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31.
Enhanced matrix metalloproteinase activity in skeletal muscles of rats with congestive heart failure
Schiøtz Thorud HM Stranda A Birkeland JA Lunde PK Sjaastad I Kolset SO Sejersted OM Iversen PO 《American journal of physiology. Regulatory, integrative and comparative physiology》2005,289(2):R389-R394
Patients with congestive heart failure (CHF) are prone to increased skeletal muscle fatigue. Elevated circulatory concentrations of tumor necrosis factor (TNF)-alpha and monocyte chemoattractant protein-1, which may stimulate matrix metalloproteinase (MMP) activity and, thereby, contribute to skeletal muscle dysfunction, are frequently found in CHF. However, whether skeletal muscle MMP activity is altered in CHF is unknown. Hence, we have used a gelatinase assay to assess the activity of MMP and tissue inhibitors of MMP in single skeletal muscles of rats with CHF 6 wk after induction of myocardial infarction. Sham-operated (Sham) rats were used as controls. We also measured the gene expression and protein contents of MMP-2 and MMP-9 in skeletal muscles of these rats. Plasma MMP activity was nearly seven times higher (P < 0.05) in CHF than in Sham rats. Concomitantly, the MMP activity within single slow- and fast-twitch skeletal muscles of CHF rats increased two- to fourfold compared with Sham animals, whereas tissue inhibitor of MMP activity did not differ (P > 0.05). Preformed MMP-2 and MMP-9 were probably activated in CHF, because neither their gene expression nor protein levels were altered (P > 0.05). Serum concentrations of TNF-alpha and monocyte chemoattractant protein-1 remained unchanged (P > 0.05) between CHF and Sham rats during the 6-wk observation period. We conclude that development of CHF in rats enhances MMP activity, which in turn may distort the normal contractile function of skeletal muscle, thereby contributing to increased skeletal muscle fatigue. 相似文献
32.
33.
Environmental Impacts of Wild Caught Cod and Farmed Salmon - A Comparison with Chicken (7 pp) 总被引:1,自引:0,他引:1
Harald Ellingsen Svein Aanond Aanondsen 《The International Journal of Life Cycle Assessment》2006,11(1):60-65
Goal, Scope and Background The objective of this study was to assess environmental impacts of Norwegian cod fishing and salmon farming and compare these
with chicken farming in order to find reference levels for environmental performance and identify problem areas and potentials
for improvements.
Methods A Life Cycle Screening following the production of 0.2 kg fillets as a functional unit through the respective food chains
is performed for all 3 products. The analysis is partly quantitative and qualitative focusing on energy use, antifouling and
land use impacts. Case studies are performed to investigate potentials for improvements within the fisheries and aquaculture
industry.
Results and Conclusions It can be concluded that the fishing phase for the cod and the feeding phase for both salmon and chicken dominate for all
environmental impacts considered. Chicken is most energy effective followed by salmon and cod, which are almost on the same
level. The area of sea floor affected by bottom trawling is around 100 times larger than the land area needed to produce the
chicken feed for production of the 0.2 kg fillet.
- The case studies show potentials for improvement of environmental performance, both for salmon farming and cod fishing, especially
when it comes to energy use. The environmental impacts on the sea floor imposed by bottom trawling are not fully explored,
but based on the precautionary principle a reasonable conclusion is that bottom trawls with less impact on the sea floor should
be developed.
Recommendation and Perspective LCA methods have initially been developed for land based industrial applications. More effort should be given to adapt these
to fishing applications in order to obtain more accurate assessment of environmental impacts from seafood products. It is
recommended to put more emphasis in finding improved indicators for impacts imposed by over-fishing, fuel emission from combustion
at sea, use of antifouling and seafloor ecosystem disturbance. 相似文献
34.
Connexins,gap junctional intercellular communication and kinases 总被引:11,自引:0,他引:11
Cruciani V Mikalsen SO 《Biology of the cell / under the auspices of the European Cell Biology Organization》2002,94(7-8):433-443
A number of kinases and signal transduction pathways are known to affect gap junctional intercellular communication and/or phosphorylation of connexins. Most of the information is available for protein kinase A, protein kinase C, mitogen-activated protein kinase, and the tyrosine kinase Src. Much less is known for protein kinase G, Ca(2+)-calmodulin dependent protein kinase, and casein kinase. However, the present lack of knowledge is not necessarily synonymous with lack of importance in the regulation of intercellular communication and phosphorylation of connexins. Kinases and the phosphorylation of connexins may be involved in the regulation of gap junctional intercellular communication at all levels ranging from the expression of connexin genes to the degradation of the gap junction channels. The exact role of the phosphorylation depends both on the kinase and the connexin involved, as well as the cellular context. 相似文献
35.
Christina M. Payne Jamil Baban Svein J. Horn Paul H. Backe Andrew S. Arvai Bj?rn Dalhus Magnar Bj?r?s Vincent G. H. Eijsink Morten S?rlie Gregg T. Beckham Gustav Vaaje-Kolstad 《The Journal of biological chemistry》2012,287(43):36322-36330
Degradation of recalcitrant polysaccharides in nature is typically accomplished by mixtures of processive and nonprocessive glycoside hydrolases (GHs), which exhibit synergistic activity wherein nonprocessive enzymes provide new sites for productive attachment of processive enzymes. GH processivity is typically attributed to active site geometry, but previous work has demonstrated that processivity can be tuned by point mutations or removal of single loops. To gain additional insights into the differences between processive and nonprocessive enzymes that give rise to their synergistic activities, this study reports the crystal structure of the catalytic domain of the GH family 18 nonprocessive endochitinase, ChiC, from Serratia marcescens. This completes the structural characterization of the co-evolved chitinolytic enzymes from this bacterium and enables structural analysis of their complementary functions. The ChiC catalytic module reveals a shallow substrate-binding cleft that lacks aromatic residues vital for processivity, a calcium-binding site not previously seen in GH18 chitinases, and, importantly, a displaced catalytic acid (Glu-141), suggesting flexibility in the catalytic center. Molecular dynamics simulations of two processive chitinases (ChiA and ChiB), the ChiC catalytic module, and an endochitinase from Lactococcus lactis show that the nonprocessive enzymes have more flexible catalytic machineries and that their bound ligands are more solvated and flexible. These three features, which relate to the more dynamic on-off ligand binding processes associated with nonprocessive action, correlate to experimentally measured differences in processivity of the S. marcescens chitinases. These newly defined hallmarks thus appear to be key dynamic metrics in determining processivity in GH enzymes complementing structural insights. 相似文献
36.
Mikal Heldal Svein Norland Egil Severin Erichsen Ruth-Anne Sandaa Aud Larsen Frede Thingstad Gunnar Bratbak 《The ISME journal》2012,6(3):524-530
Cells maintain an osmotic pressure essential for growth and division, using organic compatible solutes and inorganic ions. Mg2+, which is the most abundant divalent cation in living cells, has not been considered an osmotically important solute. Here we show that under carbon limitation or dormancy native marine bacterial communities have a high cellular concentration of Mg2+ (370–940 m) and a low cellular concentration of Na+ (50–170 m). With input of organic carbon, the average cellular concentration of Mg2+ decreased 6–12-fold, whereas that of Na+ increased ca 3–4-fold. The concentration of chlorine, which was in the range of 330–1200 m and was the only inorganic counterion of quantitative significance, balanced and followed changes in the concentration of Mg2++Na+. In an osmotically stable environment, like seawater, any major shift in bacterial osmolyte composition should be related to shifts in growth conditions, and replacing organic compatible solutes with inorganic solutes is presumably a favorable strategy when growing in carbon-limited condition. A high concentration of Mg2+ in cells may also serve to protect and stabilize macromolecules during periods of non-growth and dormancy. Our results suggest that Mg2+ has a major role as osmolyte in marine bacteria, and that the [Mg2+]/[Na+] ratio is related to its physiological condition and nutritional status. Bacterial degradation is a main sink for dissolved organic carbon in the ocean, and understanding the mechanisms limiting bacterial activity is therefore essential for understanding the oceanic C-cycle. The [Mg2+]/[Na+]-ratio in cells may provide a physiological proxy for the transitions between C-limited and mineral nutrient-limited bacterial growth in the ocean''s surface layer. 相似文献
37.
We examined morphology, elemental composition (C, N, P), and orthophosphate-uptake efficiency in the marine heterotrophic
bacterium Vibrio splendidus grown in continuous cultures. Eight chemostats were arranged along a gradient of increasing glucose concentrations in the
reservoirs, shifting the limiting factor from glucose to phosphate. The content of carbon, nitrogen, and phosphorus was measured
in individual cells by x-ray microanalysis using a transmission electron microscope (TEM). Cell volumes (V) were estimated from length and width measurements of unfixed, air-dried cells in TEM. There was a transition from coccoid
cells in C-limited cultures toward rod-shaped cells in P-limited cultures. Cells in P-limited cultures with free glucose in
the media were significantly larger than cells in glucose-depleted cultures (P < 0.0001). We found functional allometry between cellular C-, N-, and P content (in femtograms) and V (in cubic micrometers) in V. splendidus (C = 224 × V
0.89, N = 52.5 × V
0.80, P = 2 × V
0.65); i.e., larger bacteria had less elemental C, N, and P per V than smaller cells, and also less P relative to C. Biomass-specific affinity for orthophosphate uptake in large P-limited
V. splendidus approached theoretical maxima predicted for uptake limited by molecular diffusion toward the cells. Comparing these theoretical
values to respective values for the smaller, coccoid, C-limited V. splendidus indicated, contrary to the traditional view, that large size did not represent a trade-off when competing for the non-C-limiting
nutrients. 相似文献
38.
Enzymatic conversion of structural polysaccharides in plant biomass is a key issue in the development of second generation ('lignocellulosic') bioethanol. The efficiency of this process depends in part on the ability of enzymes to disrupt crystalline polysaccharides, thus gaining access to single polymer chains. Recently, new insights into how enzymes accomplish this have been obtained from studies on enzymatic conversion of chitin. First, chitinolytic microorganisms were shown to produce non-hydrolytic accessory proteins that increase enzyme efficiency. Second, it was shown that a processive mechanism, which is generally considered favorable because it improves substrate accessibility, might in fact slow down enzymes. These findings suggest new focal points for the development of enzyme technology for depolymerizing recalcitrant polysaccharide biomass. Improving substrate accessibility should be a key issue because this might reduce the need for using processive enzymes, which are intrinsically slow and abundantly present in current commercial enzyme preparations for biomass conversion. Furthermore, carefully selected substrate-disrupting accessory proteins or domains might provide novel tools to improve substrate accessibility and thus contribute to more efficient enzymatic processes. 相似文献
39.
Synstad B Vaaje-Kolstad G Cederkvist FH Saua SF Horn SJ Eijsink VG Sørlie M 《Bioscience, biotechnology, and biochemistry》2008,72(3):715-723
In this study we cloned, expressed, purified, and charaterized chitinase C1 from Serratia marcescens strain BJL200. As expected, the BJL200-ChiC1 amino acid sequence of this strain was highly similar to sequences of ChiC1 identified in two other strains of S. marcescens. BJL200-ChiC1 was overproduced in E. coli by the T7 expression system, and purified by a one-step hydrophobic interaction chromatography (HIC) with phenyl-sepharose. BJL200-ChiA and BJL200-ChiB had an approximately 30-fold higher k(cat) and 15 fold-lower K(m) than BJL200-ChiC1 for the oligomeric substrate 4-methylumbelliferyl-beta-D-N-N'-N'-triacetylchitotrioside, while BJL200-ChiC1 was 10-15 times faster than BJL200-ChiB and BJL200-ChiA in degrading the polymeric substrate CM-chitin-RBV. BJL200-ChiC1 degradation of beta-chitin resulted in a range of different chito-oligosaccharides (GlcNAc)(2) (main product), GlcNAc, (GlcNAc)(3), (GlcNAc)(4), and (GlcNAc)(5), indicating endo activity. The purification method used for BJL200-ChiC1 in this study is generally applicable to family 18 chitinases and their mutants, including inactive mutants, some of which tend to bind almost irreversibly to chitin columns. The high specificity of the interaction with the (non-chitinous) column material is mediated by aromatic residues that occur in the substrate-binding clefts and surfaces of the enzymes. 相似文献
40.
The molecular composition of square arrays 总被引:2,自引:0,他引:2
Square arrays are prominent structures in plasma membranes of brain, muscle, and kidneys with an unknown function. So far, the analysis of these arrays has been restricted to freeze fracture preparations, which have shown square arrays to contain the water channel Aquaporin-4 (AQP4). Using Blue-Native PAGE immunoblots, we provide evidence that higher-order AQP4 complexes correspond to square arrays, with the AQP4 isoform M23 playing a dominant role. Our data are consistent with the idea that square arrays consist of aggregates of AQP4 tetramers complexed with multiples of dimers. By comparison, Aquaporin-1 and Aquaporin-9 form tetramers, but not higher-order complexes. AQP4 square arrays are stable under several biochemical purification steps. Analyzing the internal composition of the higher-order complexes by 2D gels, we demonstrate that the square arrays in addition to M23 also invariably contain AQP4, M1, and a novel AQP4 isoform that we call Mz. The visualization AQP4 square arrays by a rapid, biochemical assay provides new insight in the molecular organization of square arrays and gives further proof of the heterogeneity of AQP4 square arrays in vivo. 相似文献