991 resultados para Vaccinia core proteins
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Vaccinia virus, the prototype member of the orthopoxviruses, is the largest and the most complex virus known. After replication of its genome and expression of the viral proteins, vaccinia undergoes a complicated assembly process which produces two distinct infectious forms. The first of these, the intracellular mature virus (IMV), develops from the immature virion (IV) after packaging of the genome and cleavage of the core proteins. During the transition of the IV to the IMV, a new core structure develops in the centre of the virion, concomitantly with the appearance of spike-like structures which extend between this core and the surrounding membranes of the IMV. I describe the characterization of p39 (gene A4L) which is hypothesized to be one component of these spikes. p39 is a core protein, but has strong associations with the membranes surrounding the IMV, possibly due to an interaction with p21 (A17L). Due to its location between the core and the membranes of the IMV, p39 is ideally situated to act as a matrix-like linker protein and may play a role in the formation of the core during the transition of the IV to the IMV. The IMV is subsequently wrapped by a membrane cisterna derived from the trans Golgi network, to form the intracellular enveloped virus (IEV). I show that the IEV can co-opt the actin cytoskeleton of the host cell in order to induce the formation of actin tails which extend from one side of the virion. These actin tails propel the virus particle, both intra- and intercellularly, at speeds of up to 2.8µm/min. On reaching the plasma membrane, the virus particles project out from the cell surface at the tip of virally induced microvilli. The outer membrane of the IEV is thought to fuse with the plasma membrane at the tip of these projections, thus exposing the second infectious form of vaccinia. This is thought to be the means by which the cell-associated enveloped virus is presented to neighbouring cells, thereby facilitating the direct cell-to-cell spread of virus particles.
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Diese Arbeit hatte zum Ziel, den Ausschleusungsmechanismus des Hepatitis-B Virus zu beleuchten. Es ist bisher unbekannt, wie das virale Nukleokapsid umhüllt und das reife Virion aus der Leberzelle freigesetzt wird. Bei einigen RNA-Viren, beispielsweise HIV-1, Ebola oder RSV, vermitteln so genannte Late-Domänen im viralen Kapsid- oder Matrix-Protein die Knospung der Viren an intrazellulären Membranen oder der Plasmamembran. Da das HBV-Core-Protein ähnliche Sequenzen trägt, wurde in der vorliegenden Arbeit überprüft, welche Rolle diese im viralen Replikationszyklus spielen. Meine Ergebnisse zeigen, dass die beiden Prolin-reichen Sequenzen PPAY (129-132) und PPNAP (134-138), die retroviralen Late-Domänen ähneln, für die HBV-Morphogenese essentiell sind. Mutationen einzelner Aminosäuren innerhalb dieser Motive führen zu Phänotypen mit verändertem Kapsid-, Nukleokapsid- und Virus-Bildungs-Vermögen. Insbesondere sind die Aminosäure Tyrosin 132 des Motivs PPAY und die Prolinreste 134 und 135 des Motivs PPNAP erforderlich, da diese schon für die Bildung der Kapside unentbehrlich sind. Charakteristisch für beide Motive sind auch die hier gezeigten Interaktionen mit speziellen Wirtszellfaktoren, deren physiologische Funktion es ist, zelluläre Proteine in den endosomalen Sortierungsprozess einzuschleusen. Im Vordergrund stehen hier die E3 Ub-Ligase Nedd4, welche Proteine mit Ub konjugiert und diese so signifikant für die Einschleusung in das endosomale System markiert, und Tsg101, das als zentrale Komponente des ESCRT-I-Komplexes für die Erkennung von ubiquitinierten Proteinen zuständig ist und diese dadurch in die ESCRT-Kaskade des multivesikulären Endosoms einführt. Für die genannten Interaktionen ist das Motiv PPAY und hier wieder speziell das Tyrosin 132 des HBV-Core-Proteins für die Wechselwirkung mit Nedd4 notwendig. Hingegen vermittelt die L-Domänen-ähnliche Sequenz PPNAP die Assoziation von Core mit Tsg101, wobei die beiden Prolinreste 134 und 135 und auch das Asparagin 136 für die Interaktion essentiell sind. Sowohl Nedd4 als auch Tsg101 wirken im Zusammenhang mit Ubiquitin, weshalb eine Ubiquitinierung von Core, trotz bislang negativer Nachweise, wahrscheinlich ist. Zugunsten dieser Annahme spricht auch mein Nachweis, dass der Lysinrest an Position 96 des Core-Proteins, als potentieller Ub-Akzeptor, gerade in späten Schritten eine essentielle Rolle spielt. Weiterhin klärungsbedürftig ist auch die Frage, ob Core direkt mit Tsg101 und Nedd4 interagiert, oder ob andere Faktoren dazwischen geschaltet sind. Auch könnte mit Hilfe von siRNA-vermittelten Depletionsversuchen die physiologische Relevanz der Tsg101/Core-und Nedd4/Core-Interaktion weiterführend untersucht werden. Zudem zeigen meine Arbeiten, dass Core mit intrazellulären Membranen assoziiert, weshalb es interessant wäre, zu untersuchen, ob es sich hierbei um Membranen des endosomalen Systems handelt, an denen die finalen Schritte der Virus-Morphogenese stattfinden könnten.
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Grass carp reovirus (GCRV) is a member of the Aquareovirus genus of the family Reoviridae, a large family of double-stranded RNA (dsRNA) viruses infecting plants, insects, fishes and mammals. We report the first subnanometer-resolution three-dimensional structures of both GCRV core and virion by cryoelectron microscopy. These structures have allowed the delineation of interactions among the over 1000 molecules in this enormous macromolecular machine and a detailed comparison with other dsRNA viruses at the secondary-structure level. The GCRV core structure shows that the inner proteins have strong structural similarities with those of orthoreoviruses even at the level of secondary-structure elements, indicating that the structures involved in viral dsRNA interaction and transcription are highly conserved. In contrast, the level of similarity in structures decreases in the proteins situated in the outer layers of the virion. The proteins involved in host recognition and attachment exhibit the least similarities to other members of Reoviridae. Furthermore, in GCRV, the RNA-translocating turrets are in an open state and lack a counterpart for the sigma1 protein situated on top of the close turrets observed in mammalian orthoreovirus. Interestingly, the distribution and the organization of GCRV core proteins resemble those of the cytoplasmic polyhedrosis virus, a cypovirus and the structurally simplest member of the Reoviridae family. Our results suggest that GCRV occupies a unique structure niche between the simpler cypoviruses and the considerably more complex mammalian orthoreovirus, thus providing an important model for understanding the structural and functional conservation and diversity of this enormous family of dsRNA viruses.
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A novel large heterodimeric dermatan sulfate proteoglycan with core proteins of 460 and 300 kDa, respectively, had been described as a secretory product of human fetal skin fibroblasts (Breuer et al., J. Biol. Chem. 266, 13224-13232 (1991)). Pulse-chase experiments showed a preferential association of the proteoglycan with the cell membrane. Immunogold labeling indicated its localization in fibrils on the cell surface as well as in fibrillar extensions from the cell body. Immunofluorescence studies yielded a fibrillar and punctate staining pattern which was also seen in cultured human and porcine endothelial cells. Dot-like structures were observed in transformed human keratinocytes. Various immunocytochemical double-labeling experiments indicated a remarkable colocalization of the proteoglycan with fibronectin, laminin, perlecan, and type IV collagen whereas only occasionally a colocalization with chondroitin-6-sulfate was found. No evidence for an enrichment of the proteoglycan in vinculin-containing structures was obtained. These results suggest that the proteoglycan is a widely distributed macromolecule which can associate with basement membrane components. Preliminary findings in rat cornea supported this conclusion.
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Two murine leukemia viruses (MuLVs), Rauscher (R-MuLV) and Moloney (Mo-MuLV) MuLVs, were studied to identify the biosynthetic pathways leading to the generation of mature virion proteins. Emphasis was placed on the examination of the clone 1 Mo-MuLV infected cell system.^ At least three genetic loci vital to virion replication exist on the MuLV genome. The 'gag' gene encodes information for the virion core proteins. The 'pol' gene specifies information for the RNA-dependent-DNA-polymerase (pol), or reverse transcriptase (RT). The 'env' gene contains information for the virion envelope proteins.^ MuLV specified proteins were synthesized by way of precursor polyproteins, which were processed to yield mature virion proteins. Pulse-chase kinetic studies, radioimmunoprecipitation, and peptide mapping were the techniques used to identify and characterize the MuLV viral precursor polyproteins and mature virion proteins.^ The 'gag' gene of Mo-MuLV coded for two primary gene products. One 'gag' gene product was found to be a polyprotein of 65,000 daltons M(,r) (Pr65('gag)). Pr65('gag) contained the antigenic and structural determinants of all four viral core proteins--p30, p15, pp12 and p10. Pr65('gag) was the major intracellular precursor polyprotein in the generation of mature viral core proteins. The second 'gag' gene product was a glycosylated gene product (gPr('gag)). An 85,000 dalton M(,r) polyprotein (gPr85('gag)) and an 80,000 dalton M(,r) (gPr80('gag)) polyprotein were the products of the 'gag' genes of Mo-MuLV and R-MuLV, respectively. gPr('gag) contained the antigenic and structural determinants of the four virion core proteins. In addition, gPr('gag) contained peptide information over and above that of Pr65('gag). Pulse-chase kinetic studies in the presence of tunicamycin revealed a separate processing pathway of gPr('gag) that did not seem to involve the generation of mature virion core proteins. Subglycosylated gPr('gag) was found to have a molecular weight of 75,000 daltons (Pr75('gag)) for both Mo-MuLV and R-MuLV.^ The Mo-MuLV 'pol' gene product was initially synthesized as a read-through 'gag-pol' intracellular polyprotein containing both antigenic and structural determinants of both the 'gag' and 'pol' genes. This read-through polyprotein was found to be a closely spaced doublet of two similarly sized proteins at 220-200,000 daltons M(,r) (Pr220/200('gag-pol)). Pulse-chase kinetic studies revealed processing of Pr220/200('gag-pol) to unstable intermediate intracellular proteins of 145,000 (Pr145('pol)), 135,000 (Pr135('pol)), and 125,000 (Pr125('pol)) daltons M(,r). Further chase incubations demonstrated the appearance of an 80,000 dalton M(,r) protein, which represented the mature polymerase (p80('pol)).^ The primary intracellular Mo-MuLV 'env' gene product was found to be a glycosylated polyprotein of 83,000 daltons M(,r) (gPr83('env)). gPr83('env) contained the antigenic and structural determinants of both mature virion envelope proteins, gp70 and p15E. In addition, gPr83('env) contained unique peptide sequences not present in either gp70 or p15E. The subglycosylated form of gPr83('env) had a molecular weight of 62,000 daltons (Pr62('env)).^ Virion core proteins of R-MuLV and Mo-MuLV were examined. Structural homology was observed betwen p30s and p10s. Significant structural non-homology was demonstrated between p15s and pp12s. ^
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Formation and discharge of dense-core secretory vesicles depend on controlled rearrangement of the core proteins during their assembly and dispersal. The ciliate Tetrahymena thermophila offers a simple system in which the mechanisms may be studied. Here we show that most of the core consists of a set of polypeptides derived proteolytically from five precursors. These share little overall amino acid identity but are nonetheless predicted to have structural similarity. In addition, sites of proteolytic processing are notably conserved and suggest that specific endoproteases as well as carboxypeptidase are involved in core maturation. In vitro binding studies and sequence analysis suggest that the polypeptides bind calcium in vivo. Core assembly and postexocytic dispersal are compartment-specific events. Two likely regulatory factors are proteolytic processing and exposure to calcium. We asked whether these might directly influence the conformations of core proteins. Results using an in vitro chymotrypsin accessibility assay suggest that these factors can induce sequential structural rearrangements. Such progressive changes in polypeptide folding may underlie the mechanisms of assembly and of rapid postexocytic release. The parallels between dense-core vesicles in different systems suggest that similar mechanisms are widespread in this class of organelles.
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Telomerase is a ribonucleoprotein (RNP) particle required for the replication of telomeres. The RNA component, termed hTR, of human telomerase contains a domain structurally and functionally related to box H/ACA small nucleolar RNAs (snoRNAs). Furthermore, hTR is known to be associated with two core components of H/ACA snoRNPs, hGar1p and Dyskerin (the human counterpart of yeast Cbf5p). To assess the functional importance of the association of hTR with H/ACA snoRNP core proteins, we have attempted to express hTR in a genetically tractable system, Saccharomyces cerevisiae. Both mature non-polyadenylated and polyadenylated forms of hTR accumulate in yeast. The former is associated with all yeast H/ACA snoRNP core proteins, unlike TLC1 RNA, the endogenous RNA component of yeast telomerase. We show that the presence of the H/ACA snoRNP proteins Cbf5p, Nhp2p and Nop10p, but not Gar1p, is required for the accumulation of mature non-polyadenylated hTR in yeast, while accumulation of TLC1 RNA is not affected by the absence of any of these proteins. Our results demonstrate that yeast telomerase is unrelated to H/ACA snoRNPs. In addition, they show that the accumulation in yeast of the mature RNA component of human telomerase depends on its association with three of the four core H/ACA snoRNP proteins. It is likely that this is the case in human cells as well.
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Cell-surface proteoglycans participate in several biological functions including interactions with adhesion molecules, growth factors and a variety of other effector molecules. Accordingly, these molecules play a central role in various aspects of cell–cell and cell–matrix interactions. To investigate the expression and distribution of the cell surface proteoglycans, syndecan-1 and -2, during periodontal wound healing, immunohistochemical analyses were carried out using monoclonal antibodies against syndecan-1, or -2 core proteins. Both syndecan-1 and -2 were expressed and distributed differentially at various stages of early inflammatory cell infiltration, granulation tissue formation, and tissue remodeling in periodontal wound healing. Expression of syndecan-1 was noted in inflammatory cells within and around the fibrin clots during the earliest stages of inflammatory cell infiltration. During granulation tissue formation it was noted in fibroblast-like cells and newly formed blood vessels. Syndecan-1 was not seen in newly formed bone or cementum matrix at any of the time periods studied. Syndecan-1 expression was generally less during the late stages of wound healing but was markedly expressed in cells that were close to the repairing junctional epithelium. In contrast, syndecan-2 expression and distribution was not evident at the early stages of inflammatory cell infiltration. During the formation of granulation tissue and subsequent tissue remodeling, syndecan-2 was expressed extracellularly in the newly formed fibrils which were oriented toward the root surface. Syndecan-2 was found to be significantly expressed on cells that were close to the root surface and within the matrix of repaired cementum covering root dentin as well as at the alveolar bone edge. These findings indicate that syndecan-1 and -2 may have distinctive functions during wound healing of the periodontium. The appearance of syndecan-1 may involve both cell–cell and cell–matrix interactions, while syndecan-2 showed a predilection to associate with cell–matrix interactions during hard tissue formation.
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This is the first study to describe the association between expression of MUC1 and MUC2 mucins and prognosis in ovarian cancer. Paraffin sections of epithelial ovarian tumours (n=182: 29 benign, 21 low malignant potential, and 132 invasive tumours) were analysed immunohistochemically for expression of MUC1 and MUC2 mucin core proteins. Most benign, low malignant potential, and invasive tumours showed high MUC1 expression in the cytoplasm. Low cytoplasmic expression of MUC1 was a predictor for good prognosis, particularly within stage III tumours. A minority of benign epithelial tumours, but most low malignant potential and invasive non-mucinous tumours, showed high MUC1 expression on the cell membrane. High apical MUC1 reactivity was associated with non-mucinous tumours. Low expression of MUC1 in the apical membrane was associated with early stage and good outcome for invasive tumours. Most benign and low malignant potential tumours, but only a minority of invasive tumours, showed MUC2 expression. MUC2 was found in non-mucinous as well as in mucinous tumours. The presence of MUC2 was inversely associated with high tumour grade but was not associated with altered survival. These results support experimental evidence that MUC1 influences the metastatic ability of ovarian cancer.
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Heparan sulfate proteoglycans (HSPGs) are key components of the extracellular matrix that mediate cell proliferation, invasion, and cellular signaling. The biological functions of HSPGs are linked to their co-stimulatory effects on extracellular ligands (e.g., WNTs) and the resulting activation of transcription factors that control mammalian development but also associated with tumorigenesis. We examined the expression profile of HSPG core protein syndecans (SDC1–4) and glypicans (GPC1–6) along with the enzymes that initiate or modify their glycosaminoglycan chains in human breast cancer (HBC) epithelial cells. Gene expression in relation to cell proliferation was examined in the HBC cell lines MCF-7 and MDA-MB-231 following treatment with the HS agonist heparin. Heparin increased gene expression of chain initiation and modification enzymes including EXT1 and NDST1, as well as core proteins SDC2 and GPC6. With HS/Wnt interactions established, we next investigated WNT pathway components and observed that increased proliferation of the more invasive MDA-MB-231 cells is associated with activation of the Wnt signaling pathway. Specifically, there was substantial upregulation (>5-fold) of AXIN1, WNT4A, and MYC in MDA-MB-231 but not in MCF-7 cells. The changes in gene expression observed for HSPG core proteins and related enzymes along with the associated Wnt signaling components suggest coordinated interactions. The influence of HSPGs on cellular proliferation and invasive potential of breast cancer epithelial cells are cell and niche specific. Further studies on the interactions between HSPGs and WNT ligands may yield clinically relevant molecular targets, as well as new biomarkers for characterization of breast cancer progression.
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RNA silencing in plants and insects provides an antiviral defense and as a countermeasure most viruses encode RNA silencing suppressors (RSS). For the family Rhabdoviridae, no detailed functional RSS studies have been reported in plant hosts and insect vectors. In agroinfiltrated Nicotiana benthamiana leaves we show for the first time for a cytorhabdovirus, lettuce necrotic yellows virus (LNYV), that one of the nucleocapsid core proteins, phosphoprotein (P) has relatively weak local RSS activity and delays systemic silencing of a GFP reporter. Analysis of GFP small RNAs indicated that the P protein did not prevent siRNA accumulation. To explore RSS activity in insects, we used a Flock House virus replicon system in Drosophila S2 cells. In contrast to the plant host, LNYV P protein did not exhibit RSS activity in the insect cells. Taken together our results suggest that P protein may target plant-specific components of RNA silencing post siRNA biogenesis.
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Multipotent neural stem cells (NSCs) provide a model to investigate neurogenesis and develop mechanisms of cell transplantation. In order to define improved markers of stemness and lineage specificity, we examined self-renewal and multi-lineage markers during long-term expansion and under neuronal and astrocyte differentiating conditions in human ESC-derived NSCs (hNSC H9 cells). In addition, with proteoglycans ubiquitous to the neural niche, we also examined heparan sulfate proteoglycans (HSPGs) and their regulatory enzymes. Our results demonstrate that hNSC H9 cells maintain self-renewal and multipotent capacity during extended culture and express HS biosynthesis enzymes and several HSPG core protein syndecans (SDCs) and glypicans (GPCs) at a high level. In addition, hNSC H9 cells exhibit high neuronal and a restricted glial differentiative potential with lineage differentiation significantly increasing expression of many HS biosynthesis enzymes. Furthermore, neuronal differentiation of the cells upregulated SDC4, GPC1, GPC2, GPC3 and GPC6 expression with increased GPC4 expression observed under astrocyte culture conditions. Finally, downregulation of selected HSPG core proteins altered hNSC H9 cell lineage potential. These findings demonstrate an involvement for HSPGs in mediating hNSC maintenance and lineage commitment and their potential use as novel markers of hNSC and neural cell lineage specification.
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We describe a vaccinialike virus, Araçatuba virus, associated with a cowpoxlike outbreak in a dairy herd and a related case of human infection. Diagnosis was based on virus growth characteristics, electron microscopy, and molecular biology techniques. Molecular characterization of the virus was done by using polymerase chain reaction amplification, cloning, and DNA sequencing of conserved orthopoxvirus genes such as the vaccinia growth factor (VGF), thymidine kinase (TK), and hemagglutinin. We used VGF-homologous and TK gene nucleotide sequences to construct a phylogenetic tree for comparison with other poxviruses. Gene sequences showed 99% homology with vaccinia virus genes and were clustered together with the isolated virus in the phylogenetic tree. Araçatuba virus is very similar to Cantagalo virus, showing the same signature deletion in the gene. Araçatuba virus could be a novel vaccinialike virus or could represent the spread of Cantagalo virus.
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Ziel der Arbeit war es, die physiologische Funktion von 2-Adaptin zu charakterisieren. 2 Adaptin wurde 1998 erstmals von Takatsu et al. und Lewin et al. als mögliches Mitglied der Clathrin-Adapter-Proteinfamilie beschrieben. Seine genaue physiologische Funktion ist aber bis heute noch unklar. Bisherige Ergebnisse deuten darauf hin, das 2-Adaptin unabhängig von den AP-Komplexen wirkt. rnIn der HBV-Morphogenese ist eine spezielle Funktion von 2-Adaptin bekannt, da es dort nach seiner Ubiquitinierung durch Nedd4 als Adapter zwischen dem HBV L- und Core-Protein fungiert und Änderungen in der 2 Konzentration die HBV-Freisetzung blockieren.rn2-Adaptin besitzt neben den für die Clathrin-Adapter Proteine typischen Clathrin-bindenden Eigenschaften auch die Fähigkeit, Ubiquitin über sein UIM zu binden. Darüberhinaus wird 2-Adaptin durch seine Interaktion mit der Ubiquitin-Ligase Nedd4 selbst ubiquitiniert. Damit besitzt 2-Adaptin typische Eigenschaften eines Ubiquitin-Adapters. 2-Adaptin ist an MVBs lokalisiert und Abweichungen in der 2 Konzentration verändern die MVB-Morphologie. Zudem führt die Überexpression von 2-Adaptin zur Blockade der Freisetzung retroviraler VLPs und die 2 Depletion blockiert den lysosomalen Abbau von EGF, einem Substrat des endo-lysosomalen Proteintransports. Dies alles deutet auf eine mögliche Funktion von 2-Adaptin in diesem Transportsystem hin, welche in dieser Arbeit näher untersucht wurde.rnEs konnte gezeigt werden, dass die Depletion von 2-Adaptin den Abbau von endogenen (z.B. EGF, ubiquitinierte Proteine) und exogenen (z.B. das retrovirale MLV.gag-Polyprotein) Substraten des endo-lysosomalen Weges inhibiert, während sie bei 2 Überexpression verstärkt abgebaut werden. Alle bisher identifizierten „Substrate“ von 2 Adaptin, also Proteine, die durch überschüssiges 2-Adaptin abgebaut werden, besitzen eine Verbindung zum endo-lysosomalen System und / oder zur Ubiquitin-Maschinerie der Zelle. Weitere Hinweise auf eine Rolle von 2 Adaptin im MVB-Weg lieferte die Identifikation von Vps28 und Chmp2A als spezifische Interaktionspartner von 2-Adaptin. Über Vps28 erhält -Adaptin direkten Zugang zum ESCRT-I- und über Chmp2A zum ESCRT-III-Komplex. rnZudem konnte neben dem UIM eine PH-Domäne in 2-Adaptin als wichtige funktionelle Domäne identifiziert werden. Sie stellt das Modul für die Interaktion mit Rab7 dar, welche erstmals gezeigt werden konnte. Auch die Interaktion mit Rab7 deutet auf eine Rolle von 2 Adaptin im endo-lysosomalen Transportsystem hin, da Rab7 an späten Endosomen lokalisiert ist und u.a. die Fusion der MVBs mit den Lysosomen vermittelt. Da die Auswirkungen der Rab7-Überexpression und Depletion auf MLV.gag denen der 2 Überexpression bzw. Depletion entsprechen, liegt die Vermutung nahe, dass 2-Adaptin an einem ähnlich späten Schritt im endo-lysosomalen Transportsystem wirkt wie Rab7. Jedoch blockiert überschüssiges 2 Adaptin die ESCRT-abhängige VLP-Ausschleusung an der Plasmamembran und fungiert daher möglicherweise als negativer Regulator der ESCRT-Kaskade. Da die Überexpression von -Adaptin aber gleichzeitig zum vermehrten lysosomalen Abbau führt, ist eine Funktion von 2-Adaptin bei der MVB-Lysosomen-Fusion wenig wahrscheinlich. Einer solchen Funktion widerspricht auch, dass die intrazelluläre Konzentration von Rab7 und Vps28 durch überschüssiges 2-Adaptin reduziert werden. rnAls dritte funktionell wichtige Domäne in 2-Adaptin konnte ein LIR-Motiv identifiziert werden, über welches -Adaptin mit dem Autophagie-Markerprotein LC3 interagieren kann. Die Interaktion mit LC3, und damit die Verbindung zur Autophagie-Machinerie, liefert eine mögliche Erklärung für den vermehrten Abbau bei 2-Überexpression und den Abbau von Proteinen auf der MVB-Oberfläche. Dabei induziert 2-Adaptin nicht die Autophagie per se, sondern scheint als Autophagie-Adapter zu wirken, der seine Substrate, z.B. MVBs, selektiv dem Abbau durch Autophagie zuführt. rnrnEine mögliche Rolle von 2-Adaptin im zum Lysosom hin gerichteten zellulären Transport konnte bestätigt werden, wobei 2-Adaptin dabei verschiedene Funktionen übernimmt: rn als Ubiquitin-Adapter im endo-lysosomalen System, rn als negativer Regulator der ESCRT-Kaskadern und / oder als Autophagie-Adapter.rn
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Colorectal cancer is a complex disease that is thought to arise when cells accumulate mutations that allow for uncontrolled growth. There are several recognized mechanisms for generating such mutations in sporadic colon cancer; one of which is chromosomal instability (CIN). One hypothesized driver of CIN in cancer is the improper repair of dysfunctional telomeres. Telomeres comprise the linear ends of chromosomes and play a dual role in cancer. Its length is maintained by the ribonucleoprotein, telomerase, which is not a normally expressed in somatic cells and as cells divide, telomeres continuously shorten. Critically shortened telomeres are considered dysfunctional as they are recognized as sites of DNA damage and cells respond by entering into replicative senescence or apoptosis, a process that is p53-dependent and the mechanism for telomere-induced tumor suppression. Loss of this checkpoint and improper repair of dysfunctional telomeres can initiate a cycle of fusion, bridge and breakage that can lead to chromosomal changes and genomic instability, a process that can lead to transformation of normal cells to cancer cells. Mouse models of telomere dysfunction are currently based on knocking out the telomerase protein or RNA component; however, the naturally long telomeres of mice require multiple generational crosses of telomerase null mice to achieve critically short telomeres. Shelterin is a complex of six core proteins that bind to telomeres specifically. Pot1a is a highly conserved member of this complex that specifically binds to the telomeric single-stranded 3’ G-rich overhang. Previous work in our lab has shown that Pot1a is essential for chromosomal end protection as deletion of Pot1a in murine embryonic fibroblasts (MEFs) leads to open telomere ends that initiate a DNA damage response mediated by ATR, resulting in p53-dependent cellular senescence. Loss of Pot1a in the background of p53 deficiency results in increased aberrant homologous recombination at telomeres and elevated genomic instability, which allows Pot1a-/-, p53-/- MEFs to form tumors when injected into SCID mice. These phenotypes are similar to those seen in cells with critically shortened telomeres. In this work, we created a mouse model of telomere ysfunction in the gastrointestinal tract through the conditional deletion of Pot1a that recapitulates the microscopic features seen in severe telomere attrition. Combined intestinal loss of Pot1a and p53 lead to formation of invasive adenocarcinomas in the small and large intestines. The tumors formed with long latency, low multiplicity and had complex genomes due to chromosomal instability, features similar to those seen in sporadic human colorectal cancers. Taken together, we have developed a novel mouse model of intestinal tumorigenesis based on genomic instability driven by telomere dysfunction.
