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排序方式: 共有155条查询结果,搜索用时 15 毫秒
31.
Larissa W. van Golen Dick J. Veltman Richard G. IJzerman Jan Berend Deijen Annemieke C. Heijboer Frederik Barkhof Madeleine L. Drent Michaela Diamant 《PloS one》2014,9(4)
Studies in rodents have demonstrated that insulin in the central nervous system induces satiety. In humans, these effects are less well established. Insulin detemir is a basal insulin analog that causes less weight gain than other basal insulin formulations, including the current standard intermediate-long acting Neutral Protamine Hagedorn (NPH) insulin. Due to its structural modifications, which render the molecule more lipophilic, it was proposed that insulin detemir enters the brain more readily than other insulins. The aim of this study was to investigate whether insulin detemir treatment differentially modifies brain activation in response to food stimuli as compared to NPH insulin. In addition, cerebral spinal fluid (CSF) insulin levels were measured after both treatments. Brain responses to viewing food and non-food pictures were measured using functional Magnetic Resonance Imaging in 32 type 1 diabetic patients, after each of two 12-week treatment periods with insulin detemir and NPH insulin, respectively, both combined with prandial insulin aspart. CSF insulin levels were determined in a subgroup. Insulin detemir decreased body weight by 0.8 kg and NPH insulin increased weight by 0.5 kg (p = 0.02 for difference), while both treatments resulted in similar glycemic control. After treatment with insulin detemir, as compared to NPH insulin, brain activation was significantly lower in bilateral insula in response to visual food stimuli, compared to NPH (p = 0.02 for right and p = 0.05 for left insula). Also, CSF insulin levels were higher compared to those with NPH insulin treatment (p = 0.003). Our findings support the hypothesis that in type 1 diabetic patients, the weight sparing effect of insulin detemir may be mediated by its enhanced action on the central nervous system, resulting in blunted activation in bilateral insula, an appetite-regulating brain region, in response to food stimuli.
Trial Registration
ClinicalTrials.gov . NCT00626080相似文献32.
33.
Background
The diversity of parasites attacking a host varies substantially among different host species. Understanding the factors that explain these patterns of parasite diversity is critical to identifying the ecological principles underlying biodiversity. Seabirds (Charadriiformes, Pelecaniformes and Procellariiformes) and their ectoparasitic lice (Insecta: Phthiraptera) are ideal model groups in which to study correlates of parasite species richness. We evaluated the relative importance of morphological (body size, body weight, wingspan, bill length), life-history (longevity, clutch size), ecological (population size, geographical range) and behavioural (diving versus non-diving) variables as predictors of louse diversity on 413 seabird hosts species. Diversity was measured at the level of louse suborder, genus, and species, and uneven sampling of hosts was controlled for using literature citations as a proxy for sampling effort. 相似文献34.
Jos?C. Jansen Sharita Timal Monique van?Scherpenzeel Helen Michelakakis Dorothée Vicogne Angel Ashikov Marina Moraitou Alexander Hoischen Karin Huijben Gerry Steenbergen Marjolein?A.W. van?den?Boogert Francesco Porta Pier?Luigi Calvo Mersyni Mavrikou Giovanna Cenacchi Geert van?den?Bogaart Jody Salomon Adriaan?G. Holleboom Richard?J. Rodenburg Joost?P.H. Drenth Martijn?A. Huynen Ron?A. Wevers Eva Morava Fran?ois Foulquier Joris?A. Veltman Dirk?J. Lefeber 《American journal of human genetics》2016,98(2):322-330
Congenital disorders of glycosylation (CDGs) form a genetically and clinically heterogeneous group of diseases with aberrant protein glycosylation as a hallmark. A subgroup of CDGs can be attributed to disturbed Golgi homeostasis. However, identification of pathogenic variants is seriously complicated by the large number of proteins involved. As part of a strategy to identify human homologs of yeast proteins that are known to be involved in Golgi homeostasis, we identified uncharacterized transmembrane protein 199 (TMEM199, previously called C17orf32) as a human homolog of yeast V-ATPase assembly factor Vph2p (also known as Vma12p). Subsequently, we analyzed raw exome-sequencing data from families affected by genetically unsolved CDGs and identified four individuals with different mutations in TMEM199. The adolescent individuals presented with a mild phenotype of hepatic steatosis, elevated aminotransferases and alkaline phosphatase, and hypercholesterolemia, as well as low serum ceruloplasmin. Affected individuals showed abnormal N- and mucin-type O-glycosylation, and mass spectrometry indicated reduced incorporation of galactose and sialic acid, as seen in other Golgi homeostasis defects. Metabolic labeling of sialic acids in fibroblasts confirmed deficient Golgi glycosylation, which was restored by lentiviral transduction with wild-type TMEM199. V5-tagged TMEM199 localized with ERGIC and COPI markers in HeLa cells, and electron microscopy of a liver biopsy showed dilated organelles suggestive of the endoplasmic reticulum and Golgi apparatus. In conclusion, we have identified TMEM199 as a protein involved in Golgi homeostasis and show that TMEM199 deficiency results in a hepatic phenotype with abnormal glycosylation. 相似文献
35.
David Ochoa Mindaugas Jonikas Robert T Lawrence Bachir El Debs Joel Selkrig Athanasios Typas Judit Villén Silvia DM Santos Pedro Beltrao 《Molecular systems biology》2016,12(12)
The coordinated regulation of protein kinases is a rapid mechanism that integrates diverse cues and swiftly determines appropriate cellular responses. However, our understanding of cellular decision‐making has been limited by the small number of simultaneously monitored phospho‐regulatory events. Here, we have estimated changes in activity in 215 human kinases in 399 conditions derived from a large compilation of phosphopeptide quantifications. This atlas identifies commonly regulated kinases as those that are central in the signaling network and defines the logic relationships between kinase pairs. Co‐regulation along the conditions predicts kinase–complex and kinase–substrate associations. Additionally, the kinase regulation profile acts as a molecular fingerprint to identify related and opposing signaling states. Using this atlas, we identified essential mediators of stem cell differentiation, modulators of Salmonella infection, and new targets of AKT1. This provides a global view of human phosphorylation‐based signaling and the necessary context to better understand kinase‐driven decision‐making. 相似文献
36.
ABSTRACT: MotivationMethods for simulating the kinetic folding of RNAs by numerically solving the chemical master equation have been developed since the late 90's, notably the programs Kinfold and Treekin with Barriers that are available in the Vienna RNA package. Our goal is to formulate extensions to the algorithms used, starting from the Gillespie algorithm, that will allow numerical simulations of mid-size (~ 60--150 nt) RNA kinetics in some practical cases where numerous distributions of folding times are desired. These extensions can contribute to analyses and predictions of RNA folding in biologically significant problems. RESULTS: By describing in a particular way the reduction of numerical simulations of RNA folding kinetics into the Gillespie stochastic simulation algorithm for chemical reactions, it is possible to formulate extensions to the basic algorithm that will exploit memoization and parallelism for efficient computations. These can be used to advance forward from the small examples demonstrated to larger examples of biological interest.SoftwareThe implementation that is described and used for the Gillespie algorithm is freely available by contacting the authors, noting that the efficient procedures suggested may also be applicable along with Vienna's Kinfold. 相似文献
37.
Variations among cell lines in the synthesis of sphingolipids in de novo and recycling pathways 总被引:1,自引:0,他引:1
There are several pathways for the incorporation of sugars into
glycosphingolipids (GSL). Sugars can be added to ceramide that contains
sphinganine (dihydrosphingosine) synthesized de novo (pathway 1), to
ceramide synthesized from sphingoid bases produced by hydrolysis of
sphingolipids (pathway 2), and into GSL recycling from the endosomal
pathway through the Golgi (pathway 3). We reported previously the
surprising observation that SW13 cells, a human adrenal carcinoma cell
line, synthesize most of their GSL in pathway 2. We now present data on the
synthesis of GSL in four additional cell lines. Approximately 90% of sugar
incorporation took place in pathway 2, and 10% or less in pathway 1, in
human foreskin fibroblasts and NB41A3 neuroblastoma cells. In contrast,
approximately 50-90% of sugar incorporation took place in pathway 1 in
C2C12 myoblasts. The C2C12 cells divide more rapidly and synthesize 10-14
times as much GSL as the other three cell lines. In C6 glioma cells,
approximately 30% of sugar incorporation occurred in pathway 1 and 60% in
pathway 2. There was no relation between the utilization of pathways for
GSL and sphingomyelin synthesis in foreskin fibroblasts and C2C12 cells. In
both cells pathways 1 and 2 each accounted for 50% of incorporation of
choline into sphingomyelin. In five of the six cell lines that we have
studied, most GSL synthesis takes place in pathway 2. We suggest that when
the need for synthesis is relatively low, as in slowly dividing cells, GSL
are synthesized predominantly from sphingoid bases salvaged from the
hydrolytic pathway. When cells are dividing more rapidly, the need for
increased synthesis is met by upregulating the de novo pathway.
相似文献
38.
Pía Villanueva Ron Nudel Alexander Hoischen María Angélica Fernández Nuala H. Simpson Christian Gilissen Rose H. Reader Lillian Jara María Magdalena Echeverry Clyde Francks Gillian Baird Gina Conti-Ramsden Anne O’Hare Patrick F. Bolton Elizabeth R. Hennessy SLI Consortium Hernán Palomino Luis Carvajal-Carmona Joris A. Veltman Jean-Baptiste Cazier Zulema De Barbieri Simon E. Fisher Dianne F. Newbury 《PLoS genetics》2015,11(6)
39.
40.
Patr��cia F N Fa��sca Ana Nunes Rui DM Travasso Eugene I Shakhnovich 《Protein science : a publication of the Protein Society》2010,19(11):2196-2209
Systematic Monte Carlo simulations of simple lattice models show that the final stage of protein folding is an ordered process where native contacts get locked (i.e., the residues come into contact and remain in contact for the duration of the folding process) in a well‐defined order. The detailed study of the folding dynamics of protein‐like sequences designed as to exhibit different contact energy distributions, as well as different degrees of sequence optimization (i.e., participation of non‐native interactions in the folding process), reveals significant differences in the corresponding locking scenarios—the collection of native contacts and their average locking times, which are largely ascribable to the dynamics of non‐native contacts. Furthermore, strong evidence for a positive role played by non‐native contacts at an early folding stage was also found. Interestingly, for topologically simple target structures, a positive interplay between native and non‐native contacts is observed also toward the end of the folding process, suggesting that non‐native contacts may indeed affect the overall folding process. For target models exhibiting clear two‐state kinetics, the relation between the nucleation mechanism of folding and the locking scenario is investigated. Our results suggest that the stabilization of the folding transition state can be achieved through the establishment of a very small network of native contacts that are the first to lock during the folding process. 相似文献