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Differentiation and Pathogenicity within the <i>Saprolegniaceae</i> : Studies on Physiology and Gene Expression Patterns in <i>Saprolegnia parasitica</i> and <i>Aphanomyces astaci</i>Andersson, Gunnar January 2001 (has links)
<p><i>Saprolegnia parasitica</i> and <i>Aphanomyces astaci </i>are parasitic water moulds belonging to the Oomycetes. Despite their importance as parasites they are very little studied at the molecular level and the work described in this thesis was aimed at increasing the molecular knowledge of these organisms by cloning and characterising genes of potential importance for reproduction and pathogenicity.</p><p>Stage-specific transcripts from<i> Saprolegnia parasitica</i> were isolated by differential display RT-PCR. One of the markers, <i>puf1 </i>encodes a putative mRNA binding protein which may be involved in post-transcriptional regulation of gene expression. <i>S. parasitica puf1 </i>is expressed exclusively in spore cysts that have not been determined for germination or repeated zoospore emergence indicating that the cyst stage has two phases, of about equal duration, which are physiologically and transcriptionally distinct. A similar expression pattern is observed in <i>Aphanomyces </i>spp. with different regulation of spore development and in the transcript is detected in both primary and secondary cysts.</p><p>A putative chitinase <i>AaChi1</i>, was cloned from the crayfish plague fungus, <i>Aphanomyces astaci. </i>Analysis of chitinase activity and <i>AaChi1</i> expression showed that chitinase in <i>A. astaci </i>is constitutively expressed in growing and sporulating mycelia, but absent in zoospores, a pattern which reflects the infectious life cycle of <i>A. astaci</i>. This expression pattern is conserved between the four known genotypes of <i>A. astaci</i>, in contrast to saprophytic and fish-pathogenic <i>Aphanomyces </i>spp. </p><p>Genetic and physiological analysis were conducted on five strains of <i>Aphanomyces, </i>isolated from suspected outbreaks of crayfish plague in Spain and Italy. The strains are not virulent against freshwater crayfish, and RAPD PCR and ITS sequence analysis show that they are unrelated to the crayfish plague fungus, <i>A. astaci.</i></p>
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Differentiation and Pathogenicity within the Saprolegniaceae : Studies on Physiology and Gene Expression Patterns in Saprolegnia parasitica and Aphanomyces astaciAndersson, Gunnar January 2001 (has links)
Saprolegnia parasitica and Aphanomyces astaci are parasitic water moulds belonging to the Oomycetes. Despite their importance as parasites they are very little studied at the molecular level and the work described in this thesis was aimed at increasing the molecular knowledge of these organisms by cloning and characterising genes of potential importance for reproduction and pathogenicity. Stage-specific transcripts from Saprolegnia parasitica were isolated by differential display RT-PCR. One of the markers, puf1 encodes a putative mRNA binding protein which may be involved in post-transcriptional regulation of gene expression. S. parasitica puf1 is expressed exclusively in spore cysts that have not been determined for germination or repeated zoospore emergence indicating that the cyst stage has two phases, of about equal duration, which are physiologically and transcriptionally distinct. A similar expression pattern is observed in Aphanomyces spp. with different regulation of spore development and in the transcript is detected in both primary and secondary cysts. A putative chitinase AaChi1, was cloned from the crayfish plague fungus, Aphanomyces astaci. Analysis of chitinase activity and AaChi1 expression showed that chitinase in A. astaci is constitutively expressed in growing and sporulating mycelia, but absent in zoospores, a pattern which reflects the infectious life cycle of A. astaci. This expression pattern is conserved between the four known genotypes of A. astaci, in contrast to saprophytic and fish-pathogenic Aphanomyces spp. Genetic and physiological analysis were conducted on five strains of Aphanomyces, isolated from suspected outbreaks of crayfish plague in Spain and Italy. The strains are not virulent against freshwater crayfish, and RAPD PCR and ITS sequence analysis show that they are unrelated to the crayfish plague fungus, A. astaci.
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Chloride Channels and Brown Fat CellsSabanov, Victor January 2005 (has links)
<p>Chloride ion channels are macromolecular pores providing for passage of chloride ions (and certain other inorganic and organic anions) through the cell membrane, down their electrochemical gradients. Chloride channels are differentially expressed in various cells, to best suit specific cellular activities. They are present in practically all living cells, and regardless of cell specialization they play an important role in vital housekeeping functions of cell-volume and pH regulation and in membrane potential stabilization. Regulation of cell volume underlies the structural integrity and constancy of the intracellular milieu. A variety of metabolic pathways have been shown to be sensitive to cell volume, and alterations of cell volume and osmoregulation processes can influence various intracellular signaling and organizing factors.</p><p>Volume-regulated anion channels (VRACs) are believed to play a pivotal role in cell-volume regulating processes. In this report I present data from macroscopic patch-clamp studies of VRACs performed in a fibroblast cell line and from single channel studies of chloride channels (tentatively related to VRACs) in mouse brown adipocytes in primary culture.</p><p>One of the characteristic features of the VRACs is their dependence on the presence of cytoplasmic ATP. In whole-cell experiments, removal of ATP from the pipette solution almost completely prevented activation of VRACs, whereas substitution of ATP with the nonhydrolyzable analog ATPγS did not alter the activation of VRACs. The inhibitors of protein tyrosine kinases (PTK) tyrphostin A25 and B46 depressed VRAC currents in both cases (ATP and ATPγS), but a PTK ineffective analog (tyrphostin A1) did not affect VRAC currents. We infer that in the cell preparation we used, ATP has a dual role in VRAC regulation: it is required for channel-protein phosphorylation and it can influence channel activity through non-hydrolytic binding in a ligand-receptor manner. It can additionally be suggested that tyrosine-specific protein kinases can be involved in the regulation of VRACs, independently of the effects of ATP. We also studied cell cycle-related changes in activation of VRACs by osmotic swelling of cells chemically arrested at different phases of the cell cycle. We found no significant changes during most of the cell cycle, except short periods before and after mitosis and in the quiescent G0 state.</p><p>The single Cl<sup>- </sup>channels of brown adipocytes resemble in their electrophysiological phenotype outwardly rectifying Cl<sup>-</sup> channels (ORCCs). We investigated the sensitivity of these channels to intracellular Ca<sup>2+</sup>. It appeared that the commonly used Ca<sup>2+</sup>-chelators EGTA and BAPTA could influence the ORCCs currents by themselves, independently of their calcium chelating effects. In some channels, these chelators induced classical flickery-type block of activity, whereas in others there was quasi-blockage, i.e. a peculiar combination of flickery blockage and overall channel activation. The chloride channel blocking agents DIDS and SITS mimicked the true/quasi blockage of EGTA and BAPTA. These phenomena add to the structure-function characteristics of the ORCC molecule. Moderate inhibitory effect of Ca<sup>2+</sup> within a physiological range of intracellular concentrations (sub-µM) was also detected; however, the biological relevance of this observation, as well as of these Cl<sup>-</sup> channels in general, remains to be clarified.</p>
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Adrenergic signaling in insulin-sensitive tissuesYamamoto, Daniel L. January 2007 (has links)
<p>Glucose metabolism in insulin-sensitive tissues such as skeletal muscle and adipose tissue is tightly regulated by external stimuli. Metabolic changes in these tissues have direct effects on whole body metabolism. Such metabolic changes can be induced or influenced by adrenergic stimulation.</p><p>In L6 skeletal muscle cells, we have seen that the β2-adrenergic receptor increases glycogen synthesis to the same extent as insulin. The β2-adrenergically mediated effect is independent of cyclic AMP but dependent on PI3K.</p><p>In brown adipocytes, our data suggest that signaling from the β-adrenergic receptors consists of an acute cyclic AMP effect that is rapidly desensitized and then a prolonged signal involving PI3K.</p><p>In skeletal muscle cells in culture, we have shown that DPI (a NADPH oxidase inhibitor) increases glucose uptake through a signaling pathway independent of NADPH oxidase and insulin signaling. DPI instead inhibits complex 1 in the mitochondrial respiratory chain, which lowers ATP levels. This activates AMPK, an activator of glucose uptake.</p><p>Furthermore, we have developed a model system for ordered fusion of skeletal muscle cells in culture. In this system, differentiating skeletal muscle cells can be studied separately. This system is optimal for microscopy techniques and easily adaptable for micromanipulations. We have seen that the myogenic factor MyoD can have different expression of the protein in different nuclei within the same myotube. This system could be used with advantage for intracellular signaling and metabolic studies.</p>
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Chloride Channels and Brown Fat CellsSabanov, Victor January 2005 (has links)
Chloride ion channels are macromolecular pores providing for passage of chloride ions (and certain other inorganic and organic anions) through the cell membrane, down their electrochemical gradients. Chloride channels are differentially expressed in various cells, to best suit specific cellular activities. They are present in practically all living cells, and regardless of cell specialization they play an important role in vital housekeeping functions of cell-volume and pH regulation and in membrane potential stabilization. Regulation of cell volume underlies the structural integrity and constancy of the intracellular milieu. A variety of metabolic pathways have been shown to be sensitive to cell volume, and alterations of cell volume and osmoregulation processes can influence various intracellular signaling and organizing factors. Volume-regulated anion channels (VRACs) are believed to play a pivotal role in cell-volume regulating processes. In this report I present data from macroscopic patch-clamp studies of VRACs performed in a fibroblast cell line and from single channel studies of chloride channels (tentatively related to VRACs) in mouse brown adipocytes in primary culture. One of the characteristic features of the VRACs is their dependence on the presence of cytoplasmic ATP. In whole-cell experiments, removal of ATP from the pipette solution almost completely prevented activation of VRACs, whereas substitution of ATP with the nonhydrolyzable analog ATPγS did not alter the activation of VRACs. The inhibitors of protein tyrosine kinases (PTK) tyrphostin A25 and B46 depressed VRAC currents in both cases (ATP and ATPγS), but a PTK ineffective analog (tyrphostin A1) did not affect VRAC currents. We infer that in the cell preparation we used, ATP has a dual role in VRAC regulation: it is required for channel-protein phosphorylation and it can influence channel activity through non-hydrolytic binding in a ligand-receptor manner. It can additionally be suggested that tyrosine-specific protein kinases can be involved in the regulation of VRACs, independently of the effects of ATP. We also studied cell cycle-related changes in activation of VRACs by osmotic swelling of cells chemically arrested at different phases of the cell cycle. We found no significant changes during most of the cell cycle, except short periods before and after mitosis and in the quiescent G0 state. The single Cl- channels of brown adipocytes resemble in their electrophysiological phenotype outwardly rectifying Cl- channels (ORCCs). We investigated the sensitivity of these channels to intracellular Ca2+. It appeared that the commonly used Ca2+-chelators EGTA and BAPTA could influence the ORCCs currents by themselves, independently of their calcium chelating effects. In some channels, these chelators induced classical flickery-type block of activity, whereas in others there was quasi-blockage, i.e. a peculiar combination of flickery blockage and overall channel activation. The chloride channel blocking agents DIDS and SITS mimicked the true/quasi blockage of EGTA and BAPTA. These phenomena add to the structure-function characteristics of the ORCC molecule. Moderate inhibitory effect of Ca2+ within a physiological range of intracellular concentrations (sub-µM) was also detected; however, the biological relevance of this observation, as well as of these Cl- channels in general, remains to be clarified.
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Adrenergic signaling in insulin-sensitive tissuesYamamoto, Daniel L. January 2007 (has links)
Glucose metabolism in insulin-sensitive tissues such as skeletal muscle and adipose tissue is tightly regulated by external stimuli. Metabolic changes in these tissues have direct effects on whole body metabolism. Such metabolic changes can be induced or influenced by adrenergic stimulation. In L6 skeletal muscle cells, we have seen that the β2-adrenergic receptor increases glycogen synthesis to the same extent as insulin. The β2-adrenergically mediated effect is independent of cyclic AMP but dependent on PI3K. In brown adipocytes, our data suggest that signaling from the β-adrenergic receptors consists of an acute cyclic AMP effect that is rapidly desensitized and then a prolonged signal involving PI3K. In skeletal muscle cells in culture, we have shown that DPI (a NADPH oxidase inhibitor) increases glucose uptake through a signaling pathway independent of NADPH oxidase and insulin signaling. DPI instead inhibits complex 1 in the mitochondrial respiratory chain, which lowers ATP levels. This activates AMPK, an activator of glucose uptake. Furthermore, we have developed a model system for ordered fusion of skeletal muscle cells in culture. In this system, differentiating skeletal muscle cells can be studied separately. This system is optimal for microscopy techniques and easily adaptable for micromanipulations. We have seen that the myogenic factor MyoD can have different expression of the protein in different nuclei within the same myotube. This system could be used with advantage for intracellular signaling and metabolic studies.
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Chemical circuitry in the visual system of the fruitfly, Drosophila melanogasterKolodziejczyk, Agata January 2011 (has links)
Signal processing in the visual system is mediated by classic neurotransmission and neuropeptidergic modulatory pathways. In Dipteran insects, especially in the fruitfly Drosophila melanogaster, the morphology of the visual system is very well described. However neurotransmitter and neuropeptidergic circuits within the optic lobe neuropil are only partially known. Using several transgenic fly lines and antibodies we determined the localization of the classical neurotransmitters GABA, acetylcholine and glutamate in the visual system, and their putative targets via detecting several neurotransmitter receptors. We paid particular attention to the peripheral neuropil layer called the lamina, where the light signals are filtered, channeled and amplified (Paper I). We discovered four new types of efferent tangential neurons branching distally to the lamina. Among them was the first neuropeptidergic neuron (LMIo) in this region of Drosophila. The LMIo expresses myoinhibitory peptide (MIP) and has its cell body located close to the main lateral clock neurons that express the neuropeptide pigment-dispersing factor (PDF)(Paper II). Since in other Dipteran species PDF is expressed in processes distally to the lamina, we performed comparative anatomical studies of the MIP, PDF, Ion Transport Peptide (ITP) and serotonin (5-HT) distribution in the visual system of the flies Drosophila and Calliphora. Our data suggest that PDF signaling distal to the lamina of the blowfly might be replaced by MIP signaling in the fruitfly, while ITP and 5-HT expression is conserved in the two species (Paper III). Serotonin is crucial in light adaptation during the daily light-dark cycles. We analyzed putative serotonergic circuits in the lamina. We found that LMIo neurons express the inhibitory receptor 5-HT1A, while 5-HT1B and 5-HT2 are both expressed in the epithelial glia of the lamina. Another novel wide-field neuron with lamina branches expresses the excitatory serotonin receptor 5-HT7. Our studies have identified a fairly complex neuronal circuitry in the tangential plexus above the lamina. (Paper IV). Finally we tested circadian locomotor activity rhythms in flies with the GABAB receptor knocked down on the lateral PDF-expressing clock neurons. We observed significant changes in the activity periods and diminished strength of rhythmicity during DD suggesting a modulatory role of GABA in clock function (Paper V). / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 4: Manuscript. Paper 5: Manuscript.
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Teleost reproduction: Aspects of Arctic char (<i>Salvelinus alpinus</i>) oocyte growth and maturation.Berg, Håkan January 2003 (has links)
<p>In all vertebrate species, reproduction is a hormonally controlled process, important for growth and maturation of gonads and germ cells. Production of functional germ cells is of outmost importance to secure the survival of a species. Fish comprises 50% of the known vertebrates and are found in aquatic habitats all over the world. Even though fish have evolved a wide variety of morphological and physiological characteristics, due to large differences in the living environment, the growth an maturation of germ cells follows the same pattern in all species. In this thesis the focus has been directed on oocyte growth and development in Arctic char (Salvelinus alpinus), and if stress might inflict disturbances on the reproductive systems.</p><p>All sexually mature female egg laying vertebrates produces yolky eggs surrounded by an eggshell. Production of yolk and egg shell is under estrogenic control and it is known that production of egg components can be induced in male and juvenile fish by estrogenic substances. Many manmade chemicals have been found to interfere with hormonally controlled processes. Therefore production of the egg yolk precursor, vitellogenin (VTG), and the egg shell components, vitelline envelope proteins (VEP), have been used as biomarkers for estrogenic effect. Exposure to endocrine disrupting substances (EDS) does not only give rise to hormonal effects on the organism, but in addition it also gives rise to an increase in stress hormone, cortisol (F), levels. </p><p>It is evident that a wide variety of substances may affect Arctic char oocyte growth and maturation. VTG and VEP production is found to be under dose dependent estrogenic control, but the production was directly affected by F. Under natural condition it has been found that F increases towards ovulation. Even though both VTG and VTG is under estrogenic control, these studies showed that stress lead to a decrease of VTG while the VEP production increased. These effects was only observed on protein levels indicating that a post transcriptional down regulation of VTG production is mediated by F in Arctic char.</p><p>In order for an egg to become fertilizatible, it must undergo a maturation phase. This maturation phase is primarily induced by gonadotropins, which in turn induce the production of species specific maturation inducing substances (MIS). To investigate oocyte development in Arctic char a characterization of its MIS receptor was made. The MIS receptor is localized on the oocyte surface and displays a single class of high affinity and low capacity binding sites. The binding moieties displays association and dissociation kinetics typical of steroid membrane receptors.</p><p>Even though high specificity for Arctic char MIS was observed, it was found that some EDS bind to the Arctic char oocyte membrane receptor. This suggest that certain EDS might affect oocyte maturation and thereby might alter the reproductive success. Furthermore, it was found that F did not bind to the MIS receptor in Arctic char. It is therefore suggested that oocytes are more sensitive to stress during the growth phase than during maturation</p>
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Parasite on Crayfish : Characterisation of Their Pathogenesis, Host Interactions and DiversityBangyeekhun, Eakaphun January 2002 (has links)
<p>The crayfish plague refractory crayfish, <i>Pacifastacus leniusculus</i>, which can harbour the fungal parasite within melanotic sheath, are found to constitutively express the gene encoding for prophenoloxidase (proPO) after mimicking parasite attack. In contrast, the susceptible crayfish, <i>Astacus astacus</i>, responds to the parasite by increased levels of proPO transcript, particularly in the semigranular haemocytes. The upregulation of proPO could confer a temporary resistance towards the fungal infection, suggesting that additional factors are involved in maintaining the balance between host and parasite. The resistant crayfish may have adapted to the parasite by increasing the transcript level of immune genes. The parasite can be considered as a symbiont since it does not harm the host rather than it activates the immune gene and possibly preventing other pathogens to become established.</p><p>Two serine proteinase genes encoding a subtilisin-like (<i>AaSP1</i>) and a trypsin (<i>AaSP2</i>) enzyme were isolated from the crayfish plague fungus, <i>Aphanomyces astaci</i>. These proteinases are prepropeptides and generate mature proteins of 39 kDa and 29 kDa, respectively. Characterisation of <i>AaSP1</i> suggests that the enzyme may be involved in intracellular control mechanisms rather than playing a role in pathogenesis. The <i>AaSP2 </i>transcript was not controlled by catabolic repression, but was induced by crayfish plasma, implying a role in pathogenesis toward the crayfish host. </p><p>Physiology and genetics of five <i>Aphanomyces</i> strains, which were isolated from moribund crayfish, were characterised with regard to their pathogen diversity. These strains are not virulent against crayfish. Some physiological properties of these strains differed from <i>A. astaci</i>, such as growth rate, germination and production of chitinase. Genetic analysis clearly indicated that they are not related to <i>A. astaci</i> and their name are proposed to be <i>Aphanomyces repetans</i>.</p><p>The crayfish <i>P. leniusculus </i>was found to be susceptible to white spot syndrome virus infection. The virus has a significant effect to the population of crayfish haemocyte. The number and proportion of granular cell from virus-infected crayfish were higher than in controls, indicating granular cells are more resistant to and may interact by some means with the virus.</p><p>Two morphotypes of the crayfish parasite <i>Psorospermium haeckeli</i> obtained from different crayfish hosts of different geographical origin were analysed for ribosomal ITS DNA in order to compare their genetic diversity. The sequence difference between them was found largely in ITS 1 and ITS 2 regions, which was variable in length and showed 66% and 58% sequence similarity. Thus, different morphotypes of <i>P. haeckeli</i> are genetically diverse.</p>
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Parasite on Crayfish : Characterisation of Their Pathogenesis, Host Interactions and DiversityBangyeekhun, Eakaphun January 2002 (has links)
The crayfish plague refractory crayfish, Pacifastacus leniusculus, which can harbour the fungal parasite within melanotic sheath, are found to constitutively express the gene encoding for prophenoloxidase (proPO) after mimicking parasite attack. In contrast, the susceptible crayfish, Astacus astacus, responds to the parasite by increased levels of proPO transcript, particularly in the semigranular haemocytes. The upregulation of proPO could confer a temporary resistance towards the fungal infection, suggesting that additional factors are involved in maintaining the balance between host and parasite. The resistant crayfish may have adapted to the parasite by increasing the transcript level of immune genes. The parasite can be considered as a symbiont since it does not harm the host rather than it activates the immune gene and possibly preventing other pathogens to become established. Two serine proteinase genes encoding a subtilisin-like (AaSP1) and a trypsin (AaSP2) enzyme were isolated from the crayfish plague fungus, Aphanomyces astaci. These proteinases are prepropeptides and generate mature proteins of 39 kDa and 29 kDa, respectively. Characterisation of AaSP1 suggests that the enzyme may be involved in intracellular control mechanisms rather than playing a role in pathogenesis. The AaSP2 transcript was not controlled by catabolic repression, but was induced by crayfish plasma, implying a role in pathogenesis toward the crayfish host. Physiology and genetics of five Aphanomyces strains, which were isolated from moribund crayfish, were characterised with regard to their pathogen diversity. These strains are not virulent against crayfish. Some physiological properties of these strains differed from A. astaci, such as growth rate, germination and production of chitinase. Genetic analysis clearly indicated that they are not related to A. astaci and their name are proposed to be Aphanomyces repetans. The crayfish P. leniusculus was found to be susceptible to white spot syndrome virus infection. The virus has a significant effect to the population of crayfish haemocyte. The number and proportion of granular cell from virus-infected crayfish were higher than in controls, indicating granular cells are more resistant to and may interact by some means with the virus. Two morphotypes of the crayfish parasite Psorospermium haeckeli obtained from different crayfish hosts of different geographical origin were analysed for ribosomal ITS DNA in order to compare their genetic diversity. The sequence difference between them was found largely in ITS 1 and ITS 2 regions, which was variable in length and showed 66% and 58% sequence similarity. Thus, different morphotypes of P. haeckeli are genetically diverse.
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