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221.
The response of cholesterol metabolism to a negative energy balance (NEB) induced by feed restriction for 3 weeks starting at 100 days in milk (DIM) compared to the physiologically occurring NEB in week 1 postpartum (p.p.) was investigated in 50 dairy cows (25 control (CON) and 25 feed-restricted (RES)). Blood samples, liver biopsies and milk samples were taken in week 1 p.p., and in weeks 0 and 3 of feed restriction. Plasma concentrations of total cholesterol (C), phospholipids (PL), triglycerides (TAG), very low density lipoprotein-cholesterol (VLDL-C) and low density lipoprotein-cholesterol (LDL-C) increased in RES cows from week 0 to 3 during feed restriction and were higher in week 3 compared to CON cows. In contrast, during the physiologically occurring NEB in week 1 p.p., C, PL, TAG and lipoprotein concentrations were at a minimum. Plasma phospholipid transfer protein (PLTP) and lecithin:cholesterol acyltransferase (LCAT) activities did not differ between week 0 and 3 for both groups, whereas during NEB in week 1 p.p. PLTP activity was increased and LCAT activity was decreased. Milk C concentration was not affected by feed restriction in both groups, whereas milk C mass was decreased in week 3 for RES cows. In comparison, C concentration and mass in milk were elevated in week 1 p.p. Hepatic mRNA abundance of sterol regulatory element-binding factor-2 (SREBF-2), 3-hydroxy-3-methylglutaryl-coenzyme A synthase 1 (HMGCS1), 3-hydroxy-3-methylglutaryl-coenzyme A reductase (HMGCR), and ATP-binding cassette transporter (ABCA1) were similar in CON and RES cows during feed restriction, but were upregulated during NEB in week 1 p.p. compared to the non-lactating stage without a NEB. In conclusion, cholesterol metabolism in dairy cows is affected by nutrient and energy deficiency depending on the stage of lactation. 相似文献
222.
223.
Daniel Nobach Manon Bourg Sibylle Herzog Hildburg Lange-Herbst Jorge A. Encarna??o Markus Eickmann Christiane Herden 《PloS one》2015,10(8)
Background
Many RNA viruses arise from animal reservoirs, namely bats, rodents and insectivores but mechanisms of virus maintenance and transmission still need to be addressed. The bicolored white-toothed shrew (Crocidura leucodon) has recently been identified as reservoir of the neurotropic Borna disease virus 1 (BoDV-1).Principal Findings
Six out of eleven wild living bicoloured white-toothed shrews were trapped and revealed to be naturally infected with BoDV-1. All shrews were monitored in captivity in a long-term study over a time period up to 600 days that differed between the individual shrews. Interestingly, all six animals showed an asymptomatic course of infection despite virus shedding via various routes indicating a highly adapted host-pathogen interaction. Infectious virus and viral RNA were demonstrated in saliva, urine, skin swabs, lacrimal fluid and faeces, both during the first 8 weeks of the investigation period and for long time shedding after more than 250 days in captivity.Conclusions
The various ways of shedding ensure successful virus maintenance in the reservoir population but also transmission to accidental hosts such as horses and sheep. Naturally BoDV-1-infected living shrews serve as excellent tool to unravel host and pathogen factors responsible for persistent viral co-existence in reservoir species while maintaining their physiological integrity despite high viral load in many organ systems. 相似文献224.
Katharina Schmölzer Christiane Luley-Goedl Tibor Czabany Doris Ribitsch Helmut Schwab Hansjörg Weber Bernd Nidetzky 《FEBS letters》2014
Bacterial sialyltransferases of the glycosyltransferase family GT-80 exhibit pronounced hydrolase activity toward CMP-activated sialyl donor substrates. Using in situ proton NMR, we show that hydrolysis of CMP-Neu5Ac by Pasteurella dagmatis α2,3-sialyltransferase (PdST) occurs with axial-to-equatorial inversion of the configuration at the anomeric center to release the α-Neu5Ac product. We propose a catalytic reaction through a single displacement-like mechanism where water replaces the sugar substrate as a sialyl group acceptor. PdST variants having His284 in the active site replaced by Asn, Asp or Tyr showed up to 104-fold reduced activity, but catalyzed CMP-Neu5Ac hydrolysis with analogous inverting stereochemistry. The proposed catalytic role of His284 in the PdST hydrolase mechanism is to facilitate the departure of the CMP leaving group. 相似文献
225.
Freshwater biodiversity has shown to be highly vulnerable to climate warming, alpine cold stenotherm populations being especially at risk of getting extinct. This paper aims at identifying the environmental factors favouring cold stenotherm species in alpine ponds. This information is required to provide management recommendations for habitats restoration or creation, needed for the mitigation of the effects of climate warming on alpine freshwater biodiversity. Cold stenotherm species richness as well as total (i.e. stenotherm and eurytherm) richness were analyzed for aquatic plants, Coleoptera and Odonata in 26 subalpine and alpine ponds from Switzerland and were related to environmental factors ecologically relevant for pond biodiversity. Our results confirmed that the set of environmental variables governing pond biodiversity in alpine or subalpine ponds is specific to altitude. Altitude and macrophyte presence were important drivers of cold stenotherm and total species richness, whereas connectivity did not show any significant relation. Therefore, the management of pond biodiversity has to be ‘altitude-specific’. Nevertheless, cold stenotherm species from the investigated alpine ponds do not show some specific requirements if compared to the other species inhabiting these ponds. Therefore, both total and cold stenotherm species richness could be favoured by the same management measures. 相似文献
226.
Martin Hofrichter René Ullrich Marek J. Pecyna Christiane Liers Taina Lundell 《Applied microbiology and biotechnology》2010,87(3):871-897
Heme-containing peroxidases secreted by fungi are a fascinating group of biocatalysts with various ecological and biotechnological
implications. For example, they are involved in the biodegradation of lignocelluloses and lignins and participate in the bioconversion
of other diverse recalcitrant compounds as well as in the natural turnover of humic substances and organohalogens. The current
review focuses on the most recently discovered and novel types of heme-dependent peroxidases, aromatic peroxygenases (APOs),
and dye-decolorizing peroxidases (DyPs), which catalyze remarkable reactions such as peroxide-driven oxygen transfer and cleavage
of anthraquinone derivatives, respectively, and represent own separate peroxidase superfamilies. Furthermore, several aspects
of the “classic” fungal heme-containing peroxidases, i.e., lignin, manganese, and versatile peroxidases (LiP, MnP, and VP),
phenol-oxidizing peroxidases as well as chloroperoxidase (CPO), are discussed against the background of recent scientific
developments. 相似文献
227.
Christiane Liers Caroline Bobeth Marek Pecyna René Ullrich Martin Hofrichter 《Applied microbiology and biotechnology》2010,85(6):1869-1879
The jelly fungus Auricularia auricula-judae produced an enzyme with manganese-independent peroxidase activity during growth on beech wood (∼300 U l−1). The same enzymatic activity was detected and produced at larger scale in agitated cultures comprising of liquid, plant-based
media (e.g. tomato juice suspensions) at levels up to 8,000 U l−1. Two pure peroxidase forms (A. auricula-judae peroxidase (AjP I and AjP II) could be obtained from respective culture liquids by three chromatographic steps. Spectroscopic
and electrophoretic analyses of the purified proteins revealed their heme and peroxidase nature. The N-terminal amino acid
sequence of AjP matched well with sequences of fungal enzymes known as “dye-decolorizing peroxidases”. Homology was found
to the N-termini of peroxidases from Marasmius scorodonius (up to 86%), Thanatephorus cucumeris (60%), and Termitomyces albuminosus (60%). Both enzyme forms catalyzed not only the conversion of typical peroxidase substrates such as 2,6-dimethoxyphenol and
2,2′-azino-bis(3-ethylthiazoline-6-sulfonate) but also the decolorization of the high-redox potential dyes Reactive Blue 5
and Reactive Black 5, whereas manganese(II) ions (Mn2+) were not oxidized. Most remarkable, however, is the finding that both AjPs oxidized nonphenolic lignin model compounds (veratryl
alcohol; adlerol, a nonphenolic β-O-4 lignin model dimer) at low pH (maximum activity at pH 1.4), which indicates a certain ligninolytic activity of dye-decolorizing
peroxidases. 相似文献
228.
Tatarkiewicz K Smith PA Sablan EJ Polizzi CJ Aumann DE Villescaz C Hargrove DM Gedulin BR Lu MG Adams L Whisenant T Roy D Parkes DG 《American journal of physiology. Endocrinology and metabolism》2010,299(6):E1076-E1086
The risk of developing pancreatitis is elevated in type 2 diabetes and obesity. Cases of pancreatitis have been reported in type 2 diabetes patients treated with GLP-1 (GLP-1R) receptor agonists. To examine whether the GLP-1R agonist exenatide potentially induces or modulates pancreatitis, the effect of exenatide was evaluated in normal or diabetic rodents. Normal and diabetic rats received a single exenatide dose (0.072, 0.24, and 0.72 nmol/kg) or vehicle. Diabetic ob/ob or HF-STZ mice were infused with exenatide (1.2 and 7.2 nmol·kg(-1)·day(-1)) or vehicle for 4 wk. Post-exenatide treatment, pancreatitis was induced with caerulein (CRN) or sodium taurocholate (ST), and changes in plasma amylase and lipase were measured. In ob/ob mice, plasma cytokines (IL-1β, IL-2, IL-6, MCP-1, IFNγ, and TNFα) and pancreatitis-associated genes were assessed. Pancreata were weighed and examined histologically. Exenatide treatment alone did not modify plasma amylase or lipase in any models tested. Exenatide attenuated CRN-induced release of amylase and lipase in normal rats and ob/ob mice but did not modify the response to ST infusion. Plasma cytokines and pancreatic weight were unaffected by exenatide. Exenatide upregulated Reg3b but not Il6, Ccl2, Nfkb1, or Vamp8 expression. Histological analysis revealed that the highest doses of exenatide decreased CRN- or ST-induced acute inflammation, vacuolation, and acinar single cell necrosis in mice and rats, respectively. Ductal cell proliferation rates were low and similar across all groups of ob/ob mice. In conclusion, exenatide did not modify plasma amylase and lipase concentrations in rodents without pancreatitis and improved chemically induced pancreatitis in normal and diabetic rodents. 相似文献
229.
Amandine Alard Bertrand Fabre Rodica Anesia Catherine Marboeuf Philippe Pierre Christiane Susini Corinne Bousquet Stéphane Pyronnet 《Molecular and cellular biology》2010,30(4):1097-1105
The eukaryotic translation initiation factor 4GI (eIF4GI) serves as a central adapter in cap-binding complex assembly. Although eIF4GI has been shown to be sensitive to proteasomal degradation, how the eIF4GI steady-state level is controlled remains unknown. Here, we show that eIF4GI exists in a complex with NAD(P)H quinone-oxydoreductase 1 (NQO1) in cell extracts. Treatment of cells with dicumarol (dicoumarol), a pharmacological inhibitor of NQO1 known to preclude NQO1 binding to its protein partners, provokes eIF4GI degradation by the proteasome. Consistently, the eIF4GI steady-state level also diminishes upon the silencing of NQO1 (by transfection with small interfering RNA), while eIF4GI accumulates upon the overexpression of NQO1 (by transfection with cDNA). We further reveal that treatment of cells with dicumarol frees eIF4GI from mRNA translation initiation complexes due to strong activation of its natural competitor, the translational repressor 4E-BP1. As a consequence of cap-binding complex dissociation and eIF4GI degradation, protein synthesis is dramatically inhibited. Finally, we show that the regulation of eIF4GI stability by the proteasome may be prominent under oxidative stress. Our findings assign NQO1 an original role in the regulation of mRNA translation via the control of eIF4GI stability by the proteasome.In eukaryotes, eukaryotic translation initiation factor 4G (eIF4G) plays a central role in the recruitment of ribosomes to the mRNA 5′ end and is therefore critical for the regulation of protein synthesis (14). Two homologues of eIF4G, eIF4GI and eIF4GII, have been cloned (15). Although they differ in various respects, both homologues clearly function in translation initiation. The most thoroughly studied of these is eIF4GI, which serves as a scaffolding protein for the assembly of eIF4F, a protein complex composed of eIF4E (the mRNA cap-binding factor) and eIF4A (an ATP-dependent RNA helicase). Thus, via its association with the mRNA cap-binding protein eIF4E and with another translation initiation factor (eIF3) which is bound to the 40S ribosomal subunit, eIF4GI creates a physical link between the mRNA cap structure and the ribosome, thus facilitating cap-dependent translation initiation (25). eIF4GI functions also in cap-independent, internal ribosome entry site (IRES)-mediated translation initiation. For instance, upon picornavirus infection, eIF4G is rapidly attacked by viral proteases. The resulting eIF4GI cleavage products serve to reprogram the cell''s translational machinery, as the N-terminal cleavage product inhibits cap-dependent translation of host cell mRNAs by sequestering eIF4E while the C-terminal cleavage product stimulates IRES-mediated translation of viral mRNAs (23). Similarly, apoptotic caspases cleave eIF4G into an N-terminal fragment that blocks cap-dependent translation and a C-terminal fragment that is utilized for IRES-mediated translation of mRNAs encoding proapoptotic proteins (22).The regulation of eIF4GI cleavage by viral proteases or apoptotic caspases has been extensively studied. Little is known, however, about the regulation of eIF4GI steady-state levels. Yet the eIF4GI amount that exists at a given moment results from the sum of the effects of de novo synthesis and ongoing degradation. Many cellular proteins are physiologically degraded by the proteasome. This has been shown to be true for eIF4GI, as the factor can be degraded by the proteasome in vitro (5) and in living cells (6). However, how eIF4GI targeting for or protection from destruction by the proteasome is regulated remains unknown.There are two major routes to degradation by the proteasome. In the more conventional route, polyubiquitinated proteins are targeted to the 26S proteasome. Alternatively, a few proteins can be degraded by the 20S proteasome (and sometimes by the 26S proteasome) in a ubiquitin-independent manner (16). Interestingly, it has been shown recently that a few of these proteins (1, 2, 13) can be protected from degradation by the 20S proteasome by binding to the NAD(P)H quinone-oxydoreductase 1 (NQO1). It has been proposed that NQO1 may interact with the 20S proteasome and may consequently block access of target proteins to the 20S degradation core. Because eIF4GI can be degraded in vitro by the 20S proteasome (5) and since it appears that proteasomes can degrade eIF4GI in living cells independently of ubiquitination (6), we asked whether NQO1 could protect eIF4GI from degradation by the proteasome. 相似文献
230.
Natacha Dreumont Sara Hardy Isabelle Behm-Ansmant Liliane Kister Christiane Branlant James Stévenin Cyril F. Bourgeois 《Nucleic acids research》2010,38(4):1353-1366
Alternative splicing is regulated in part by variations in the relative concentrations of a variety of factors, including serine/arginine-rich (SR) proteins. The SR protein SC35 self-regulates its expression by stimulating unproductive splicing events in the 3′ untranslated region of its own pre-mRNA. Using various minigene constructs containing the terminal retained intron and flanking exons, we identified in the highly conserved last exon a number of exonic splicing enhancer elements responding specifically to SC35, and showed an inverse correlation between affinity of SC35 and enhancer strength. The enhancer region, which is included in a long stem loop, also contains repressor elements, and is recognized by other RNA-binding proteins, notably hnRNP H protein and TAR DNA binding protein (TDP-43). Finally, in vitro and in cellulo experiments indicated that hnRNP H and TDP-43 antagonize the binding of SC35 to the terminal exon and specifically repress the use of SC35 terminal 3′ splice site. Our study provides new information about the molecular mechanisms of SC35-mediated splicing activation. It also highlights the existence of a complex network of self- and cross-regulatory mechanisms between splicing regulators, which controls their homeostasis and offers many ways of modulating their concentration in response to the cellular environment. 相似文献