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1.
Sugar metabolism in germinating soybean seeds: evidence for the sorbitol pathway in soybean axes 总被引:3,自引:1,他引:2 下载免费PDF全文
Characterization of sugar content and enzyme activity in germinating soybean (Glycine max L. Merrell) seeds led to the discovery of sorbitol accumulating in the axes during germination. The identity of sorbitol was confirmed by relative retention times on high-performance liquid chromatography and gas liquid chromatography and by mass spectra identical with authentic sorbitol. Accumulation of sorbitol in the axes started on day 1 of germination as sucrose decreased and glucose and fructose increased. Sucrose also decreased in the cotyledons, but there was no accumulation of sorbitol, glucose, or fructose. Accumulation of sorbitol and hexoses was highly correlated with increased invertase activity in the axes, but not with sucrose synthase and sucrose phosphate synthase activities. Sucrose synthase activity was relatively high in the axes, whereas the activity of sucrose phosphate synthase was relatively high in the cotyledons. Ketose reductase and aldose reductase were detected in germinating soybean axes, but not in cotyledons. Fructokinase and glucokinase were present in both axes and cotyledons. The data suggest a sorbitol pathway functioning in germinating soybean axes, which allows for the interconversion of glucose and fructose with sorbitol as an intermediate. 相似文献
2.
Alexander W. Fischer Kirstin Albers Christian Schlein Frederike Sass Lucia M. Krott Hartwig Schmale Philip L.S.M. Gordts Ludger Scheja Joerg Heeren 《生物化学与生物物理学报:疾病的分子基础》2019,1865(6):1592-1603
The phosphotyrosine interacting domain-containing protein 1 (PID1) serves as a cytosolic adaptor protein of the LDL receptor-related protein 1 (LRP1). By regulating its intracellular trafficking, PID1 controls the hepatic, LRP1-dependent clearance of pro-atherogenic lipoproteins. In adipose and muscle tissues, LRP1 is present in endosomal storage vesicles containing the insulin-responsive glucose transporter 4 (GLUT4). This prompted us to investigate whether PID1 modulates GLUT4 translocation and function via its interaction with the LRP1 cytosolic domain. We initially evaluated this in primary brown adipocytes as we observed an inverse correlation between brown adipose tissue glucose uptake and expression of LRP1 and PID1. Insulin stimulation in wild type brown adipocytes induced LRP1 and GLUT4 translocation from endosomal storage vesicles to the cell surface. Loss of PID1 expression in brown adipocytes prompted LRP1 and GLUT4 sorting to the plasma membrane independent of insulin signaling. When placed on a diabetogenic high fat diet, systemic and adipocyte-specific PID1-deficient mice presented with improved hyperglycemia and glucose tolerance as well as reduced basal plasma insulin levels compared to wild type control mice. Moreover, the improvements in glucose parameters associated with increased glucose uptake in adipose and muscle tissues from PID1-deficient mice. The data provide evidence that PID1 serves as an insulin-regulated retention adaptor protein controlling translocation of LRP1 in conjunction with GLUT4 to the plasma membrane of adipocytes. Notably, loss of PID1 corrects for insulin resistance-associated hyperglycemia emphasizing its pivotal role and therapeutic potential in the regulation of glucose homeostasis. 相似文献
3.
The dependence upon substrate and insulin concentrations, as well as on sodium and potassium concentrations in the medium of the uptake of glucose and 2-aminoisobutyric acid, was determined for fragments of brown and white adipose tissues incubated in vitro. Brown adipose tissue showed a high capacity for glucose uptake at high glucose concentrations, this uptake being dependent on both glucose and insulin concentration. White adipose tissue showed much more limited uptake capabilities. The presence of Na+ and K+ had little effect on the uptake. The uptake of 2-aminoisobutyric acid was similar in both adipose tissues, being enhanced by physiological levels of insulin and depressed by ouabain. This amino acid transport was dependent on Na+ and K+ concentrations, and the overall transporting capability was two to three orders of magnitude lower than that for glucose. It was concluded that amino acids could not play a significant role as bulk thermogenic substrates for brown adipose tissue, as their transporters lack the plasticity of response to high substrate and insulin concentrations which characterize brown adipose tissue uptake of glucose. 相似文献
4.
Enhancement of Anaerobic Respiration in Root Tips of Zea mays following Low-Oxygen (Hypoxic) Acclimation 总被引:10,自引:9,他引:1 下载免费PDF全文
Root tips (10-millimeter length) were excised from hypoxically pretreated (HPT, 4% [v/v] oxygen at 25°C for 16 hours) or nonhypoxically pretreated (NHPT, 40% [v/v] oxygen) maize (Zea mays) plants, and their rates of respiration were compared by respirometry under aerobic and anaerobic conditions with exogenous glucose. The respiratory quotient under aerobic conditions with 50 millimolar glucose was approximately 1.0, which is consistent with glucose or other hexose sugars being utilized as the predominant carbon source in glycolysis. Under strictly anaerobic conditions (anoxia), glycolysis was accelerated appreciably in both HPT and NHPT root tips, but the rate of anaerobic respiration quickly declined in NHPT roots. [U-14C]Glucose supplied under anaerobic conditions was taken up and respired by HPT root tips up to five times more rapidly than by NHPT roots. When anaerobic ethanol production was measured with excised root tips in 50 millimolar glucose, HPT tissues consistently produced ethanol more rapidly than NHPT tissues. These data suggest that a period of low oxygen partial pressure is necessary to permit adequate acclimation of the root tip of maize to subsequent anoxia, resulting in more rapid rates of fermentation and generation of ATP. 相似文献
5.
Shi-Ying Ding Mi-Jeong Lee Ross Summer Libin Liu Susan K. Fried Paul F. Pilch 《The Journal of biological chemistry》2014,289(12):8473-8483
Mice and humans lacking caveolae due to gene knock-out or inactivating mutations of cavin-1/PTRF have numerous pathologies including markedly aberrant fuel metabolism, lipodystrophy, and muscular dystrophy. We characterized the physiologic/metabolic profile of cavin-1 knock-out mice and determined that they were lean because of reduced white adipose depots. The knock-out mice were resistant to diet-induced obesity and had abnormal lipid metabolism in the major metabolic organs of white and brown fat and liver. Epididymal white fat cells from cavin-1-null mice were small and insensitive to insulin and β-adrenergic agonists resulting in reduced adipocyte lipid storage and impaired lipid tolerance. At the molecular level, the lipolytic defects in white fat were caused by impaired perilipin phosphorylation, and the reduced triglyceride accumulation was caused by decreased fatty acid uptake and incorporation as well as the virtual absence of insulin-stimulated glucose transport. The livers of cavin-1-null mice were mildly steatotic and did not accumulate more lipid after high-fat feeding. The brown adipose tissues of cavin-1-null mice exhibited decreased mitochondria protein expression, which was restored upon high fat feeding. Taken together, these data suggest that dysfunction in fat, muscle, and liver metabolism in cavin-1-null mice causes a pleiotropic phenotype, one apparently identical to that of humans lacking caveolae in all tissues. 相似文献
6.
Morkunas I Garnczarska M Bednarski W Ratajczak W Waplak S 《Journal of plant physiology》2003,160(3):311-319
Embryo axes isolated from germinating lupine seeds were cultivated in vitro for 24-96 h over media containing either 60 mmol/L sucrose or no sucrose. Ultrastructural studies showed that large vacuoles were accumulating in a central region of primary parenchyma cells in sucrose starved lupine embryo axes, whereas cytoplasm along with organelles were forced to a periphery of the cells. We suggest that the autolysis of cytoplasmic proteins contributes to the accumulation of the vacuoles and this suggestion is consistent with the results of the characterisation of protein content. The level of cytosolic proteins was reduced by 50% and the activity of cytosolic marker enzyme, PEP carboxylase, was reduced by 46% in starved embryos as compared to control. The mitochondria from starved tissues were not degraded. The level of mitochondrial proteins was reduced by only 10% and the activity of mitochondrial NAD-isocitrate dehydrogenase decreased by 8% as a result of starvation. As demonstrated by the results of Percoll density gradient centrifugation, sucrose starvation caused an increase of 49% in many of the higher density mitochondria fractions, whereas many of the lower density mitochondria fractions were decreased by 33%. The samples of mitochondria from starved embryo axes were determined to have higher respiration activity in the presence of glutamate and malate as compared to control samples. EPR-based analyses of free radicals showed the presence of free radicals with a signal at g = 2.0060 in embryo axes. The level of the radical was two times higher in sucrose-starved embryo axes than in control (the level of this radical increased in senescing plant tissues as well). The results of EPR-based quantitation of Mn2+ ions revealed that the level was a few times higher in starved material than in control. Starved embryo axes, however, do possess a number of adaptive mechanisms protecting them from oxidative damage. Densitometric analyses of gels revealed an increase in the activity of SOD in sugar-starved embryos, whereas CAT and POX activities were lower in axes grown without sucrose as compared to control. Superoxide dismutase, catalase and peroxidase zymogram analyses showed that synthesis of new isoforms was not induced by sugar starvation. An accumulation of phytoferritin was found in plastids of sucrose starved embryos. These results are discussed in relation to the metabolic changes observed in senescing plant tissues. 相似文献
7.
2 O2 when the brown scales were suspended in water. Brown components isolated from the brown scales also transformed molecular
oxygen into H2O2. During the autooxidation process, absorbance in the visible region was increased. On acid hydrolysis of the brown fraction,
2,4,6-trihydroxyphenylglyoxylic acid, 3,4-dihydroxybenzoic acid and the quinone form of benzoic acid were detected. In addition,
glucose was detected as a sugar. 3,4-Dihydroxybenzoic acid was preferentially oxidized during autooxidation of the brown fraction.
One of the oxidation products was the quinone form. Stable electron spin resonance (ESR) signals were detected in the brown
fraction. New ESR signals appeared on oxidation of the brown fraction by hexacyanoferrate (III). One of the newly formed radicals
seemed to have a 3,4-dihydroxyphenyl group. Based on these results, possible structures, mechanism of H2O2 formation and biological significance of the brown components are discussed.
Received 11 April 2001/ Accepted in revised form 3 August 2001 相似文献
8.
Strontium was determined in trout scales from a river where it is often difficult to distinguish between sea trout and resident brown trout by coloration or other visual marks. Sr values were compared with values in scales from brown trout caught above the anadromous stretch of the same river and in scales from a river where sea trout coloration is typical. In the first river, the Sr concentration was generally low, and as a mean only 50 ppm higher in scales from individuals classified as sea trout from the anadromous stretch than in brown trout scales from the upper stretch. There was no consistency between fish coloration and Sr concentration in scales from presumed sea trout on the anadromous stretch. Individuals with a typical sea trout coloration could have a lower concentration of Sr than individuals that were classified as uncertain sea trout by coloration. Fish weight did not seem to influence Sr levels. The mean Sr concentration in scales from the typical sea trout colored population in the second river was 2.8 times higher than that of the anadromous part of the first river. The high variability of Sr concentration in sea trout scales may be explained by differences in individual and population life history. The Sr levels reflect differences in saltwater exposure, either expressed by length of stay or concentration of salt in marine habitats. The study has shown that fish coloration is an inadequate mean to distinguish between resident and migratory trout. Nor is Sr determination of scales alone sufficient, because of low inter-group and high intra-group variability in some rivers. However, Sr values can give valuable information on individual and population migration on a large scale. 相似文献
9.
Morkunas I Narożna D Nowak W Samardakiewicz S Remlein-Starosta D 《Journal of plant physiology》2011,168(5):424-433
This study investigated the effects of cross-talk interactions of sucrose and infection caused by a pathogenic fungus Fusarium oxysporum f.sp. lupini on the regulation of the phenylpropanoid pathway, i.e. the level of expression of genes encoding enzymes participating in flavonoid biosynthesis, as well as cell location and accumulation of these compounds in embryo axes of Lupinus luteus L. cv. Polo. Embryo axes, both non-inoculated and inoculated, were cultured for 96 h on Heller medium with 60 mM sucrose (+Sn and +Si) or without it (−Sn and −Si). Real-time RT-PCR to assess expression levels of the flavonoid biosynthetic genes, phenylalanine ammonialyase (PAL), chalcone synthase (CHS), chalcone isomerase (CHI) and isoflavone synthase (IFS) were used. Sucrose alone strongly stimulated the expression of these genes. There was a very high expression level of these genes in +Si embryo axes in the early phase of infection. Signal amplification by sucrose and the infection was most intense in the 48-h +Si axes, resulting in the highest level of expression of flavonoid biosynthetic genes. In −Si tissues, the expression level of these genes increased at 48 and 72 h after inoculation relative to 24 h; however, the relative level of expression was much lower than in +Si axes, except at 72 h for PAL and CHS.Moreover, at 48 h of culture, considerably higher activity of CHI (EC 5.5.1.6) was observed in axes with a high level of sucrose than in those with a sucrose deficit. CHI activity in +Si axes at 48 and 96 h post-inoculation was over 1.5 and 2 times higher than that in +Sn axes, as well as higher than in −Si axes.Observations of yellow lupine embryo axes under a confocal microscope showed an increased post-infection accumulation of flavonoids, particularly in cells of embryo axes infected with F. oxysporum and cultured on a medium containing sucrose (+Si). Up to 48 h post-infection in +Si axes, a very intensive emission of green fluorescence was observed, indicating high accumulation of these compounds in whole cells. Moreover, a nuclear location of flavonoids was recorded in cells. Strong staining of flavonoid end products in +Si embryo axes was consistent with the expression of PAL, CHS, CHI and IFS.These results indicate that, in the early phase of infection, the flavonoid biosynthesis pathway is considerably enhanced in yellow lupine embryo axes as a strong signal amplification effect of sucrose and the pathogenic fungus F. oxysporum. 相似文献
10.
Fan Yang Jerry M. Baskin Carol C. Baskin Xuejun Yang Dechang Cao Zhenying Huang 《Annals of botany》2015,115(1):137-145
Background and Aims Diaspores of heteromorphic species may germinate at different times due to distinct dormancy-breaking and germination requirements, and this difference can influence life history traits. The primary aim of this study was to determine the effect of germination time of the two seed morphs of Suaeda corniculata subsp. mongolica on life history traits of the offspring.Methods Germinated brown and black seeds were sown on the 20th of each month from April to September in a simulated but near-natural habitat of the species. Phenological and vegetative traits of the maternal plants, and number, size and germination percentage of the offspring were determined.Key Results Germinated seeds sown late in the year produced smaller plants that had a higher proportion of non-dormant brown than dormant black seeds, and these brown seeds were larger than those produced by germinated seeds sown early in the year. The length of the seedling stage for brown seeds was shorter than that for black seeds, and the root/shoot ratio and reproductive allocation of plants from brown seeds were more variable than they were for plants from black seeds. Late-germinating brown seeds produced larger plants than late-germinating black seeds.Conclusions Altering the proportion of the two seed types in response to germination timing can help alleviate the adverse effects of delayed germination. The flexible strategy of a species, such as S. corniculata, that produces different proportions of dimorphic seeds in response to variation in germination timing may favour the maintenance and regeneration of the population in its unpredictable environment. 相似文献
11.
De Novo Synthesis of 4,5-Dimethoxycatechol and 2,5-Dimethoxyhydroquinone by the Brown Rot Fungus Gloeophyllum trabeum 下载免费PDF全文
Andrzej Paszczynski Ronald Crawford David Funk Barry Goodell 《Applied microbiology》1999,65(2):674-679
The new dimethoxycatechol 4,5-dimethoxy-1,2-benzenediol (DMC) and the new dimethoxyhydroquinone 2,5-dimethoxy-1,4-benzenediol (DMH) were isolated from stationary cultures of the brown rot fungus Gloeophyllum trabeum growing on a glucose mineral medium protected from light. The structure was elucidated by gas chromatography-mass spectrometry through comparison to a synthetic standard. Further confirmation was obtained by forming a dimethoxyoxazole derivative by condensation of DMC with methylene chloride and through examination of methylated derivatives. DMC and DMH may serve as ferric chelators, oxygen-reducing agents, and redox-cycling molecules, which would include functioning as electron transport carriers to Fenton’s reactions. Thus, they appear to be important components of the brown rot decay system of the fungus. 相似文献
12.
Takeshi Nonomura Atsushi Tsuchida Michiko Ono-Kishino Tsutomu Nakagawa Mutsuo Taiji Hiroshi Noguchia 《Experimental diabetes research》2001,2(3):201-209
It has been previously demonstrated that brain-derived
neurotrophic factor (BDNF) regulates glucose
metabolism and energy expenditure in rodent
diabetic models such as C57BL/KsJ-leprdb/leprdb (db/db) mice. Central administration of BDNF has
been found to reduce blood glucose in db/db mice,
suggesting that BDNF acts through the central nervous
system. In the present study we have expanded
these investigations to explore the effect of central
administration of BDNF on energy metabolism. Intracerebroventricular
administration of BDNF lowered blood glucose and increased pancreatic insulin
content of db/db mice compared with vehicle-treated
pellet pair-fed db/db mice. While body temperatures
of the pellet pair-fed db/db mice given vehicle were
reduced because of restricted food supply in this
pair-feeding condition, BDNF treatment remarkably
alleviated the reduction of body temperature suggesting
the enhancement of thermogenesis. BDNF
enhanced norepinephrine turnover and increased
uncoupling protein-1 mRNA expression in the interscapular
brown adipose tissue. Our evidence indicates
that BDNF activates the sympathetic nervous
system via the central nervous system and regulates
energy expenditure in obese diabetic animals. 相似文献
13.
Chao Sun Liang Tian Jia Nie Hai Zhang Xiao Han Yuguang Shi 《The Journal of biological chemistry》2012,287(45):38305-38315
MARK4, also known as Par-1d/MarkL1, is a member of the AMP-activated protein kinase (AMPK)-related family of kinases, which are implicated in the regulation of dynamic biological functions, including glucose and energy homeostasis. However, the physiological function of MARK4 in mammals remains elusive. Here, we investigated a role for MARK4 in regulating energy homeostasis by generating mice with targeted inactivation of the mark4 gene. We show that MARK4 deficiency in mice caused hyperphagia, hyperactivity, and hypermetabolism, leading to protection from diet-induced obesity and its related metabolic complications through up-regulation of brown fat activity. Consequently, MARK4 deficiency mitigated insulin resistance associated with diet-induced obesity by dramatically enhancing insulin-stimulated AKT phosphorylation in major metabolic tissues. Ablation of MARK4 also significantly improved glucose homeostasis by up-regulating the activity and expression of AMPK kinase in key metabolic tissues. Taken together, these data identify a key role of MARK4 in energy metabolism, implicating the kinase as a novel drug target for the treatment of obesity and type 2 diabetes. 相似文献
14.
Effect of high-fat diet on the expression of proteins in muscle, adipose tissues, and liver of C57BL/6 mice 总被引:2,自引:0,他引:2
Schmid GM Converset V Walter N Sennitt MV Leung KY Byers H Ward M Hochstrasser DF Cawthorne MA Sanchez JC 《Proteomics》2004,4(8):2270-2282
In the present study, the effect of a high fat diet on the expression of proteins in insulin target tissues was analyzed using a proteomic approach. Gastrocnemius muscle, white and brown adipose tissue, and liver were taken from C57BL/6 mice either fed on a high-fat or a chow diet. Expression levels of approximately 10 000 polypeptides for all the four tissues were assessed by two-dimensional gel electrophoresis (2-DE). Computer-assisted image analysis allowed the detection of 50 significantly (p < 0.05) differentially expressed proteins between obese and lean mice. Interestingly, more than half of these proteins were detected in the brown adipose tissue. The differentially expressed proteins were identified by tandem mass spectrometry. Several stress and redox proteins were modulated in response to the high-fat diet. A key glycolytic enzyme was found to be downregulated in adipose tissues and muscle, suggesting that at elevated plasma fatty acid concentrations, fatty acids compete with glucose as an oxidative fuel source. Furthermore, in brown adipose tissue there were significant changes in mitochondrial enzymes involved in the Krebs tricarboxylic acid (TCA) cycle and in the respiratory chain in response to the high-fat diet. The brown adipose tissue is an energy-dissipating tissue. Our data suggest that the high-fat diet treated mice were increasing energy expenditure to defend against weight gain. 相似文献
15.
N. P. Komelina Z. G. Amerkhanov 《Biochemistry (Moscow) Supplemental Series A: Membrane and Cell Biology》2014,8(1):73-81
Physiological role of mitochondrial uncoupling proteins UCP2 and UCP3, homologous to UCP1 from brown adipose tissue, is unclear. It was proposed recently that UCP2 and UCP3 are metabolic triggers that switch oxidation of glucose to oxidation of fatty acids, exporting pyruvate from mitochondria. In the present study we tried to verify this hypothesis using ground squirrels (Spermophilus undulatus), since expression of all UCPs in different tissues increases during winter season, and UCP1 is abundant in brown fat. We confirmed the possibility of nonspecific transport of pyruvate through UCP1 in brown fat mitochondria and tried to identify similar transport in liver and skeletal muscle mitochondria where UCP2 and UCP3 are expressed. Transport of pyruvate mediated by UCP1 in mitochondria of brown fat was observed using valinomycin-induced swelling of non-respiring mitochondria in 55 mM potassium pyruvate and was inhibited by GDP. In contrast, mitochondria of liver and skeletal muscles in similar conditions did not exhibit electrogenic transport of pyruvate anions that could be related to functioning of UCP2 and UCP3. At the same time, functioning of pyruvate carrier was detected in these mitochondria by nigericin-induced passive swelling or valinomycin-induced active swelling in potassium pyruvate that was inhibited by α-CHC, a specific inhibitor of the pyruvate carrier. Thus, our results suggest that in contrast to UCP1 of brown fat, UCP2 and UCP3 from intact liver and skeletal muscle mitochondria of winter active ground squirrels are unable to carry out pyruvate transport. 相似文献
16.
Anastasia Andersson Eeva Jansson Lovisa Wennerström Fidel Chiriboga Mariann Arnyasi Matthew P. Kent Nils Ryman Linda Laikre 《Conservation Genetics》2017,18(5):1213-1227
Intraspecific genetic variation can have similar effects as species diversity on ecosystem function; understanding such variation is important, particularly for ecological key species. The brown trout plays central roles in many northern freshwater ecosystems, and several cases of sympatric brown trout populations have been detected in freshwater lakes based on apparent morphological differences. In some rare cases, sympatric, genetically distinct populations lacking visible phenotypic differences have been detected based on genetic data alone. Detecting such “cryptic” sympatric populations without prior grouping of individuals based on phenotypic characteristics is more difficult statistically, though. The aim of the present study is to delineate the spatial connectivity of two cryptic, sympatric genetic clusters of brown trout discovered in two interconnected, tiny subarctic Swedish lakes. The structures were detected using allozyme markers, and have been monitored over time. Here, we confirm their existence for almost three decades and report that these cryptic, sympatric populations exhibit very different connectivity patterns to brown trout of nearby lakes. One of the clusters is relatively isolated while the other one shows high genetic similarity to downstream populations. There are indications of different spawning sites as reflected in genetic structuring among parr from different creeks. We used >3000 SNPs on a subsample and find that the SNPs largely confirm the allozyme pattern but give considerably lower F ST values, and potentially indicate further structuring within populations. This type of complex genetic substructuring over microgeographical scales might be more common than anticipated and needs to be considered in conservation management. 相似文献
17.
Lycopene (LYC), one of the major carotenoids in tomatoes, has been preclinically and clinically used to obesity and type 2 diabetes management. However, whether its ability of countering body weight gain is related to induction of brown-like adipocyte phenotype in white adipose tissues (WAT) remains largely unknown. Activation of peroxisome proliferator-activated receptor γ (PPARγ) serves the brown-like phenotype conversion and energy expenditure. Here, we show that LYC treatment promotes glucose consumption and improves insulin sensitivity, as well as fosters white adipocytes browning through up-regulating mRNA and protein expression levels of PPARγ, uncoupling protein 1, PPARγ coactivator-1α and PR domain-containing 16 in the differentiated 3T3-L1 adipocytes and primary adipocytes, as well as in the WAT of HFD-exposed obese mice. In addition, LYC treatment attenuates body weight gain and improves serum lipid profiles as well as promotes brown adipose tissue activation in obese mice. Moreover, PPARγ is induced with LYC intervention in mitochondria respiration and browning in white adipocytes and tissues. Taken together, these results suggest that LYC counteracts obesity and improves glucose and lipid metabolism through induction of the browning via up-regulation of PPARγ, which offers a new perspective of this compound to combat obesity and obesity-related disorders. 相似文献
18.
Eiichi Hinoi Takashi IezakiHiroyuki Fujita Takumi WatanabeYoshiaki Odaka Kakeru OzakiYukio Yoneda 《Biochemical and biophysical research communications》2014
We have previously demonstrated promotion by growth differentiation factor-5 (GDF5) of brown adipogenesis for systemic energy expenditure through a mechanism relevant to activating the bone morphological protein (BMP) receptor/mothers against decapentaplegic homolog (Smad)/peroxisome proliferator-activated receptor gamma co-activator 1α (PGC-1α) pathway. Here, we show the involvement of the phosphatidylinositol 3-kinase (PI3K)/Akt pathway in brown adipogenesis mediated by GDF5. Overexpression of GDF5 in cells expressing adipocyte protein-2 markedly accelerated the phosphorylation of Smad1/5/8 and Akt in white and brown adipose tissues. In brown adipose tissue from heterozygous GDF5Rgsc451 mutant mice expressing a dominant-negative (DN) GDF5 under obesogenic conditions, the basal phosphorylation of Smad1/5/8 and Akt was significantly attenuated. Exposure to GDF5 not only promoted the phosphorylation of both Smad1/5/8 and Akt in cultured brown pre-adipocytes, but also up-regulated Pgc1a and uncoupling protein-1 expression in a manner sensitive to the PI3K/Akt inhibitor Ly294002 as well as retroviral infection with DN-Akt. GDF5 drastically promoted BMP-responsive luciferase reporter activity in a Ly294002-sensitive fashion. Both Ly294002 and DN-Akt markedly inhibited phosphorylation of Smad5 in the nuclei of brown pre-adipocytes. These results suggest that PI3K/Akt signals play a role in the GDF5-mediated brown adipogenesis through a mechanism related to activation of the Smad pathway. 相似文献
19.
The Extraneural Distribution of γ-Hydroxybutyrate 总被引:1,自引:1,他引:0
Thomas Nelson Elaine Kaufman John Kline Louis Sokoloff 《Journal of neurochemistry》1981,37(5):1345-1348
Abstract— γ-Hydroxybutyrate has been found to be widely distributed in both neural and extraneural tissues in the rat. The kidney and brown fat have more than 10 times higher concentrations of y-hydroxybutyrate than does the brain. This observation suggests that γ-hydroxybutyrate may participate in the metabolism of many organs, and that GABA may not be the precursor in extraneural tissues. 相似文献
20.
Mannitol, sucrose, and laminitol have been isolated from ethanolic extracts of the brown seaweed Desmarestia aculeata and characterised, and rhamnose, sedoheptulose, glucose, fructose, and 2-O-methyl- and 3-O-methyl-fucose have been identified by their chromatographic mobilities and g.l.c. retention times. Laminarin, alginic acid, and “fucans” were isolated also and characterised. The laminarin contained 1.7% of mannitol end-groups, and the fucans a relatively high proportion of galactose which was present as end-group and (1→3)-linked units. 相似文献