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1.
Fu Gao Pierre Chambon George Tellides Wei Kong Xiaoming Zhang Wei Li 《Biochemical and biophysical research communications》2014
Transforming growth factor-β (TGF-β) signaling has been prominently implicated in the pathogenesis of vascular remodeling, especially the initiation and progression of flow-induced vascular remodeling. Smooth muscle cells (SMCs) are the principal resident cells in arterial wall and are critical for arterial remodeling. However, the role of TGF-β signaling in SMC for flow-induced vascular remodeling remains unknown. Therefore, the goal of our study was to determine the effect of TGF-β pathway in SMC for vascular remodeling, by using a genetical smooth muscle-specific (SM-specific) TGF-β type II receptor (Tgfbr2) deletion mice model. Mice deficient in the expression of Tgfbr2 (MyhCre.Tgfbr2f/f) and their corresponding wild-type background mice (MyhCre.Tgfbr2WT/WT) underwent partial ligation of left common carotid artery for 1, 2, or 4 weeks. Then the carotid arteries were harvested and indicated that the disruption of Tgfbr2 in SMC provided prominent inhibition of vascular remodeling. And the thickening of carotid media, proliferation of SMC, infiltration of macrophage, and expression of matrix metalloproteinase (MMP) were all significantly attenuated in Tgfbr2 disruption mice. Our study demonstrated, for the first time, that the TGF-β signaling in SMC plays an essential role in flow-induced vascular remodeling and disruption can prevent this process. 相似文献
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Magdalena Guardiola María Jesús Uriz Pierre Taberlet Eric Coissac Owen Simon Wangensteen Xavier Turon 《PloS one》2015,10(10)
Marine sediments are home to one of the richest species pools on Earth, but logistics and a dearth of taxonomic work-force hinders the knowledge of their biodiversity. We characterized α- and β-diversity of deep-sea assemblages from submarine canyons in the western Mediterranean using an environmental DNA metabarcoding. We used a new primer set targeting a short eukaryotic 18S sequence (ca. 110 bp). We applied a protocol designed to obtain extractions enriched in extracellular DNA from replicated sediment corers. With this strategy we captured information from DNA (local or deposited from the water column) that persists adsorbed to inorganic particles and buffered short-term spatial and temporal heterogeneity. We analysed replicated samples from 20 localities including 2 deep-sea canyons, 1 shallower canal, and two open slopes (depth range 100–2,250 m). We identified 1,629 MOTUs, among which the dominant groups were Metazoa (with representatives of 19 phyla), Alveolata, Stramenopiles, and Rhizaria. There was a marked small-scale heterogeneity as shown by differences in replicates within corers and within localities. The spatial variability between canyons was significant, as was the depth component in one of the canyons where it was tested. Likewise, the composition of the first layer (1 cm) of sediment was significantly different from deeper layers. We found that qualitative (presence-absence) and quantitative (relative number of reads) data showed consistent trends of differentiation between samples and geographic areas. The subset of exclusively benthic MOTUs showed similar patterns of β-diversity and community structure as the whole dataset. Separate analyses of the main metazoan phyla (in number of MOTUs) showed some differences in distribution attributable to different lifestyles. Our results highlight the differentiation that can be found even between geographically close assemblages, and sets the ground for future monitoring and conservation efforts on these bottoms of ecological and economic importance. 相似文献
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We review some of the older literature concerning metabolic turnover of cholesterol in the nervous system. The overall picture
is that incorporation of radioactive precursors into brain cholesterol is roughly proportional to the rate of myelination
and that, once incorporated, radioactive cholesterol is relatively stable metabolically. We outline a strategy for demonstrating
the source (local synthesis or uptake from the circulation) of cholesterol in brain. The experimental design involves determining
the rate of accumulation of cholesterol this is calculated as the increasing amounts of sterol in brain at successive time
intervals during development. The rate of appearance of newly synthesized cholesterol is determined from incorporation of
radioactivity from3H2O (injected i.p. several hours prior to sacrifice) into cholesterol. The radioactivity associated with the sterol fractions
and the specific activity of body water determined from the serum can be used to calculate the absolute amount of sterol newly
synthesized during the time when3H2O was present. The results obtained demonstrated that all of the bulk cholesterol accumulating in brain can be accounted for
by newly synthesized cholesterol. None of the radioactive cholesterol came from the circulation, since cholesterol feeding
suppressed cholesterol biosynthesis in the liver and specific radioactivity of circulating cholesterol was negligible. Thus,
almost all cholesterol accumulating in brain during development is locally synthesized.
Special issue dedicated to Dr. Marion R. Smith. 相似文献
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Audrey Montersino Anna Brachet Géraldine Ferracci Marie‐Pierre Fache Stephanie Angles d'Ortoli Wenjing Liu Fanny Rueda‐Boroni Francis Castets Bénédicte Dargent 《Journal of neurochemistry》2014,131(1):33-41
The tetrodotoxin‐resistant (TTX‐R) voltage‐gated sodium channel Nav1.8 is predominantly expressed in peripheral afferent neurons, but in case of neuronal injury an ectopic and detrimental expression of Nav1.8 occurs in neurons of the CNS. In CNS neurons, Nav1.2 and Nav1.6 channels accumulate at the axon initial segment, the site of the generation of the action potential, through a direct interaction with the scaffolding protein ankyrin G (ankG). This interaction is regulated by protein kinase CK2 phosphorylation. In this study, we quantitatively analyzed the interaction between Nav1.8 and ankG. GST pull‐down assay and surface plasmon resonance technology revealed that Nav1.8 strongly and constitutively interacts with ankG, in comparison to what observed for Nav1.2. An ion channel bearing the ankyrin‐binding motif of Nav1.8 displaced the endogenous Nav1 accumulation at the axon initial segment of hippocampal neurons. Finally, Nav1.8 and ankG co‐localized in skin nerves fibers. Altogether, these results indicate that Nav1.8 carries all the information required for its localization at ankG micro‐domains. The constitutive binding of Nav1.8 with ankG could contribute to the pathological aspects of illnesses where Nav1.8 is ectopically expressed in CNS neurons.
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