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121.
Shuang Deng Guo-Fang Zhang Takhar Kasumov Charles R. Roe Henri Brunengraber 《The Journal of biological chemistry》2009,284(41):27799-27807
We investigated the interrelations between C4 ketogenesis (production of β-hydroxybutyrate + acetoacetate), C5 ketogenesis (production of β-hydroxypentanoate + β-ketopentanoate), and anaplerosis in isolated rat livers perfused with 13C-labeled octanoate, heptanoate, or propionate. Mass isotopomer analysis of C4 and C5 ketone bodies and of related acyl-CoA esters reveal that C4 and C5 ketogenesis share the same pool of acetyl-CoA. Although the uptake of octanoate and heptanoate by the liver are similar, the rate of C5 ketogenesis from heptanoate is much lower than the rate of C4 ketogenesis from octanoate. This results from the channeling of the propionyl moiety of heptanoate into anaplerosis of the citric acid cycle. C5 ketogenesis from propionate is virtually nil because acetoacyl-CoA thiolase does not favor the formation of β-ketopentanoyl-CoA from propionyl-CoA and acetyl-CoA. Anaplerosis and gluconeogenesis from heptanoate are inhibited by octanoate. The data have implications for the design of diets for the treatment of long chain fatty acid oxidation disorders, such as the triheptanoin-based diet.The regulation of the metabolism of C4 ketone bodies, i.e. β-hydroxybutyrate (BHB)2 and acetoacetate (AcAc) has been extensively investigated in vivo in isolated livers, hepatocytes, and subcellular preparations (for reviews, see Refs. 1–4). In contrast, very little information is available on the metabolism of C5 ketone bodies, i.e. β-hydroxypentanoate (BHP) and β-ketopentanoate (BKP), which are known in the clinical literature as 3-hydroxyvalerate and 3-ketovalerate (5, 6). The C5 ketone bodies are formed in liver from the partial oxidation of odd-chain fatty acids (see Fig. 1, center column). C5 ketogenesis uses the same enzymes of the 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) cycle as C4 ketogenesis. The counterpart of HMG-CoA in C5 ketogenesis is 3-hydroxy-3-ethylglutaryl-CoA (HEG-CoA). We only found one report on the formation of [14C]HEG-CoA in liver extract incubated with propionyl-CoA and [1-14C]acetyl-CoA (7).Open in a separate windowFIGURE 1.Scheme of C4 ketogenesis and C5 ketogenesis in the liver. Numbers refer to the following enzymes: 3-ketoacyl-CoA thiolase (1), HMG-CoA synthase (2), HMG-CoA lyase (3), and β-hydroxybutyrate dehydrogenase (4). The figure also shows the link between propionyl-CoA and the CAC via anaplerosis.Because odd-chain fatty acids are absent from the diet of non-ruminant mammals, body fluids contain only traces of C5 ketone bodies. However, C5 ketone bodies and hydroxyethylglutarate are found in body fluids of patients with disorders of the anaplerotic pathway, propionyl-CoA → methylmalonyl- CoA → succinyl-CoA, such as deficiency in propionyl-CoA carboxylase and methylmalonyl-CoA mutase as well as biotin or vitamin B12 deficiency (5, 6, 8). The formation of C5 ketone bodies in these pathological states involves either the conversion of propionyl-CoA to BKP-CoA via 3-ketoacyl-CoA thiolase (Fig. 1, reaction 1) or the β-oxidation of odd-chain fatty acids synthesized in these patients (9) using propionyl-CoA as a primer (10).Like their C4 counterparts, the C5 ketone bodies are interconverted by mitochondrial BHB dehydrogenase (11). In peripheral tissues, C5 ketone bodies are converted to propionyl-CoA (which is anaplerotic) + acetyl-CoA via 3-oxoacid-CoA transferase (12) and 3-ketoacyl-CoA thiolase. Peripheral tissues have a high capacity to utilize exogenous C5 ketone bodies (13), especially heart, kidney, and brain, which have high activities of 3-oxoacid-CoA transferase (14, 15).Our interest in C5 ketone body metabolism arose from an ongoing clinical trial where patients with long chain fatty acid oxidation disorders are treated with a diet containing triheptanoin (16, 17) instead of the classical treatment with the even-chain triglyceride trioctanoin. These patients suffer from muscle weakness and rhabdomyolysis, manifested by the release of creatine kinase in plasma. It was hypothesized that the accumulation of long chain acyl-CoAs and long chain acylcarnitines results in membrane damage with release of large and small molecules from cells. The leakage of small molecules would deplete intermediates of the citric acid cycle (CAC) which carry acetyl groups as they are oxidized. It was further hypothesized that boosting anaplerosis with a suitable substrate would compensate for the chronic cataplerosis and improve heart and muscle function. The catabolism of heptanoate yields propionyl-CoA, which can be used for anaplerosis in most tissues, and C5 ketone bodies in liver. C5 ketone bodies are converted to propionyl-CoA, which can be used for anaplerosis in peripheral tissues. The marked improvement of the patients'' conditions after switching from a trioctanoin- to a triheptanoin-based diet supported the hypothesis.After ingestion of meals containing triheptanoin as the only lipid component, both C5 ketone bodies and C4 ketone bodies accumulated in the plasma of patients that have been diagnosed with disorders of long chain fatty acid oxidation (16). This suggested that acetyl groups derived from heptanoate can be used for the synthesis of C4 and C5 ketone bodies. Alternatively, the accumulation of C4 ketone bodies after triheptanoin ingestion might result from the inhibition of the utilization of C4 ketone bodies in peripheral tissues by C5 ketone bodies.The aim of the present study was to investigate the interaction between C4 and C5 ketogenesis in rat livers perfused with octanoate and/or heptanoate. To gain insight on the fates of the acetyl groups of both fatty acids and on the fate of the propionyl-CoA moiety of heptanoate, we conducted the experiments with a series of labeled substrates: [1-13C]octanoate, [8-13C]octanoate, [5,6,7-13C3]heptanoate, [1-13C]heptanoate, and [13C3]propionate. The outcome of the propionyl-CoA moiety of [5,6,7-13C3]heptanoate and [13C3]propionate was traced by measurements of anaplerosis and glucose labeling by mass isotopomer3 analysis (18). In previous studies on the metabolism of odd-chain fatty acids in liver or hepatocytes (19, 20), ketone bodies were assayed with BHB dehydrogenase. This assay does not differentiate C4 from C5 ketone bodies. In the present study we used gas chromatography-mass spectrometry to specifically assay C4 and C5 ketone bodies (13). 相似文献
122.
Stéphanie Jenouvrier Marika Holland Julienne Stroeve Christophe Barbraud Henri Weimerskirch Mark Serreze Hal Caswell 《Global Change Biology》2012,18(9):2756-2770
Sea ice conditions in the Antarctic affect the life cycle of the emperor penguin (Aptenodytes forsteri). We present a population projection for the emperor penguin population of Terre Adélie, Antarctica, by linking demographic models (stage‐structured, seasonal, nonlinear, two‐sex matrix population models) to sea ice forecasts from an ensemble of IPCC climate models. Based on maximum likelihood capture‐mark‐recapture analysis, we find that seasonal sea ice concentration anomalies (SICa) affect adult survival and breeding success. Demographic models show that both deterministic and stochastic population growth rates are maximized at intermediate values of annual SICa, because neither the complete absence of sea ice, nor heavy and persistent sea ice, would provide satisfactory conditions for the emperor penguin. We show that under some conditions the stochastic growth rate is positively affected by the variance in SICa. We identify an ensemble of five general circulation climate models whose output closely matches the historical record of sea ice concentration in Terre Adélie. The output of this ensemble is used to produce stochastic forecasts of SICa, which in turn drive the population model. Uncertainty is included by incorporating multiple climate models and by a parametric bootstrap procedure that includes parameter uncertainty due to both model selection and estimation error. The median of these simulations predicts a decline of the Terre Adélie emperor penguin population of 81% by the year 2100. We find a 43% chance of an even greater decline, of 90% or more. The uncertainty in population projections reflects large differences among climate models in their forecasts of future sea ice conditions. One such model predicts population increases over much of the century, but overall, the ensemble of models predicts that population declines are far more likely than population increases. We conclude that climate change is a significant risk for the emperor penguin. Our analytical approach, in which demographic models are linked to IPCC climate models, is powerful and generally applicable to other species and systems. 相似文献
123.
Stephanie M. J. Fliedner Tobias Engel Nikoletta K. Lendvai Uma Shankavaram Svenja N?lting Robert Wesley Abdel G. Elkahloun Hendrik Ungefroren Angela Oldoerp Gary Lampert Hendrik Lehnert Henri Timmers Karel Pacak 《PloS one》2014,9(5)
To date, malignant pheochromocytomas and paragangliomas (PHEOs/PGLs) cannot be effectively cured and thus novel treatment strategies are urgently needed. Lovastatin has been shown to effectively induce apoptosis in mouse PHEO cells (MPC) and the more aggressive mouse tumor tissue-derived cells (MTT), which was accompanied by decreased phosphorylation of mitogen-activated kinase (MAPK) pathway players. The MAPK pathway plays a role in numerous aggressive tumors and has been associated with a subgroup of PHEOs/PGLs, including K-RAS-, RET-, and NF1-mutated tumors. Our aim was to establish whether MAPK signaling may also play a role in aggressive, succinate dehydrogenase (SDH) B mutation-derived PHEOs/PGLs. Expression profiling and western blot analysis indicated that specific aspects of MAPK-signaling are active in SDHB PHEOs/PGLs, suggesting that inhibition by statin treatment could be beneficial. Moreover, we aimed to assess whether the anti-proliferative effect of lovastatin on MPC and MTT differed from that exerted by fluvastatin, simvastatin, atorvastatin, pravastatin, or rosuvastatin. Simvastatin and fluvastatin decreased cell proliferation most effectively and the more aggressive MTT cells appeared more sensitive in this respect. Inhibition of MAPK1 and 3 phosphorylation following treatment with fluvastatin, simvastatin, and lovastatin was confirmed by western blot. Increased levels of CASP-3 and PARP cleavage confirmed induction of apoptosis following the treatment. At a concentration low enough not to affect cell proliferation, spontaneous migration of MPC and MTT was significantly inhibited within 24 hours of treatment. In conclusion, lipophilic statins may present a promising therapeutic option for treatment of aggressive human paragangliomas by inducing apoptosis and inhibiting tumor spread. 相似文献
124.
Diana Marcela Penarete-Vargas Ana?s Boisson Serge Urbach Hervé Chantelauze Suzanne Peyrottes Laurent Fraisse Henri J. Vial 《PloS one》2014,9(12)
Plasmodium falciparum is responsible for severe malaria which is one of the most prevalent and deadly infectious diseases in the world. The antimalarial therapeutic arsenal is hampered by the onset of resistance to all known pharmacological classes of compounds, so new drugs with novel mechanisms of action are critically needed. Albitiazolium is a clinical antimalarial candidate from a series of choline analogs designed to inhibit plasmodial phospholipid metabolism. Here we developed an original chemical proteomic approach to identify parasite proteins targeted by albitiazolium during their native interaction in living parasites. We designed a bifunctional albitiazolium-derived compound (photoactivable and clickable) to covalently crosslink drug–interacting parasite proteins in situ followed by their isolation via click chemistry reactions. Mass spectrometry analysis of drug–interacting proteins and subsequent clustering on gene ontology terms revealed parasite proteins involved in lipid metabolic activities and, interestingly, also in lipid binding, transport, and vesicular transport functions. In accordance with this, the albitiazolium-derivative was localized in the endoplasmic reticulum and trans-Golgi network of P. falciparum. Importantly, during competitive assays with albitiazolium, the binding of choline/ethanolamine phosphotransferase (the enzyme involved in the last step of phosphatidylcholine synthesis) was substantially displaced, thus confirming the efficiency of this strategy for searching albitiazolium targets. 相似文献
125.
126.
José C. Ramalho Thijs L. Pons Henri W. Groeneveld M. Antonieta Nunes 《Physiologia plantarum》1997,101(1):229-239
It is known that the coffee (Coffea arabica L.) plant which is originally from shade habitats would have a limited ability to grow under full sun. Previous work has shown that nitrogen fertilisation can reduce the leaf damage when the plants are exposed to high light intensities during several days. In the present work we aimed to study the effects of the high irradiance during the first hours and evaluate the positive contribution of nitrogen fertilisation in the case of short-term exposure to strong light. Young plants (1.5–2 years old) grown in 1.5 kg of a mixed soil were supplemented with a nutrient solution containing 15 mM nitrogen in the form of NH4NO3, every 7 days (2N treatment), 15 days (1N treatment) and 45 days (0N treatment). Top mature leaves were exposed to a photosynthetic photon flux density of 1 500 μmol m?2 s?1 for a maximal period of 8 h, and changes in photosynthesis and pigment composition were monitored along the period of high light exposure. Photosynthetic capacity, leaf conductance to water vapour, electron transport capacity and maximum carboxylation activity, as well as some leaf fluorescence parameters (minimal fluorescence, photochemical efficiency of PSII and quantum yield of photosynthetic electron transport) were reduced by the stress, with a generally stronger impact observed in the 0N plants. The photochemical quenching was affected only in the 0N plants, while the non-photochemical quenching increased in 2N plants but decreased in the 0N ones. The results showed that 2N plants presented a better initial status of the photosynthetic parameters and of the content of photoprotective pigments. Those plants showed ability to trigger some protective mechanisms, as observed by the tendency to increase the xanthophyll pool content, specially in zeaxanthin and in non-photochemical quenching. Also, protein content presented a tendency to increase after 1.5 h, which was maintained until the end of the high light period. We conclude that nitrogen availability is a key factor in the acclimation process to high light. 相似文献
127.
Salt adaptation was induced in two successive generations of Sorghum bicolor , and the germination of their seeds was compared. When germinated in the absence of NaCl, the progeny of adapted plants displayed a specific malformation at the first two leaves, which was never observed in progeny of control plants. The frequency of leaf malformation was enhanced in progeny of the second generation of adapted plants, indicating a cumulative influence of salt adaptation. When germinated in the presence of 75 m M NaCl, seedlings from seeds of salt-adapted plants never displayed the leaf malformation, whereas it was observed on seedlings from seeds of control plants germinated in the presence of 75 m M NaCl. The occurrence of leaf malformation was analyzed for progeny of 20 salt-adapted plants germinated in the absence of NaCl. The link with the reproductive characters of the parents indicates a strong parental control on the expression of the leaf malformation. A comparison with previous data relative to the leaf malformation in Sorghum suggests the existence of a developmental window which 'opens'during embryo morphogenesis. This enables the imprinting of the embryo by the parent's physiological environment. This conclusion is related to other data describing a long-term maternal influence in plants. 相似文献
128.
Maïlys Chassagne-Manoukian Hamid Haddoumi Henri Cappetta André Charrière Monique Feist Rodolphe Tabuce Monique Vianey-Liaud 《Geobios》2013,46(5):371-379
A new locality in the poorly known “red beds” of Tendrara (High Plateaus, Morocco) has yielded four charophytes species (Feistiella anluensis, Lamprothamnium stipitatum, Peckisphaera portezueloensis, Platychara caudata) and dinosaur eggshells (Pseudomegaloolithus atlasi). These red beds, which overly the Cenomanian-Turonian marine deposits, generally assigned to “Senonian” based on geometric position, are directly dated by these fossils: the charophytes species and dinosaur oospecies association indicates a Campano-Maastrichtian or Maastrichtian age for these calm floodplain deposits. 相似文献
129.
André Escobar Rozana Wendler da Rocha Bruno Henri Pypendop Darcio Zangirolami Filho Samuel Santos Sousa Carlos Augusto Araújo Valad?o 《PloS one》2016,11(3)
The aim of this study was to measure the temporal effects of intramuscular methadone administration on the minimum anesthetic concentration (MAC) of isoflurane in hens, and to evaluate the effects of the isoflurane-methadone combination on heart rate and rhythm, blood pressure and ventilation. Thirteen healthy adult hens weighing 1.7 ± 0.2 kg were used. The MAC of isoflurane was determined in each individual using the bracketing method. Subsequently, the reduction in isoflurane MAC produced by methadone (3 or 6 mg kg-1, IM) was determined by the up-and-down method. Stimulation was applied at 15 and 30 minutes, and at 45 minutes if the bird had not moved at 30 minutes. Isoflurane MAC reduction was calculated at each time point using logistic regression. After a washout period, birds were anesthetized with isoflurane and methadone, 6 mg kg-1 IM was administered. Heart rate and rhythm, respiratory rate, blood gas values and invasive blood pressure were measured at 1.0 and 0.7 isoflurane MAC, and during 45 minutes after administration of methadone once birds were anesthetized with 0.7 isoflurane MAC. Fifteen minutes after administration of 3 mg kg-1 of methadone, isoflurane MAC was reduced by 2 (-9 to 13)% [logistic regression estimate (95% Wald confidence interval)]. Administration of 6 mg kg-1 of methadone decreased isoflurane MAC by 29 (11 to 46)%, 27 (-3 to 56)% and 10 (-8 to 28)% after 15, 30 and 45 minutes, respectively. Methadone (6 mg kg-1) induced atrioventricular block in three animals and ventricular premature contractions in two. Methadone caused an increase in arterial blood pressure and arterial partial pressure of carbon dioxide, while heart rate and pH decreased. Methadone, 6 mg kg-1 IM significantly reduced isoflurane MAC by 30% in hens 15 minutes after administration. At this dose, methadone caused mild respiratory acidosis and increase in systemic blood pressure. 相似文献
130.
Henri‐François Renard Didier Demaegd Bérengère Guerriat Pierre Morsomme 《Traffic (Copenhagen, Denmark)》2010,11(7):931-946
SNA (Sensitive to Na+) proteins form a membrane protein family, which, in the yeast Saccharomyces cerevisiae, is composed of four members: Sna1p/Pmp3p, Sna2p, Sna3p and Sna4p. In this study, we focused on the 79 residue Sna2p protein. We found that Sna2p is localized in the vacuolar membrane. Directed mutagenesis showed that two functional tyrosine motifs YXXØ are present in the C‐terminal region. Each of these is involved in a different Golgi‐to‐vacuole targeting pathway: the tyrosine 65 motif is involved in adaptor protein (AP‐1)‐dependent targeting, whereas the tyrosine 75 motif is involved in AP‐3‐dependent targeting. Moreover, our data suggest that these motifs also play a crucial role in the exit of Sna2p from the endoplasmic reticulum (ER). Directed mutagenesis of these tyrosines led to a partial redirection of Sna2p to lipid bodies, probably because of a decrease in ER exit efficiency. Sna2p is the first yeast protein in which two YXXØ motifs have been identified and both were shown to be functional at two different steps of the secretory pathway, ER exit and Golgi‐to‐vacuole transport. 相似文献