Global ETD Search

41	Hemocyanin-derived phenoloxidase : biochemical and cellular investigations of innate immunity Coates, Christopher J. January 2012 (has links) Hemocyanins (Hcs) and phenoloxidases (POs) are both members of the type-3 copper protein family, possessing di-cupric active sites which facilitate the binding of dioxygen. While Hcs and POs share a high degree of sequence homology, Hcs have been associated traditionally with oxygen transport whereas POs are catalytic proteins with a role in innate immunity. Evidence gathered in recent years details numerous immune functions for Hc, including an inducible PO activity. Unlike the pro-phenoloxidase activation cascade in arthropods, the endogenous mechanism(s) involved in the conversion of Hc into an immune enzyme is lacking in detail. The overall aim of this research was to characterise the physiological circumstances in which Hc is converted into a PO-like enzyme during immune challenge. A series of biochemical, biophysical and cellular techniques were used to assess the ability of phospholipid liposomes to mimic the well-characterised induction of PO activity in Hc by SDS micelles. Incubation of Hc purified from Limulus polyphemus, in the presence of phosphatidylserine (PS) liposomes, yielded ~ 90% of the PO activity observed upon incubation of Hc with the non-physiological activator, SDS. Phospholipid–induced PO activity in Hc was accompanied by secondary and tertiary structural changes similar to those observed in the presence of SDS. Subsequent analysis revealed that electrostatic interactions appear to be important in the PS-Hc activation complex. In vivo, PS-Hc interactions are assumed to be limited in quiescent cells. However, amebocytes undergoing apoptosis redistribute PS onto the outer leaflet of the plasma membrane, resulting in the potential for increased Hc-PS interactions. In the absence of a reliable culturing technique for L. polyphemus amebocytes, in vitro conditions were optimised for the short term maintenance of this labile cell type. Amebocytes retained viability and functionality in a medium that mimicked most-closely, the biochemical properties of L. polyphemus hemolymph. When presented with a fungal, bacterial or synthetic challenge, ~9% of amebocytes in vitro were found to be phagocytically active. Target internalisation was confirmed via the use of fluorescent quenchers and membrane probes. Within 4 hours of target internalisation, amebocytes underwent apoptosis, characterised by the loss of plasma and mitochondrial membrane potential, increased caspase-3 activity and extracellularisation of PS. Phagocytosis-induced cell death led to a proportional increase in the level of Hc-derived PO activity, suggesting that Hc may be interacting with PS present on terminal amebocyte membranes. The PO activity of Hc was investigated further in order to address an economically important issue; hyperpigmentation in commercial shellfish. While PO enzymes are thought to be the cause of hyperpigmentation in Nephrops norvegicus, evidence presented here suggests that cellular PO is inactivated after freeze-thawing, while extracellular Hc retains stability and displays a heightened level of inducible PO activity under similar treatments. Known PO inhibitors were used successfully to reduce Hc-derived PO activity, with inhibitors assumed to bind Hc in a manner similar to PO-inhibitor complexes. Structural and functional studies of hemocyanins and immune cells presented here provide new insights into the interactions of hemocyanin-activator complexes in invertebrates. 612
42	<i>IN VIVO</i> OXIDATIVE STRESS IN ALZHEIMER DISEASE BRAIN AND A MOUSE MODEL THEREOF: EFFECTS OF LIPID ASYMMETRY AND THE SINGLE METHIONINE RESIDUE OF AMYLOID-β PEPTIDE Bader Lange, Miranda Lu 01 January 2010 (has links) Studies presented in this dissertation were conducted to gain more insight into the role of phospholipid asymmetry and amyloid-β (Aβ)-induced oxidative stress in brain of subjects with amnestic mild cognitive impairment (aMCI) and Alzheimer disease (AD). AD is a largely sporadic, age-associated neurodegenerative disorder clinically characterized by the vast, progressive loss of memory and cognition commonly in populations over the age of ~65 years, with the exception of those with familial AD, which develop AD symptoms as early as ~30 years-old. Neuropathologically, both AD and FAD can be characterized by synapse and neuronal cell loss in conjunction with accumulation of neurofibrillary tangles and senile plaques. Elevated levels of oxidative stress and damage to brain proteins, lipids, and nucleic acids are observed, as well. Likewise, aMCI, arguably the earliest form of AD, displays many of these same clinical and pathological characteristics, with a few exceptions (e.g., no dementia) and to a lesser extent. Studies in this dissertation focused on the contributions of oxidative stress to the exposure of phosphatidylserine (PtdSer) to the outer-leaflet of the lipid membrane, how and when PtdSer asymmetric collapse contributes to the progression of aMCI, AD, and FAD, and the role played by methionine-35 (Met-35) of Aβ in oxidative stress and damage, as measured in a transgenic mouse model of Aβ pathology. Normally, the PtdSer is sequestered to the cytosolic, inner-leaflet of the bilayer by the adenosine triphosphate (ATP)-dependent, membrane-bound translocase, flippase, which unidirectionally transports PtdSer inward against its concentration gradient. Oxidative stress-induced modification of flippase and/or PtdSer, however, leads to prolonged extracellular exposure of PtdSer on the outer membrane leaflet, a known signal for both early apoptosis and selective recognition and mononuclear phagocytosis of dying cells. Within the inferior parietal lobule (IPL) of subjects with aMCI and AD, a significant collapse in PtdSer asymmetry was found in association with increased levels of both pro- and anti-apoptotic proteins, Bax, caspase-3, and Bcl-2. Moreover, a significant collapse in PtdSer asymmetry was also found in whole brain of human double-mutant knock-in mouse models of Aβ pathology, together with significantly reduced Mg2+ATPase activity, representing flippase activity, and increased levels of pro-apoptotic caspase-3. Significant PtdSer externalization corresponded to the age at which significant soluble Aβ(1-42) deposition occurs in this particular mouse model (9 months), and not of plaque deposition (12 months), suggesting that elevated levels of Aβ(1-42), together with increasing oxidative stress and apoptosis, may contribute to altered PtdSer membrane localization. Also in this dissertation, transgenic mice carrying Swedish and Indiana mutations on the human amyloid precursor protein (APPSw,In) and APPSw,In mice carrying a Met35Leu mutation on Aβ were derived to investigate the role of Met-35 in Aβ(1-42)-induced oxidative stress in vivo. Oxidative stress analyses revealed that Aβ-induced oxidative stress requires the presence of Met-35, as all indices of oxidative damage (i.e., protein carbonylation, nitration, and protein-bound 4-hydroxy-2-trans-nonenal [HNE]) in brain of Met35Leu mice were completely prevented. Moreover, immunohistochemical analyses indicated that the Met35Leu mutation influences plaque formation, as a clear reduction in Aβ-immunoreactive plaques in Met35Leu mice was found in conjunction with a significant increase in microglial activation. In contrast, behavioral analyses suggested that spatial learning and memory was independent of Met-35 of Aβ, as Met35Leu mice demonstrated inferior water-maze performance compared to non-transgenic mice. Differential expression and redox proteomic analyses to pinpoint proteins significantly altered by the APPSw,In and Met35Leu mutations was performed, as well. Expression proteomics showed significant increases and decreases in APPSw,In and Met35Leu mouse brain, respectively, in proteins involved in cell signaling, detoxification, structure, metabolism, molecular chaperoning, protein degradation, mitochondrial function, etc. Redox proteomics found many of these same proteins to be oxidatively modified (i.e., protein carbonylation and nitration) in both APPSw,In and Met35Leu mouse brain, providing additional insights into the critical nature of Met-35 of Aβ for in vivo oxidative stress in a mammalian species brain, and strongly suggesting similar importance of Met-35 of Aβ(1-42) in brain of subjects with aMCI and AD. Taken together, studies presented in this dissertation demonstrate the role of oxidative stress-induced alteration of PtdSer asymmetry and Met-35 in Aβ-induced oxidative stress in aMCI, AD, and FAD brain. Alzheimer disease (AD) oxidative stress amyloid-β peptide (Aβ) phosphatidylserine (PtdSer) methionine 35 (Met-35) Biochemistry Chemistry
43	Mécanismes du transport lipidique par les protéines ORP/Osh / Mechanisms of lipid transport by the ORP/Osh proteins Moser von Filseck, Joachim 16 December 2014 (has links) Une distribution lipidique hétérogène est essentielle à l’identité et fonction des organelles, mais l’échange par trafic vésiculaire tend à annuler cette distribution. Il existe donc des mécanismes qui assurent l’homéostasie des lipides. Les protéines Osh (S. cerevisiae) et les OSBP-Related Proteins (ORP, H. sapiens), sont des transporteurs de lipides. Osh4 est capable d’échanger de l’ergostérol contre le phosphatidylinositol-4-phosphate (PI4P), présent sur l’appareil de Golgi. Utilisant des outils fluorescents mesurant avec une précision inégalée le transport de stérol et de PI4P, nous démontrons qu’Osh4 transporte du stérol contre son gradient de concentration en utilisant l’énergie d’un gradient de PI4P. Un couplage au métabolisme du PI4P permettrait à Osh4 d’alimenter le Golgi avec du stérol, ainsi créant le gradient de stérol entre ces organelles. La protéine OSBP participe, via sa capacité à connecter la membrane du RE à celle du trans-Golgi, à la création de jonctions entre ces organelles. Nous avons montré qu’OSBP, par échange stérol/PI4P, utilise le PI4P pour transférer du cholestérol au Golgi, mais également pour autoréguler sa capacité à former les jonctions. Osh6 lie la phosphatidylsérine, nous permettant d’étudier un nouveau mécanisme d’échange. Nous avons résolu la structure cristallographique d’un complexe Osh6/PI4P et avons pu observer l’échange de ces deux ligands par Osh6 entre deux membranes. Cette étude nous permet de suggérer que l’échange de PI4P avec divers lipides, via les protéines Osh/ORP, serait un mécanisme général permettant aux cellules de maintenir le gradient lipidique entre le RE et les membranes tardives de la voie sécrétoire. / An uneven lipid distribution is essential for the function of eukaryotic organelles. However, exchange of material by vesicular trafficking has a tendency to perturb this distribution; mechanisms must though exist to ensure lipid homeostasis. Osh proteins (S. cerevisiae) and OSBP-Related Proteins (ORPs, H. sapiens), are lipid transfer proteins (LTPs). Osh4 is capable of exchanging ergosterol for phosphatidylinositol 4-phosphate (PI4P), found on the Golgi. Using novel fluorescent tools to measure with unprecedented precision the transport of sterol and PI4P, we find that Osh4 can transport sterol against its concentration gradient using the energy of a PI4P gradient. Coupled to phosphoinositide metabolism, this allows Osh4 to transport sterol to the trans-Golgi and create the sterol gradients observed between these organelles. OSBP participates in the creation of membrane contact sites (MCSs) via its capacity to connect ER membranes to those of the trans-Golgi. We have shown that it uses PI4P for transporting cholesterol from the ER to the trans-Golgi by sterol/PI4P counterexchange, hence also autoregulating its tethering activity. Finally, the identification of phosphatidylserine as a ligand for Osh6 allowed us to analyze the possible extrapolation of the PI4P counterexchange mechanism. We have solved the crystal structure of Osh6 in complex with PI4P and have been able to follow counterexchange of PI(4)P and PS in vitro. Concluding, our studies allow us to suggest a general mechanism for ORP/Osh-mediated counterexchange of PI4P for other lipids to maintain lipid gradients between the ER and late membranes of the secretory pathway. Protéines de transfert lipidique Protéines Osh OSBP Stérol Phosphatidylinositol-4-phosphate Phosphatidylsérine Lipid transfer protein Osh proteins OSBP OSBP-related proteins Sterol Phosphatidylinositol 4-phosphate Phosphatidylserine
44	Aspectos imunopatogênicos da leishmaniose cutânea difusa: fatores da leishmania e do hospedeiro Costa, Jaqueline França January 2013 (has links) Submitted by Ana Maria Fiscina Sampaio (fiscina@bahia.fiocruz.br) on 2013-11-06T14:31:55Z No. of bitstreams: 1 Jaqueline Franca Costa Aspectos imunopatogênicos da leishmaniose cutanêa...pdf: 1509776 bytes, checksum: 2d3824cc711f84d908e61378ac3d4a8c (MD5) / Made available in DSpace on 2013-11-06T14:31:55Z (GMT). No. of bitstreams: 1 Jaqueline Franca Costa Aspectos imunopatogênicos da leishmaniose cutanêa...pdf: 1509776 bytes, checksum: 2d3824cc711f84d908e61378ac3d4a8c (MD5) Previous issue date: 2013 / Universidade Federal da Bahia. Faculdade de Medicina da Bahia. Salvador, BA, Brasil / Fundação Oswaldo Cruz. Centro de Pesquisas Gonçalo Moniz. Salvador, BA, Brasil / A progressão crônica da LCD é atribuída à falta da imunidade mediada por células específica para antígeno de Leishmania e predominância de uma resposta do tipo Th2. Neste sentido, tanto fatores do parasita quanto do hospedeiro podem atuar na desativação da resposta imune favorecendo a replicação da Leishmania. Inicialmente avaliamos o papel da exposição de fosfatidilserina na infecção de macrófagos murinos com Leishmania amazonensis isolados de pacientes com LCD. Para isso, macrófagos peritoneais de camundongos F1(BALB/c x C57BL/6) foram infectados com os diferentes isolados obtidos de pacientes com LCD e LCL. Os isolados obtidos de pacientes com LCD apresentaram maior expressão de PS do que os isolados de pacientes com LCL após 24 horas de infecção. Em seguida, avaliamos a infectividade dos diferentes isolados. As amastigotas de pacientes com LCD apresentaram maior porcentagem de macrófagos infectados e índice de infecção, quando comparados com amastigotas de pacientes com LCL. Quanto ao mecanismo, o grupo infectado com os isolados de pacientes com LCD apresentou um aumento na relação TGF-β/TNF-α e IL-10/TNF-α em relação ao grupo LCL. A análise de correlação revelou que a porcentagem de macrófagos infectados, o índice de infecção, os índices de TGF-β/TNF-α e IL-10/TNF-α, bem como o tamanho dos vacúolos estão diretamente associados a maior exposição de PS. Além disso, o número de lesões e o tempo de doença dos pacientes com LCD também estão associados á exposição de PS. O reconhecimento de PS tem como consequência a produção de TGF, IL-10, IL-4 e PGE2, que ativam a via da enzima arginase e consequentemente a produção de poliaminas. Por isso buscamos investigar a participação de tais mediadores em pacientes com LCD. Os níveis da arginase I, ODC e TGF-β no plasma de pacientes com LCD estava elevados quando comparado com os pacientes com LCL ou o controle saudável da área endêmica. Por outro lado, os níveis de TNF-α, IL-12, MCP-1 e CXCL-10 estavam reduzidos no plasma de pacientes com LCD comparado aos pacientes com LCL. Os níveis de arginase apresentaram correlação positiva com ODC, TGF-β e PGE e correlação negativa com TNF-α, IL-12, MCP-1 e CXCL-10. A produção da arginase e ODC também foi avaliada nas lesões dos pacientes através de imunohistoquímica. As lesões dos pacientes com LCD apresentaram uma marcação mais intensa e difusa do que as de LCL. Além disso, a expressão da cicloxigenase 2 também estava aumentada nas lesões de LCD. A expressão do mRNA das enzimas fosfolipase A2, COX-2, prostaglandina sintase, espermina e espermidina sintase apresentaram uma relação positiva com a enzima arginase, indicando que esta interfere diretamente no metabolismo dos mediadores lipídicos e na via de síntese das poliaminas. A inibição das enzimas arginase e ODC com nor-NOHA e DFMO, respectivamente, reduziu a carga parasitária de macrófagos humanos infectados com L. amazonensis após 72 h de infecção. Além disso, os inibidores reduziram a produção de TGF e PGE2 no sobrenadante das culturas. Em conjunto, nossos dados sugerem que a liberação local e sistêmica de prostaglandinas e poliaminas associadas à via da arginase em pacientes com LCD deve estar associada com a inabilidade em montar uma resposta imune eficiente contra a infecção por Leishmania proporcionando um ambiente favorável para a replicação do parasita e disseminação da doença. Nossos resultados mostram também que este ambiente imunossuprimido pode ser induzido pela exposição de PS na superfície de L. amazonensis deflagrando uma resposta anti-inflamatória nos pacientes com LCD. / The chronic progression of DCL is attributed to the lack of specific cell-mediated immunity to Leishmania antigen and predominance of a Th2-type response. In this sense, both factors of the parasite and the host can act in the deactivation of immune response, favoring parasite replication. Initially we evaluate the role of phosphatidylserine exposure in murine macrophages infected with L. amazonensis isolated from patients with DCL. First, peritoneal macrophages of mice F1 (BALB/c x C57BL/6) were infected with different isolates from patients with DCL and LCL. The DCL isolates showed higher PS expression than the LCL isolates after 24 hours of infection.. The DCL-amastigotes patients showed a higher percentage of infected macrophages and the infectivity index when compared with patients with LCL- amastigotes. Regarding the mechanism, the group infected with isolates from patients with LCD showed an increase in TGF/TNF and IL-10/TNF when compared with LCL group. Correlation analysis revealed that the percentage of infected macrophages, the infectivity index, the rate of TGF/TNF and IL-10/TNF as well as the size of the vacuoles are directly associated with higher PS exposure. Moreover, the number of lesions and disease duration of DCL patients are also associated with PS exposure. Recognition of PS results in the production of TGF, IL-10, IL-4 and PGE2, molecules with anti-inflammatory role that activate the enzyme arginase and consequently the polyamines production. Therefore, we investigated the involvement of these mediators in patients with DCL. The plasma of DCL patients showed high levels of arginase, ODC and TGF compared to the LCL patients or healthy control from endemic area. On the other hand, the levels of TNF, IL-12, MCP-1 and CXCL-10 were reduced in the DCL patients plasma compared to patients with LCL. Arginase levels were positively correlated with ODC, TGF and PGE and negatively correlated with TNF, IL-12, MCP-1 and CXCL-10. The production of arginase and ODC was also evaluated in the lesions of patients by immunohistochemistry. The DCL lesions showed a more intense and diffuse staining than LCL lesions. Furthermore, the expression of cyclooxygenase-2 was also increased in lesions of DCL. The mRNA expression of the enzymes phospholipase A2, COX-2, prostaglandin synthase, spermine synthase and spermidine synthase showed a positive relationship with the arginase enzyme, indicating that it directly interferes with the metabolism of lipid mediators and in synthesis of polyamines. The inhibition of the enzyme arginase and ODC with nor-NOHA and DFMO, respectively, reduced the parasite load of L. amazonensis human infected macrophages 72 h after infection. Moreover, NOHA and DFMO reduced TGF and PGE2 production in the supernatant of cultures. Together, local and systemic release of prostaglandins, arginase and polyamines pathways in DCL should be associated with the inability of these patients to mount effective immune response against infection by Leishmania providing a favorable environment for replication and spread of the parasite disease. Our results also show that this immunosuppressed environment can be induced by PS exposure on the L. amazonensis surface triggering anti-inflammatory response in DCL patients. Leishmaniose cutânea difusa Leishmania amazonensis Fosfatildilserina Prostaglandina E2 Arginase Poliaminas Macrófagos Diffuse cutaneous leishmaniasis Leishmania amazonensis Phosphatidylserine Prostaglandin E2 Arginase Polyamines Macrophages
45	Avicin is a potent sphingomyelinase inhibitor that blocks K-Ras plasma membrane interaction and its oncogenic activity Garrido, Christian M. January 2018 (has links) No description available. Biochemistry Molecular Biology Avicin triterpenoid saponin K-Ras plasma membrane phosphatidylserine sphingomyelinase sphingomyelin ceramide non-small cell lung cancer pancreatic ductal adenocarinoma
46	The role of PI4KB in cellular localization of small GTPases Sadrpour, Parisa 30 August 2022 (has links) No description available. Biochemistry Molecular Biology small GTPases localization plasma membrane interactions PI4KB Golgi PI4P phosphatidylserine oncogenic mutant K-Ras RalA Rac1 Arl4a Arl4c polybasic domain mitochondrial translocation
47	Membrane Properties Involved in Calcium-Stimulated Microparticle Release from the Plasma Membranes of S49 Lymphoma Cells Campbell, Lauryl Elizabeth 14 August 2012 (has links) (PDF) The mechanism of microparticle shedding from the plasma membrane of calcium-loaded cells has been investigated in erythrocytes and platelets. Recent studies have revealed the physiological and clinical importance of microparticle release from nucleated cells such as lymphocytes and endothelium. The experiments of this study were designed to address whether simple mechanisms discovered in platelets and erythrocytes also apply to the more complex nucleated cells. Four such mechanisms were addressed: potassium efflux, transbilayer phosphatidylserine migration, cytoskeleton degradation, and membrane lipid order. The rate and amount of microparticle release in the presence of a calcium ionophore, ionomycin, was assayed by light scatter at 500 nm. To inhibit the calcium-activated potassium current, cells were exposed to 1 mM quinine or a high-potassium buffer. Both interventions substantially attenuated microparticle shedding induced by ionomycin. Microparticle release was also greatly reduced in a lymphocyte cell line deficient in the expression of scramblase, the enzyme responsible for calcium-stimulated phosphatidylserine migration to the cell surface. This result indicated that such phosphatidylserine exposure is also required for microparticle shedding. The importance of cytoskeletal rearrangement was evaluated through the use of E64-d, a calpain inhibitor, which appeared to have no affect on release. Thus, if cytoskeleton degradation is important for microparticle release, a different enzyme or protein must be involved. Finally, the effect of membrane physical properties was addressed by varying the experimental temperature (32–42 °C). A significant positive trend in the rate of microparticle release as a function of temperature was observed. Fluorescence experiments with trimethylammoniumdiphenylhexatriene and patman revealed significant differences in the level of apparent membrane order along that temperature range. Ionomycin treatment appeared to cause further disordering of the membrane, although the magnitude of this change was minimally temperature-sensitive. Thus, it was concluded that microparticle release depends more on the initial level of membrane order than on the change imposed by calcium uptake. In general, mechanisms involved in particle release from platelets and erythrocytes appeared relevant tolymphocytes with the exception of the hydrolytic enzyme involved in cytoskeletal degradation. cytoskeleton phosphatidylserine TMA-DPH patman ionomycin Raji fluorescence potassium gradient membrane fluidity nucleated cells anisotropy EGTA calpain gelsolin Cell and Developmental Biology Physiology
48	<b>Evaluating the role of the Ebola virus (EBOV) matrix protein (VP40) surface charge and host cell calcium levels on EBOV plasma membrane assembly and budding.</b> Balindile Bhekiwe Motsa (18426324) 24 April 2024 (has links) <p dir="ltr">The Ebola virus (EBOV) is a filamentous RNA virus which causes severe hemorrhagic fever. It is one of the most dangerous known pathogens with a high fatality rate. Multiple outbreaks of EBOV have occurred since the 1970s with the most widespread outbreak starting in December 2013. This outbreak continued through May of 2016 and had a fatality rate of approximately 50%. EBOV outbreaks are recurrent because the virus is still present in animal reservoirs. Despite multiple EBOV outbreaks we still lack a clear understanding of how new viral particles are formed and spread through virus assembly and release. Given the widespread global travel, EBOV now poses a threat to the entire world. EBOV encodes for the matrix protein, VP40, which is one of the most conserved viral proteins. VP40 can form different structures leading to different functions of the protein in different stages of the EBOV life cycle. The VP40 dimer traffics to the inner leaflet of the plasma membrane to facilitate assembly and budding. The VP40 octameric ring has been implicated in transcriptional regulation. This thesis focuses on understanding in further detail the determinates of VP40 plasma membrane assembly and exit from an infected cell.</p><p dir="ltr">The assembly and trafficking of VP40 to the plasma membrane requires a network of protein-protein and lipid-protein interactions (PPIs and LPIs). Studying these interfaces is important for understanding how VP40 structure and function regulates trafficking and assembly and can shed light on therapeutic strategies to target EBOV. The alteration of host cell Ca<sup>2+</sup> levels is one of the strategies that viruses use to perturb the host cell signaling transduction mechanism in their favor. Evidence has emerged demonstrating that Ca<sup>2+</sup> is important for the assembly and budding of EBOV in a VP40-dependent manner. The relationship between intracellular Ca<sup>2+</sup> levels and EBOV matrix protein VP40 function is still unknown. In this work we utilize biophysical techniques to study the role of LPIs and intracellular Ca<sup>2+</sup> on VP40 dynamics at the plasma membrane and key residues for assembly and budding. This work highlights the sensitivity of slight electrostatic changes on the VP40 surface for assembly and budding and a critical interaction between Ca<sup>2+</sup> and the VP40 dimer that are important for lipid binding at the plasma membrane.</p> Protein trafficking Virology Ebola virus electrostatics VP40 Matrix protein calcium virus assembly virus budding virus like particle phosphatidylserine phosphatidylinositol-4,5-bisphosphate
49	Aminoglycerophospholipid flipping and P4-ATPases in Toxoplasma gondii Chen, Kai 29 November 2024 (has links) Die Umkehrung von Lipiden und die asymmetrische Verteilung in Membranbilayern sind häufige Phänomene bei Eukaryoten, katalysiert durch P4-ATPasen. Ihr Auftreten und ihre Bedeutung bei apikomplexen Parasiten sind jedoch wenig erforscht. Wir zeigen, dass Toxoplasma gondii Phosphatidylserin (PtdSer) und Phosphatidylethanolamin (PtdEtn) aus seiner Umgebung aufnehmen kann, jedoch keine Phosphatidylcholin (PtdCho)-Sonden. Die flusszytometrische Quantifizierung bestätigte die Selektivität des Phospholipidtransports und dessen Abhängigkeit von Energie (ATP) und Protein.Wir identifizierten fünf P4-ATPasen (TgP4-ATPase1-5) und ihre Untereinheiten - das Ligandeffektormodul (TgLem1-3) im Genom von T. gondii. TgP4-ATPase1 ist in der apikalen Plasmamembran mit TgLem1 vorhanden; TgP4-ATPase3 und TgLem3 sind im Golgi-Netzwerk lokalisiert, während TgP4-ATPase2 und TgP4-ATPase5 in der Plasmamembran und den Endo-/Zytomembranen vorkommen. Die Depletion von TgP4-ATPase1-3 beeinträchtigte das Wachstum des Parasiten in humanen Wirtszellen und offenbarte deren entscheidende Rolle. Zusätzlich zeigten unsere Arbeiten, dass TgP4-ATPase1 und TgLem1 zusammenarbeiten, um PtdSer über die Plasmamembran zu translozieren. Ein genetisches Ausschalten von P4-ATPase1 und eine bedingte Depletion von TgLem1 in Tachyzoiten störten die asexuelle Reproduktion und die Translokation von PtdSer erheblich. Die phänotypische Analyse einzelner Mutanten zeigte, dass die Lipidumkehrung für die Motilität, den Ausbruch und die Invasion der Tachyzoiten notwendig ist. Biotinylierungsbasierte Nähe-Assays und reziproke Immunpräzipitationsexperimente zeigten die physische Interaktion von P4-ATPase1 und Lem1. Unsere Ergebnisse verdeutlichen die Bedeutung der Lipidumkehrung während des lytischen Zyklus eines Modellpathogens und identifizieren P4-ATPase1 als potenzielles Wirkstoffziel in T. gondii. / Lipid flipping and asymmetric distribution in membrane bilayers is a common eukaryotic phenomenon catalyzed by various P4-ATPases. However, its occurrence, mechanism, and significance in apicomplexan parasites are not well understood. We demonstrate that Toxoplasma gondii, a clinically relevant intracellular parasite, can salvage phosphatidylserine (PtdSer) and phosphatidylethanolamine (PtdEtn) but not phosphatidylcholine (PtdCho) probes. Flow cytometric quantitation of NBD-lipid probes confirmed the selectivity of phospholipid transport and its dependence on energy (ATP) and protein. We identified five P4-ATPases (TgP4-ATPase1-5) and their subunits—ligand effector module (TgLem1-3) in the T. gondii genome. During the lytic cycle, TgP4-ATPase1 is located in the apical plasmalemma with its partner TgLem1; TgP4-ATPase3 and TgLem3 are in the Golgi network, while TgP4-ATPase2 and TgP4-ATPase5 are found in the plasmalemma and endo/cytomembranes. Depletion of TgP4-ATPase1-3 impaired parasite growth in human host cells, revealing their crucial roles. Further work showed that TgP4-ATPase1 and TgLem1 cooperate to translocate PtdSer across the plasma membrane. Genetic knockout of P4-ATPase1 and conditional depletion of TgLem1 in tachyzoites disrupted asexual reproduction and translocation of PtdSer. Additionally, phenotypic analysis of mutants indicated that lipid flipping is essential for the motility, egress, and invasion of tachyzoites. Proximity-dependent biotinylation and reciprocal immunoprecipitation assays confirmed the physical interaction of P4-ATPase1 and Lem1. Our findings highlight the significance of lipid flipping during the lytic cycle of a model pathogen and identify P4-ATPase1 as a potential drug target in T. gondii. NBD-Lipid Phosphatidylserin Phosphatidylethanolamin P4-ATPase Lem3/Cdc50 Phospholipid-Umdrehung NBD-lipid Phosphatidylserine Phosphatidylethanolamine P4-ATPase Lem3/Cdc50 Phospholipid flipping 570 Biologie ddc:570
50	The plasma membrane lipid asymmetry of Leishmania donovani and its relevance for phagocytosis Weingärtner, Adrien 21 May 2012 (has links) In großen Teilen der Welt verursachen intrazelluläre Parasiten der Spezies Leishmania schwerwiegende Infektionen beim Menschen. Die Exposition eines Phospholipids (Phosphatidylserin, PS) steht unter Verdacht Fresszellen zur Aufnahme der Parasiten zu stimulieren. Bisher ist die Regulation der Phospholipidverteilung in der Plasmamembran dieser Parasiten kaum erforscht. In der vorliegenden Arbeit wurde ein lipidtransportierender Proteinkomplex identifiziert, der einen wesentlichen Beitrag zur asymmetrischen Lipidverteilung in der Plasmamembran von Leishmania donovani leistet. Die Zerstörung des Komplexes führte zum Verlust des einwärts gerichteten Lipidtransports und zur Anreicherung von Phosphatidylethanolamin (PE) auf der Zelloberfläche des Parasiten. Diese veränderte Lipidasymmetrie hatte jedoch keinen Einfluss auf die Phagozytose durch Makrophagen. Darüber hinaus brachte die Untersuchung des Insektenstadiums (Promastigote) verschiedener Leishmania Spezies zu Tage, dass die Menge an PS unterhalb des Detektionslimits modernster Nachweisverfahren liegt. Des Weiteren konnte gezeigt werden, dass der Parasit über einen Scramblase-Mechanismus verfügt, der durch intrazelluläres Kalzium stimulierbar ist. Die Scramblase-Aktivität ist, im Gegensatz zu dem zuvor beschriebenen einwärts gerichteten Lipidtransport, energieunabhängig und ermöglicht die bidirektionale Translokation von fluoreszenzmarkiertem Phosphatidylcholin (PC), PE, PS und Sphingomyelin (SM). Dementsprechend konnte nach Kalziumstimulierung endogenes PE auch in der äußeren Lipidschicht der Plasmamembran detektiert werden, wobei deren Barrierefunktion nicht beeinträchtigt wurde. Diese Ergebnisse geben neue Einblicke in die dynamische Regulation der Lipidverteilung über die Plasmamembran des Parasiten und verdeutlichen, dass die Exposition von PS und PE nicht essentiell für das Eindringen der Leishmanien in die Wirtszellen ist. / The protozoan parasite Leishmania causes severe infections in humans throughout the world. Following the transmission via sand flies to its mammalian host the extracellular parasite has to gain entry into phagocytic cells to initiate a successful infection. Specific surface exposed phospholipids have been implicated in Leishmania macrophage-interaction, but the mecha-nisms controlling and regulating the plasma membrane lipid distribution remains to be eluci-dated. In the present work a lipid transporting protein complex was identified in Leishmania dono-vani which plays an essential role in maintaining an asymmetric lipid distribution across the plasma membrane. Loss of the protein complex abolishes the inward-directed lipid transport and thus e.g. to an increased cell surface exposure of phosphatidylethanolamine (PE). In spite of this altered lipid asymmetry the uptake by macrophages is unaffected. Moreover, Leishma-nia promastigotes of different species lack detectable amounts of phosphatidylserine (PS) although being infective. Furthermore, a scramblase activity following a cytosolic calcium signal was demonstrated. This scramblase mechanism facilitated, in contrast to the previous described inward directed lipid transport, the bidirectional movement of fluorescent lipid analogues of PC, PE, PS and SM in an energy-independent manner. In accordance with these findings endogenous PE was exposed to the outer plasma membrane leaflet following the Ca2+-signal, while the plasma membrane itself remained intact. These results provide novel insight into the dynamic regulation of the transbilayer lipid distri-bution across the parasite plasma membrane and reveal that exposure of PS and PE is not cru-cial for invasion of the host cell by Leishmania donovani promastigotes. Leishmania Lipidasymmetrie Typ 4 P-Typ ATPase Scrambling Phosphatidylserin phosphatidylserine Leishmania lipid asymmetry type 4 P-type-ATPase scrambling 570 Biologie 32 Biologie XD 9300 ddc:570

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