compensatrice sont régulées par la scramblase1 et l’oligophrénine1 dans les cellules chromaffines de la glande surrénale. / Recent studies in neuroendocrine chromaffin cells have suggested that the secretory granule release is temporally and spatially coupled to a compensatory endocytic process. Hence, we hypothesized that the secretory granule membrane would preserve its integrity within the plasma membrane after exocytosis before being retrieved as such along with its components. However, the underlying molecular mechanisms of this compensatory endocytic process are largely unknown today. Therefore my thesis project is aiming to address the following specific question: What are the different mechanisms triggering and regulating exocytosis and the compensatory endocytosis? Physical properties of lipids play fundamental roles in membrane trafficking. They act as a scaffolding system to maintain specific machinery at restricted site of the plasma membrane. For example, the formation of ganglioside- and PIP2-enriched microdomains at the exocytic sites or the phospholipid scrambling across the bilayer plasma membrane, represent attractive processes to fulfill this function during exo- endocytosis events in neuroendocrine cells. Moreover, in view to their important implication in exo-endocytotic processes or lipid remodeling, annexin-A2, synaptotagmin- 1, oligophrenin-1 and phospholipid scramblase-1 have to be considered as potential signal-triggers of the granule endocytosis. During my PhD, I focused in investigating how exocytosis and compensatory endocytosis are regulated by PLSCR-1 and OPHN1 in adrenal chrommaffin cells.

Cellules chromaffines

Exocytose

Endocytose compensatrice

Oligophrénine1

Scramblase1

Chromaffin cells

Exocytosis

Compensatory endocytosis

Oligophrenin1

Scramblase1

571.7

573.4

Role proteinu CUP-4 ve Wnt signalizaci / The role of CUP-4 protein in Wnt signalling

Žídek, Radim

January 2012

Wnt signalling is indispensible for proper development of organisms and maintaining of adult tissue homeostasis. Its disruption often leads to disease. In nematode Caenorhabditis elegans, Wnt signalling governs vast array of developmental processes, among others also migration of the Q neuroblasts and their descendants. The sole Wnt acting in this process, EGL-20, triggers the canonical β-catenin Wnt signal transduction pathway in QL but not in QR which leads to QL remaining in the posterior while the QR migrates anteriorly. This represents a useful tool for studying Wnt signalling. Recently, mutation of gene cup-4 was found to disrupt migration of the QL neuroblast in a small proportion of the mutant population. cup-4 encodes a ligand-gated ion channel family homologue and it was shown to participate in endocytosis by coelomocytes, specialized phagocytic cells in the C. elegans body cavity. Here, I present the results of my effort to determine the place of CUP-4 action in Wnt signalling and to elucidate the mechanism of its function. I found that CUP-4 acts upstream of PRY- 1/Axin, which is involved in signal transduction in signal receiving cells, and most probably downstream of adaptin AP2, which is important for recycling of Wnt cargo receptor Wntless (Wls) in Wnt producing cell. cup-4 also...

Endocytosis as an Additional Mechanism of Glucose Transport to the Hexose Transporter in Trypanosoma brucei

Choi, JongSu

01 December 2018

Trypanosoma brucei is an extracellular kineotoplastid parasite that causes human African trypanosomiasis (HAT), also known as sleeping sickness. As trypanosomes undergo vector to host transition, heavy transcriptional adaptation such as metabolic shift to glycolysis and upregulated endocytosis occurs. Specifically, glycolysis in the infectious stage becomes the sole source of energy production; thus, the glucose transport mechanism in T. brucei provides one of the most promising therapeutic targets for development of new drugs to treat HAT. Despite an established trypanosome hexose transporter (THT) model for glucose transport across the plasma membrane, there remains gaps in the detailed mechanism of glucose transport especially as it relates to glucose transport across the glycosomal membrane. Using 2-NBDG, a fluorescent glucose analog, we measured glucose uptake rates in the presence of small molecule inhibitors and by using RNA interference (RNAi) to knockdown key proteins to investigate the mechanism of glucose transport in trypanosomes. We have confirmed a direct role of THT in glucose transport of BSF trypanosomes; however, in our investigations, we observed an unexpected ATP-dependence on glucose transport in live trypanosomes, which initiated further study where we focused on the role of endocytosis as an ATP-coupled bulk glucose transport mechanism. Experimental approaches that inhibited endocytosis reduced the observed glucose uptake rate confirming a role for endocytosis-coupled glucose transport in BSF trypanosomes. We provide evidence for an endocytosis-coupled glucose transport mechanism in BSF trypanosomes as an additional and important mechanism that functions in parallel with the established THT model.

Trypanosoma brucei

sleeping sickness

trypanosome hexose transporter

THT

glucose transport

endocytosis

Physical Sciences and Mathematics

Dab2 plays a role in the post-endocytic trafficking of VEGFR2

Inamdar, Shivangi Makarand

01 December 2015

Angiogenesis is a crucial process under both physiological and pathological conditions. Vascular endothelial growth factor (VEGF) A and its cognate receptor, vascular endothelial growth factor receptor 2 (VEGFR2) are key regulators of angiogenesis. Plasma membrane (PM) levels of VEGFR2 are regulated by de novo synthesis, and by both exocytic and endocytic trafficking. VEGF-binding to VEGFR2 induces phosphorylation of key tyrosine residues located in the cytosolic domain of the receptor, followed by clathrin-mediated endocytosis and signal transduction leading to vascular morphogenesis. Disabled protein 2 (Dab2) is a cytosolic, clathrin-adaptor protein that is known to regulate endocytosis of certain cell surface receptors. Studies of Dab2 function have revealed its role in the development of embryonic vasculature. However, the mechanism of Dab2 function, particularly in conjunction with endosomal VEGFR2, remains poorly understood. Our results show that Dab2 interacts with VEGFR2 and that upon VEGF stimulation the two proteins co-localize within Rab5-positive early endosomes. Knockdown of Dab2 reduces levels of VEGF-induced phosphorylation of VEGFR2 at residue Y1175. This is significant because phosphorylation of VEGFR2-Y1175 is crucial for pro-angiogenic signal transduction. Moreover, knockdown of Dab2 causes an increased trafficking of VEGFR2 to late endosomes (LE). Finally, this altered VEGFR2 trafficking following Dab2 knockdown has major functional consequences for endothelial cells, as they are unable to undergo morphogenesis into tube-like structures in an in vitro assay of angiogenesis. Collectively, our data show that Dab2 plays a crucial role in VEGFR2 trafficking in the endocytic system and this impacts receptor signaling and endothelial cell morphogenesis during angiogenesis.

Dab2

Early endosome

Endocytosis

Late endosome

tube formation assay

VEGFR2

Cell Biology