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2. Integration of advanced gas turbines in pulp and paper mills for increased power generation

Author

Maunsbach, K., Isaksson, A., Yan, J., Svedberg, G., and Eidensten, L.

Subjects
Gas-turbines -- Evaluation, Paper mills -- Equipment and supplies, Pulp industry -- Equipment and supplies, Engineering and manufacturing industries, Science and technology
Abstract

The pulp and paper industry handles large amounts of energy and today produces the steam needed for the process and some of the required electricity. Several studies have shown that black liquor gasification and combined cycles increase the power production significantly compared to the traditional processes used today. It is of interest to investigate the performance when advanced gas turbines are integrated with next-generation pulp and paper mills. The present study focused on comparing the combined cycle with the integration of advanced gas turbines such as steam injected gas turbine (STIG) and evaporative gas turbine (EvGT) in pulp and paper mills. Two categories of simulations have been performed: (1) comparison of gasification of both black liquor and biomass connected to either a combined cycle or steam injected gas turbine with a heat recovery steam generator; (2) externally fired gas turbine in combination with the traditional recovery boiler. The energy demand of the pulp and paper mills is satisfied in all cases and the possibility to deliver a power surplus for external use is verified. The study investigates new system combinations of applications for advanced gas turbines. [DOI: 10.1115/1.1359773]

Published
2001

16. Angiotensin II stimulates trafficking of NHE3, NaPi2, and associated proteins into the proximal tubule microvilli.

Author

Riquier-Brison AD, Leong PK, Pihakaski-Maunsbach K, and McDonough AA

Subjects
Angiotensin-Converting Enzyme Inhibitors pharmacology, Animals, Blood Pressure drug effects, Captopril pharmacology, Clathrin metabolism, Cytoskeletal Proteins metabolism, Glomerular Filtration Rate drug effects, Low Density Lipoprotein Receptor-Related Protein-2 metabolism, Male, Microvilli drug effects, Microvilli metabolism, Models, Animal, Myosin Heavy Chains metabolism, Rats, Rats, Sprague-Dawley, Sodium Chloride metabolism, Sodium-Hydrogen Exchanger 3, Angiotensin II physiology, Kidney Tubules, Proximal metabolism, Sodium-Hydrogen Exchangers metabolism, Sodium-Phosphate Cotransporter Proteins, Type II metabolism
Abstract

Angiotensin II (ANG II) stimulates proximal tubule (PT) sodium and water reabsorption. We showed that treating rats acutely with the angiotensin-converting enzyme inhibitor captopril decreases PT salt and water reabsorption and provokes rapid redistribution of the Na(+)/H(+) exchanger isoform 3 (NHE3), Na(+)/Pi cotransporter 2 (NaPi2), and associated proteins out of the microvilli. The aim of the present study was to determine whether acute ANG II infusion increases the abundance of PT NHE3, NaPi2, and associated proteins in the microvilli available for reabsorbing NaCl. Male Sprague-Dawley rats were infused with a dose of captopril (12 microg/min for 20 min) that increased PT flow rate approximately 20% with no change in blood pressure (BP) or glomerular filtration rate (GFR). When ANG II (20 ng x kg(-1) x min(-1) for 20 min) was added to the captopril infusate, PT volume flow rate returned to baseline without changing BP or GFR. After captopril, NHE3 was localized to the base of the microvilli and NaPi2 to subapical cytoplasmic vesicles; after 20 min ANG II, both NHE3 and NaPi2 redistributed into the microvilli, assayed by confocal microscopy and density gradient fractionation. Additional PT proteins that redistributed into low-density microvilli-enriched membranes in response to ANG II included myosin VI, DPPIV, NHERF-1, ezrin, megalin, vacuolar H(+)-ATPase, aminopeptidase N, and clathrin. In summary, in response to 20 min ANG II in the absence of a change in BP or GFR, multiple proteins traffic into the PT brush-border microvilli where they likely contribute to the rapid increase in PT salt and water reabsorption.

Published
2010
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17. Effects of dietary salt on renal Na+ transporter subcellular distribution, abundance, and phosphorylation status.

Author

Yang LE, Sandberg MB, Can AD, Pihakaski-Maunsbach K, and McDonough AA

Subjects
Animals, CD13 Antigens metabolism, Carrier Proteins metabolism, Dipeptidyl Peptidase 4 metabolism, Epithelial Sodium Channels metabolism, Male, Myosin Heavy Chains metabolism, Phosphoproteins metabolism, Phosphorylation, Rats, Rats, Sprague-Dawley, Receptor, Angiotensin, Type 2 metabolism, Sodium metabolism, Sodium-Hydrogen Exchanger 3, Sodium-Hydrogen Exchangers metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Solute Carrier Family 12, Member 1, Kidney Cortex metabolism, Kidney Medulla metabolism, Natriuresis physiology, Sodium Chloride, Dietary pharmacology, Sodium-Potassium-Chloride Symporters metabolism
Abstract

During high-salt (HS) diet the kidney increases urinary Na+ and volume excretion to match intake. We recently reported that HS provokes a redistribution of distal convoluted tubule Na+-Cl- cotransporter (NCC) from apical to subapical vesicles and decreases NCC abundance. This study aimed to test the hypothesis that the other renal Na+ transporters' abundance and or subcellular distribution is decreased by HS diet. Six-week-old Sprague-Dawley rats were fed a normal (NS) 0.4% NaCl diet or a HS 4% NaCl diet for 3 wk or overnight. Kidneys excised from anesthetized rats were fractionated on density gradients or analyzed by microscopy; transporters and associated regulators were detected with specific antibodies. Three-week HS doubled Na+/H+ exchanger (NHE)3 phosphorylation at serine 552 and provoked a redistribution of NHE3, dipeptidyl peptidase IV (DPPIV), myosin VI, Na+-Pi cotransporter (NaPi)-2, ANG II type 2 receptor (AT2R), aminopeptidase N (APN), Na+-K+-2Cl- cotransporter (NKCC2), epithelial Na+ channel (ENaC) beta-subunit, and Na+-K+-ATPase (NKA) alpha1- and beta1-subunits from low-density plasma membrane-enriched fractions to higher-density intracellular membrane-enriched fractions. NHE3, myosin VI, and AT2R retraction to the base of the microvilli (MV) during HS was evident by confocal microscopy. HS did not change abundance of NHE3, NKCC, or NKA alpha1- or beta1-subunits but increased ENaC-beta in high-density intracellular enriched membranes. Responses to HS were fully apparent after just 18 h. We propose that retraction of NHE3 to the base of the MV, driven by myosin VI and NHE3 phosphorylation and accompanied by redistribution of the NHE3 regulator DPPIV, contributes to a decrease in proximal tubule Na+ reabsorption during HS and that redistribution of transporters out of low-density plasma membrane-enriched fractions in the thick ascending limb of the loop of Henle and distal nephron may also contribute to the homeostatic natriuretic response to HS diet.

Published
2008
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18. Expression and trafficking of the gamma subunit of Na,K-ATPase in hypertonically challenged IMCD3 cells.

Author

Pihakaski-Maunsbach K, Nonaka S, and Maunsbach AB

Abstract

The gamma subunit (FXYD2) of Na,K-ATPase is an important regulator of the sodium pump. In this investigation we have analysed the trafficking of gamma to the plasma membrane in cultures of inner medullary collecting duct cells (IMCD3) following acute hypertonic challenge and brefeldin A (BFA) treatment. Following hypertonic challenging for 24 hr immunofluorescence labeling revealed initial co-localization of the gamma subunit and 58K Golgi protein in the cytoplasm, but no co-localization of alpha1 and Golgi protein. Exposure of the challenged cells to BFA prevented the subsequent incorporation of gamma into the basolateral plasma membrane. The gamma subunit instead remained in cytoplasmic vesicles while cell proliferation and cell viability decreased simultaneously. Following removal of BFA from the hypertonic medium the IMCD3 cells recovered with distinct expression of gamma in the basolateral membrane. The alpha1 subunit was only marginally influenced by BFA. The results demonstrate that the gamma subunit trafficks to the plasma membrane via the Golgi apparatus, despite the absence of a signal sequence. The results also suggest that the gamma and alpha subunits do not traffic together to the plasma membrane, and that the gamma and alpha subunit have different turnover rates during these experimental conditions.

Published
2008
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19. A metabonomic and proteomic analysis of changes in IMCD3 cells chronically adapted to hypertonicity.

Author

Klawitter J, Rivard CJ, Brown LM, Capasso JM, Almeida NE, Maunsbach AB, Pihakaski-Maunsbach K, Berl T, Leibfritz D, Christians U, and Chan L

Subjects
Adaptation, Physiological, Amino Acids metabolism, Animals, Blotting, Western, Cell Line, Cell Proliferation, Electrophoresis, Gel, Two-Dimensional, Enzymes genetics, Glucose metabolism, Kidney Medulla enzymology, Kidney Medulla ultrastructure, Kidney Tubules, Collecting enzymology, Kidney Tubules, Collecting ultrastructure, Mice, Microscopy, Electron, Transmission, Mitochondria metabolism, Nuclear Magnetic Resonance, Biomolecular, Osmotic Pressure, Phenotype, Phosphates metabolism, Polymers metabolism, Reverse Transcriptase Polymerase Chain Reaction, Saline Solution, Hypertonic, Energy Metabolism, Enzymes metabolism, Kidney Medulla metabolism, Kidney Tubules, Collecting metabolism, Proteomics methods
Abstract

Background: The genomic response to adaptation of IMCD3 cells to hypertonicity results in both upregulation and downregulation of a variety of genes., Method: The present study was undertaken to assess the metabonomic and proteomic response of IMCD3 cells that have been chronically adapted to hypertonicity (600 and 900 mosm/kg H(2)O) as compared to cells under isotonic conditions., Results: Adaptation of IMCD3 cells to hypertonic conditions resulted in a change of a wide range of organic osmolytes, including sorbitol (+8,291%), betaine (+1,099%), myo-inositol (+669%), taurine (+113%) and glycerophosphorylcholine (+61%). Evaluation of the polyol pathway for sorbitol production revealed a reduction in sorbitol dehydrogenase and an increase in aldose reductase mRNA in adapted cells. Proteome analysis revealed increased expression of six glycolytic proteins, including malic enzyme and pyruvate carboxylase, indicating the activation of the pyruvate shunt and changes in glucose metabolism. This study showed that the observed reduction in cell replication could possibly reflect a redirection of cellular energy from cell growth and replication to maintenance of intracellular ion levels in chronically adapted cells., Conclusion: The combined metabonomic and proteomic analysis was shown to be a very helpful tool for the analysis of the effects caused by chronic adaptation to hypertonicity. It made it possible to better evaluate the importance of certain changes that occur in the process of adaptation., (Copyright 2008 S. Karger AG, Basel.)

Published
2008
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20. ANG II provokes acute trafficking of distal tubule Na+-Cl(-) cotransporter to apical membrane.

Author

Sandberg MB, Riquier AD, Pihakaski-Maunsbach K, McDonough AA, and Maunsbach AB

Subjects
Angiotensin-Converting Enzyme Inhibitors pharmacology, Animals, Captopril pharmacology, Gene Expression Regulation, Kidney Tubules, Distal cytology, Kidney Tubules, Distal drug effects, Microscopy, Immunoelectron, Protein Transport, Rats, Rats, Sprague-Dawley, Receptors, Drug genetics, Sodium Chloride Symporters genetics, Angiotensin II metabolism, Kidney Tubules, Distal metabolism, Receptors, Drug metabolism, Sodium Chloride Symporters metabolism
Abstract

The distal convoluted tubule (DCT) Na+-Cl(-) cotransporter (NCC), the target of thiazide diuretics, is responsible for the reabsorption of 5-10% of filtered NaCl. The aim of this study was to test the hypothesis that acute infusion of the angiotensin-converting enzyme (ACE) inhibitor captopril (at 12 microg/min) for 20 min provokes trafficking of NCC from apical plasma membranes (APM) to subapical cytoplasmic vesicles (SCV), which is reversed by acute ANG II infusion (ANG II at 20 ng.kg(-1).min(-1) along with 12 microg/min captopril) for 20 min in male Sprague-Dawley rats (250-350 g). By immuno-electron microscopy using an anti-NCC (D. Ellison) 71.5 +/- SD 4.9% of the NCC gold labeling was associated with the APM in control, sham operated, and infused rats, while captopril infusion reduced NCC in APM to 54.9 +/- 6.9% (P < 0.001) and markedly increased immunogold labeling of SCV. Subsequent infusion of ANG II with captopril restored NCC immunogold labeling of APM to 72.4 +/- 4.2%, that is, 20% of the total NCC trafficked between APM and SCV. Likewise, on density gradients of cortex, captopril provoked redistribution of 27.3% of total NCC from low-density APM-enriched membranes to higher-density membranes and ANG II+captopril restored 20.3% of the NCC to APM-enriched fractions. Redistribution occurred independent of a change in NCC total abundance. In conclusion, this study demonstrates that ACE inhibition provokes acute trafficking of NCC out of the plasma membrane, which likely decreases DCT Na+ reabsorption, while ANG II provokes rapid trafficking of NCC from stores in subapical vesicles to the plasma membrane, which likely increases DCT Na+ reabsorption.

Published
2007
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21. Expression of the calcium-binding protein S100A4 is markedly up-regulated by osmotic stress and is involved in the renal osmoadaptive response.

Author

Rivard CJ, Brown LM, Almeida NE, Maunsbach AB, Pihakaski-Maunsbach K, Andres-Hernando A, Capasso JM, and Berl T

Subjects
Adaptation, Physiological, Animals, Calcium-Binding Proteins, Cell Line, Chromatography, High Pressure Liquid, Gene Expression Regulation, Humans, Kidney cytology, Mass Spectrometry, Mice, Proteomics, S100 Calcium-Binding Protein A4, S100 Proteins analysis, Kidney physiology, Osmotic Pressure, S100 Proteins genetics, S100 Proteins physiology, Up-Regulation genetics
Abstract

Proteomic analysis of Inner Medullary Collecting Duct (IMCD3) cells adapted to increasing levels of tonicity (300, 600, and 900 mosmol/kg H(2)O) by two-dimensional difference gel electrophoresis and mass spectrometry revealed several proteins as yet unknown to be up-regulated in response to hypertonic stress. Of these proteins, one of the most robustly up-regulated (22-fold) was S100A4. The identity of the protein was verified by high pressure liquid chromatography-mass spectrometry. Western blot analysis confirmed increased expression with increased tonicity, both acute and chronic. S100A4 protein expression was further confirmed by immunocytochemical analysis. Cells grown in isotonic conditions showed complete absence of immunostaining, whereas chronically adapted IMCD3 cells had uniform cytoplasmic localization. The protein is also regulated in vivo as in mouse kidney tissues S100A4 expression was many -fold greater in the papilla as compared with the cortex and increased further in the papilla upon 36 h of thirsting. Increased expression of S100A4 was also observed in the medulla and papilla, but not the cortex of a human kidney. Data from Affymetrix gene chip analysis and quantitative PCR also revealed increased S100A4 message in IMCD3 cells adapted to hypertonicity. The initial expression of message increased at 8-10 h following exposure to acute sublethal hypertonic stress (550 mosmol/kg H(2)O). Protein and message half-life in IMCD3 cells were 85.5 and 6.8 h, respectively. Increasing medium tonicity with NaCl, sucrose, mannitol, and choline chloride stimulated S100A4 expression, whereas urea did not. Silencing of S100A4 expression using a stable siRNA vector (pSM2; Open Biosystems) resulted in a 48-h delay in adaptation of IMCD3 cells under sublethal osmotic stress, suggesting S100A4 is involved in the osmoadaptive response. In summary, we describe the heretofore unrecognized up-regulation of a small calcium-binding protein, both in vitro and in vivo, whose absence profoundly delays osmoadaptation and slows cellular growth under hypertonic conditions.

Published
2007
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22. Locations, abundances, and possible functions of FXYD ion transport regulators in rat renal medulla.

Author

Pihakaski-Maunsbach K, Vorum H, Honoré B, Tokonabe S, Frøkiaer J, Garty H, Karlish SJ, and Maunsbach AB

Subjects
Animals, Diet, Sodium-Restricted, Fluorescent Antibody Technique, Kidney Medulla ultrastructure, Male, Microscopy, Immunoelectron, Rats, Rats, Wistar, Sodium Chloride metabolism, Sodium Chloride pharmacology, Intracellular Signaling Peptides and Proteins metabolism, Kidney Medulla metabolism, Potassium Channels metabolism, Sodium-Potassium-Exchanging ATPase metabolism
Abstract

The gamma-subunit of Na-K-ATPase (FXYD2) and corticosteroid hormone-induced factor (CHIF; FXYD4) are considered pump regulators in kidney tubules. The aim of this study was to expand the information about their locations in the kidney medulla and to evaluate their importance for electrolyte excretion in an animal model. The cellular and subcellular locations and abundances of gamma and CHIF in the medulla of control and sodium-depleted rats were analyzed by immunofluorescence and immunoelectron microscopy and semiquantitative Western blotting. The results showed that antibodies against the gamma-subunit COOH terminus and splice variant gamma(a), but not splice variant gamma(b), labeled intercalated cells, but not principal cells, in the initial part of the inner medullary collecting duct (IMCD1). In subsequent segments (IMCD2 and IMCD3), all principal cells exhibited distinct basolateral labeling for both the gamma-subunit COOH terminus, splice variant gamma(a), and CHIF. Splice variant gamma(b) was abundant in the inner stripe of the outer medulla but absent in the inner medulla (IM). Double labeling by high-resolution immunoelectron microscopy showed close structural association between CHIF and the Na-K-ATPase alpha(1)-subunit in basolateral membranes. The present observations provide new information about the cellular and subcellular locations of gamma and CHIF in the renal medulla and show a new gamma variant in the IM. Extensive NaCl depletion did not induce significant changes in the locations or abundances of the gamma-subunit COOH terminus and CHIF in different kidney zones. We conclude that the unchanged levels of these two FXYD proteins suggest that they are not primary determinants for urine electrolyte composition during NaCl depletion.

Published
2006
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23. Interaction with the Na,K-ATPase and tissue distribution of FXYD5 (related to ion channel).

Author

Lubarski I, Pihakaski-Maunsbach K, Karlish SJ, Maunsbach AB, and Garty H

Subjects
Animals, Gene Expression Regulation, Enzymologic, Ion Channels, Kidney enzymology, Kidney metabolism, Kidney ultrastructure, Membrane Proteins genetics, Mice, Mice, Inbred ICR, Microfilament Proteins, Oocytes metabolism, Organ Specificity, Protein Binding, Rats, Sodium-Potassium-Exchanging ATPase genetics, Swine, Xenopus laevis, Membrane Proteins metabolism, Sodium-Potassium-Exchanging ATPase metabolism
Abstract

FXYD5 (related to ion channel, dysadherin) is a member of the FXYD family of single span type I membrane proteins. Five members of this group have been shown to interact with the Na,K-ATPase and to modulate its properties. However, FXYD5 is structurally different from other family members and has been suggested to play a role in regulating E-cadherin and promoting metastasis (Ino, Y., Gotoh, M., Sakamoto, M., Tsukagoshi, K., and Hirohashi, S. (2002) Proc. Natl. Acad. Sci. U. S. A. 99, 365-370). The goal of this study was to determine whether FXYD5 can modulate the Na,K-ATPase activity, establish its cellular and tissue distribution, and characterize its biochemical properties. Anti-FXYD5 antibodies detected a 24-kDa polypeptide that was preferentially expressed in kidney, intestine, spleen, and lung. In kidney, FXYD5 resides in the basolateral membrane of the connecting tubule, the collecting tubule, and the intercalated cells of the collecting duct. However, there is also labeling of the apical membrane in long thin limb of Henle's loop. FXYD5 was effectively immunoprecipitated by antibodies to the alpha subunit of Na,K-ATPase and the anti-FXYD5 antibody immunoprecipitates alpha. Co-expressing FXYD5 with the alpha1 and beta1 subunits of the Na,K-ATPase in Xenopus oocytes elicited a more than 2-fold increase in pump activity, measured either as ouabain-blockable outward current or as ouabain-sensitive (86)Rb(+) uptake. Thus, as found with other FXYD proteins, FXYD5 interacts with the Na,K-ATPase and modulates its properties.

Published
2005
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24. The gamma-subunit of Na-K-ATPase is incorporated into plasma membranes of mouse IMCD3 cells in response to hypertonicity.

Author

Pihakaski-Maunsbach K, Tokonabe S, Vorum H, Rivard CJ, Capasso JM, Berl T, and Maunsbach AB

Subjects
Adaptation, Physiological, Animals, Blotting, Western, Cell Polarity, Cells, Cultured, Hypertonic Solutions, Immunohistochemistry, Kidney Medulla cytology, Mice, Osmotic Pressure, Cell Membrane metabolism, Kidney Medulla enzymology, Sodium-Potassium-Exchanging ATPase metabolism, Water-Electrolyte Balance physiology
Abstract

Hypertonicity mediated by chloride upregulates the expression of the gamma-subunit of Na-K-ATPase in cultured cells derived from the murine inner medullary collecting duct (IMCD3; Capasso JM, Rivard CJ, Enomoto LM, and Berl T. Proc Natl Acad Sci USA 100: 6428-6433, 2003). The purpose of this study was to examine the cellular locations and the time course of gamma-subunit expression after long-term adaptation and acute hypertonic challenges induced with different salts. Cells were analyzed by confocal immunofluorescence and immunoelectron microscopy with antibodies against the COOH terminus of the Na-K-ATPase gamma-subunit or the gamma(b) splice variant. Cells grown in 300 mosmol/kgH(2)O showed no immunoreactivity for the gamma-subunit, whereas cells adapted to 600 or 900 mosmol/kgH(2)O demonstrated distinct reactivity located at the plasma membrane of all cells. IMCD3 cell cultures acutely challenged to 550 mosmol/kgH(2)O with sodium chloride or choline chloride showed incorporation of gamma into plasma membrane 12 h after osmotic challenge and distinct membrane staining in approximately 40% of the cells 48 h after osmotic shock. In contrast, challenging the IMCD3 cells to 550 mosmol/kgH(2)O by addition of sodium acetate did not result in expression of the gamma-subunit in the membranes of surviving cells after 48 h. The present results demonstrate that the Na-K-ATPase gamma-subunit becomes incorporated into the basolateral membrane of IMCD3 cells after both acute hyperosmotic challenge and hyperosmotic adaptation. We conclude that the gamma-subunit has an important role in the function of Na-K-ATPase to sustain the cellular cation balance over the plasma membrane in a hypertonic environment.

Published
2005
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25. Changes of rat kidney AQP2 and Na,K-ATPase mRNA expression in lithium-induced nephrogenic diabetes insipidus.

Author

Laursen UH, Pihakaski-Maunsbach K, Kwon TH, Østergaard Jensen E, Nielsen S, and Maunsbach AB

Subjects
Animals, Aquaporin 2, Aquaporins genetics, Diabetes Insipidus, Nephrogenic genetics, Down-Regulation, Gene Expression drug effects, Kidney metabolism, Kidney Tubules, Collecting ultrastructure, Male, RNA, Messenger metabolism, Rats, Rats, Wistar, Sodium-Potassium-Exchanging ATPase genetics, Aquaporins metabolism, Diabetes Insipidus, Nephrogenic chemically induced, Diabetes Insipidus, Nephrogenic metabolism, Lithium toxicity, Sodium-Potassium-Exchanging ATPase metabolism
Abstract

Background/aim: In a rat model, lithium treatment is associated with polyuria and severe downregulation of aquaporin-2 (AQP2) protein in the inner medulla (IM) or in the whole kidney. However, it is not known (1) to what extent this downregulation occurs at the mRNA level; (2) whether the main sodium transporter of the nephron, Na,K-ATPase, is regulated in parallel at the mRNA level, and (3) whether lithium treatment induces zonal or segmental differences in AQP2 and Na,K-ATPase mRNA levels., Method: We examined the changes in mRNA expression levels for AQP2 and Na,K-ATPase in kidney cortex, inner stripe of the outer medulla (ISOM), and IM of rats treated with lithium orally using semiquantitative Northern blot analyses and in situ hybridization at the light and electron microscopic levels., Results: The AQP2 mRNA levels decreased significantly (p < 0.01) in lithium-treated rats to 37 +/- 4% in the cortex, to 17 +/- 4% in the ISOM, and to 23 +/- 5% in the IM, while the Na,K-ATPase mRNA levels were not altered in the cortex, but were significantly (p < 0.05) altered in the ISOM (144 +/- 15% after 10 days, but 68 +/- 4% after 4 weeks) and in the IM (63 +/- 8% after 10 days, but normalized after 4 weeks). In situ hybridization showed reduced levels of AQP2 mRNA in all zones of the kidney, but the Na,K-ATPase mRNA expressions were slightly decreased only in IM collecting ducts. At the ultrastructural level, principal cells in the IM collecting ducts showed slight hypertrophy, but no cell damage after 4 weeks of lithium treatment. The results demonstrate substantial downregulation of AQP2 at the mRNA level throughout the collecting duct in experimental lithium-induced nephrogenic dabetes insipidus and moderately decreased Na,K-ATPase mRNA levels in the ISOM and in the IM., Conclusion: The results suggest that decreased mRNA expressions of AQP2 and Na,K-ATPase contribute to the development of lithium-induced nephrogenic diabetes insipidus., (Copyright 2004 S. Karger AG, Basel)

Published
2004
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26. Expression of Vitreoscilla haemoglobin in hybrid aspen (Populus tremula x tremuloides).

Author

Häggman H, Frey AD, Ryynänen L, Aronen T, Julkunen-Tiitto R, Tiimonen H, Pihakaski-Maunsbach K, Jokipii S, Chen X, and Kallio PT

Abstract

We describe the first ever expression of Vitreoscilla haemoglobin (VHb) in an economically important boreal woody plant hybrid aspen (Populus tremula x tremuloides). VHb has mainly been expressed in biotechnologically important unicellular organisms of both prokaryotic and eukaryotic origin. VHb expression, in this study, was analysed under different greenhouse cultivation conditions and under elevated UV-B illumination. Microscope analyses of leaves grown under optimized conditions revealed significant differences both in cell structure and size when the transgenic VHb lines were compared with the control lines. VHb lines displayed a higher relative volume of mitochondria and a significantly enhanced accumulation of starch in chloroplasts, all of which pointed towards changes in cellular energy production. Under elevated UV-B illumination, the differences between VHb lines became evident. Some specific VHb lines had elevated levels of total flavonoids, individual quercetin, kaempferol- and myricetin-derivatives relative to controls and other transgenic lines. This observation may reflect the availability of extra energy resources for secondary metabolite production and possibly an enhanced protection ability of these transgenic lines against UV-B illumination. Thus, all these findings point to changes in the energy metabolism of VHb lines. In the cultivation conditions tested this observation did not, however, result in a general improvement of elongation growth.

Published
2003
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27. Immunocytochemical localization of Na,K-ATPase gamma subunit and CHIF in inner medulla of rat kidney.

Author

Pihakaski-Maunsbach K, Vorum H, Løcke EM, Garty H, Karlish SJ, and Maunsbach AB

Subjects
Animals, Blotting, Western, Immunohistochemistry, Membrane Proteins analysis, Microscopy, Immunoelectron, Rats, Rats, Wistar, Sodium-Potassium-Exchanging ATPase analysis, Kidney Medulla enzymology, Membrane Proteins metabolism, Sodium-Potassium-Exchanging ATPase metabolism
Abstract

The gamma subunit of Na,K-ATPase and CHIF both belong to the FXYD single-membrane-spanning protein family and have been suggested to have regulatory functions in kidney tubules. CHIF is known to be present in the collecting duct, and gamma has been demonstrated in several segments of the rat kidney tubule, but never clearly in the inner medullary collecting duct (IMCD). Here, we demonstrate the cellular and subcellular localization of the gamma subunit and CHIF in the IMCD in inner medulla by using Western blotting, laser-scanning confocal immunofluorescence, and immunoelectron microscopy. In the initial quarter of the IMCD (next to the outer medulla), antibodies against the C-terminal of gamma as well as splice variant gammaa labeled the basolateral surface of intercalated cells (ICs), while principal cells (PCs) remained unlabeled. In the middle segment of the IMCD, all PCs exhibited distinct basolateral staining for the gammaC-terminal as well as gammaa and CHIF. Immunoelectron microscopy showed that the gammaC-terminal and CHIF were associated with the inner leaflet of the basolateral plasma membrane in the labeled cells. Immunoblotting demonstrated the presence of both the gammaC-terminal and gammaa in inner medullary tissue. However, splice variant gammab was not detected in inner medulla by immunocytochemistry or immunoblotting. The present observations demonstrate that the Na,K-ATPase gamma subunit and CHIF are strategically located in the inner medulla to participate in the fine-tuning of urine ion composition through the regulation of the Na,K-ATPase activity in the IMCD.

Published
2003
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28. Genes encoding chitinase-antifreeze proteins are regulated by cold and expressed by all cell types in winter rye shoots.

Author

Pihakaski-Maunsbach K, Moffatt B, Testillano P, Risueño M, Yeh S, Griffith M, and Maunsbach AB

Abstract

One group of antifreeze proteins (AFPs) is composed of two chitinases that accumulate in the apoplast of winter rye leaves during cold acclimation. In this study, the 28- and 35-kDa chitinase-AFPs were localized in nonacclimated and cold-acclimated rye leaves by immunoelectron microscopy with an antiserum produced against the purified winter rye 35-kDa chitinase-AFP. In cold-acclimated winter rye leaves, labelled chitinase-AFPs were abundant in the walls of epidermal, parenchymal sheath and mesophyll cells and xylem vessels, while less label was present in walls of vascular parenchyma cells. In contrast, chitinase labelling was essentially absent in the nonacclimated cells except in xylem vessels. As shown by RNA blotting, the transcripts of chitinase-AFPs accumulated to a high level in rye leaves during cold acclimation, to a lesser extent in crowns and were not detectable in roots. mRNA transcripts of the 28-kDa chitinase-AFP were localized in rye leaves by in situ hybridization. The chitinase-AFP transcripts were found in the same cell types as the protein itself. We conclude that all metabolically active cell types in cold-acclimated winter rye leaves and crowns are able to synthesize chitinase-AFPs and secrete them into adjacent cell walls, where they may interact with ice to delay its propagation through the plant and modify its growth.

Published
2001
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29. CPP1, a DNA-binding protein involved in the expression of a soybean leghemoglobin c3 gene.

Author

Cvitanich C, Pallisgaard N, Nielsen KA, Hansen AC, Larsen K, Pihakaski-Maunsbach K, Marcker KA, and Jensen EO

Subjects
Amino Acid Sequence, Binding Sites, Cell Compartmentation, Cell Nucleus chemistry, Cysteine, Gene Expression Regulation, Plant, Leghemoglobin biosynthesis, Molecular Sequence Data, Plant Proteins genetics, Protein Binding, Repetitive Sequences, Amino Acid, Rhizobiaceae, Sequence Homology, Amino Acid, Symbiosis, Tissue Distribution, DNA-Binding Proteins genetics, Genes, Plant, Leghemoglobin genetics, Plant Roots microbiology, Glycine max genetics
Abstract

Nodulin genes are specifically expressed in the nitrogen-fixing root nodules. We have identified a novel type of DNA-binding protein (CPP1) interacting with the promoter of the soybean leghemoglobin gene Gmlbc3. The DNA-binding domain of CPP1 contains two similar Cys-rich domains with 9 and 10 Cys, respectively. Genes encoding similar domains have been identified in Arabidopsis thaliana, Caenorhabditis elegans, the mouse, and human. The domains also have some homology to a Cys-rich region present in some polycomb proteins. The cpp1 gene is induced late in nodule development and the expression is confined to the distal part of the central infected tissue of the nodule. A constitutively expressed cpp1 gene reduces the expression of a Gmlbc3 promoter-gusA reporter construct in Vicia hirsuta roots. These data therefore suggest that CPP1 might be involved in the regulation of the leghemoglobin genes in the symbiotic root nodule.

Published
2000
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30. Snow-mold-induced apoplastic proteins in winter rye leaves lack antifreeze activity

Author

Hiilovaara-Teijo M, Hannukkala A, Griffith M, Yu XM, and Pihakaski-Maunsbach K

Abstract

During cold acclimation, winter rye (Secale cereale L.) plants secrete antifreeze proteins that are similar to pathogenesis-related (PR) proteins. In this experiment, the secretion of PR proteins was induced at warm temperatures by infection with pink snow mold (Microdochium nivale), a pathogen of overwintering cereals. A comparison of cold-induced and pathogen-induced proteins showed that PR proteins accumulated in the leaf apoplast to a greater level in response to cold. The PR proteins induced by cold and by snow mold were similar when separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and examined by immunoblotting. Both groups of PR proteins contained glucanase-like, chitinase-like, and thaumatin-like proteins, and both groups exhibited similar levels of glucanase and chitinase activities. However, only the PR proteins induced by cold exhibited antifreeze activity. Our findings suggest that the cold-induced PR proteins may be isoforms that function as antifreeze proteins to modify the growth of ice during freezing while also providing resistance to the growth of low-temperature pathogens in advance of infection. Both functions of the cold-induced PR proteins may improve the survival of overwintering cereals.

Published
1999
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31. Evidence that the plant host synthesizes the heme moiety of leghemoglobin in root nodules

Author

Santana MA, Pihakaski-Maunsbach K, Sandal N, Marcker KA, and Smith AG

Abstract

Although it is well established that the plant host encodes and synthesizes the apoprotein for leghemoglobin in root nodules, the source of the heme moiety has been uncertain. We recently found that the transcript for coproporphyrinogen III oxidase, one of the later enzymes of heme synthesis, is highly elevated in soybean (Glycine max L.) nodules compared with roots. In this study we measured enzyme activity and carried out western-blot analysis and in situ hybridization of mRNA to investigate the levels during nodulation of the plant-specific coproporphyrinogen oxidase and four other enzymes of the pathway in both soybean and pea (Pisum sativum L.). We compared them with the activity found in leaves and uninfected roots. Our results demonstrate that all of these enzymes are elevated in the infected cells of nodules. Because these are the same cells that express apoleghemoglobin, the data strongly support a role for the plant in the synthesis of the heme moiety of leghemoglobin.

Published
1998
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32. Easy handling of cell suspensions for electron microscopy.

Author

Pihakaski-Maunsbach K, Soitamo A, and Suoranta U-M

Subjects
Agar, Secale cytology, Secale ultrastructure, Microscopy, Electron methods, Protoplasts ultrastructure, Specimen Handling methods
Abstract

We present here a new, simple agar encapsulating technique, which is helpful when preparing a small quantity of isolated fragile cells, e.g. protoplasts, for electron microscopy.

Published
1990
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