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991.
In multiple sclerosis, microglia/macrophage activation and astrocyte reactivity are important components of the lesion environment that can impact remyelination. The current study characterizes these glial populations relative to expression of candidate regulatory molecules in cuprizone demyelinated corpus callosum. Importantly, periods of recovery after acute or chronic cuprizone demyelination are examined to compare conditions of efficient versus limited remyelination, respectively. Microglial activation attenuates after early demyelination. In contrast, astrocyte reactivity persists throughout demyelination and a 6-week recovery period following either acute or chronic demyelination. This astrocyte reaction is characterized by (a) early proliferation, (b) increased expression of GFAP (glial fibrillary acidic protein), Vim (vimentin), Fn1 (fibronectin) and CSPGs (chondroitin sulphate proteoglycans) and (c) elaboration of a dense network of processes. Glial processes elongated in the axonal plane persist throughout lesion areas during both the robust remyelination that follows acute demyelination and the partial remyelination that follows chronic demyelination. However, prolonged astrocyte reactivity with chronic cuprizone treatment does not progress to barrier formation, i.e. dense compaction of astrocyte processes to wall off the lesion area. Multiple candidate growth factors and inflammatory signals in the lesion environment show strong correlations with GFAP across the acute cuprizone demyelination and recovery time course, yet there is more divergence across the progression of chronic cuprizone demyelination and recovery. However, differential glial scar formation does not appear to be responsible for differential remyelination during recovery in the cuprizone model. The astrocyte phenotype and lesion characteristics in this demyelination model inform studies to identify triggers of non-remyelinating sclerosis in chronic multiple sclerosis lesions. 相似文献
992.
993.
Pierre-Yves Le Meur 《Anthropological Forum》2015,25(4):405-427
In the last 25 years, the mining sector has become an important field of investigation and controversy for anthropologists. As an object, the ‘mine’ itself poses specific problems that make it particularly fertile ground for the exploration of inextricably linked theoretical, methodological, ethical, and political issues. In this paper, I explore the issue of the positionality of anthropologists within the mining arena. The analysis of positionality is taken beyond an individual perspective focusing on ethics, engagement and responsibility, to additionally include discussions of networking, alliance-building and institutionalising processes. I shall begin by dealing with the problems posed by the anthropology of mining and the various perspectives that respond to it. In the second section, I narrow the focus to the case of New Caledonia. In the third section, I present the context and challenges associated with the discussed cases. I portray the cases in question and, in particular, the new arena represented by the National Centre for Technological Research (CNRT) ‘Nickel and its Environment’, an agency established in 2008 to fund research on nickel in New Caledonia. The analysis in terms of a ‘hybrid’ forum of this arena will be complemented by the consideration of the social demand for the anthropology of mining. In the concluding section, the paper outlines options for further research while stressing the need for a balanced, ‘symmetrical’ approach of the multiple actors’ agendas constitutive of the mining arena. 相似文献
994.
Wound signalling in plants 总被引:10,自引:0,他引:10
Plants undergoing the onslaught of wound-causing agents activate mechanisms directed to healing and further defence. Responses to mechanical damage are either local or systemic or both and hence involve the generation, translocation, perception, and transduction of wound signals to activate the expression of wound-inducible genes. Although the central role for jasmonic acid in plant responses to wounding is well established, other compounds, including the oligopeptide systemin, oligosaccharides, and other phytohormones such as abscisic acid and ethylene, as well as physical factors such as hydraulic pressure or electrical pulses, have also been proposed to play a role in wound signalling. Different jasmonic acid-dependent and -independent wound signal transduction pathways have been identified recently and partially characterized. Components of these signalling pathways are mostly similar to those implicated in other signalling cascades in eukaryotes, and include reversible protein phosphorylation steps, calcium/calmodulin-regulated events, and production of active oxygen species. Indeed, some of these components involved in transducing wound signals also function in signalling other plant defence responses, suggesting that cross-talk events may regulate temporal and spatial activation of different defences. 相似文献
995.
996.
Basrur PK Koykul W Baguma-Nibasheka M King WA Ambady S Ponce de León FA 《Molecular reproduction and development》2001,59(1):67-77
Testicular activity and semen characteristics of bulls carrying an X-autosome translocation t(Xp +;23q-) revealed all stages of spermatogenesis although their semen consisted of few and, exclusively, of malformed spermatozoa. Chromosome painting on metaphase spreads of their mother and synaptonemal complex analysis on these and normal bulls were carried out to test whether the location and meiotic pairing behaviour of the rearranged segments could have contributed to the sperm head malformation and oligospermia in our X-autosome translocation (X-AT) carrier bulls. Spermatocytes of X-AT carriers displayed the rearranged chromosomes in a univalent-trivalent association, with 23q- always remaining as a univalent and Xp + in synapsis with normal chromosome 23 and the Y chromosome. Chromosome painting studies to test whether the total absence of meiocytes showing a quadrivalent is due to the non-reciprocal nature of this translocation, identified Xp sequence homology with the distal end of 23q- confirming its relocation to the terminal segment of 23q-. Our synaptonemal complex analyses also confirmed that the bovine pseudo-autosomal region (PAR) is at the distal ends of Xq and Yp and further revealed that over 85% of spermatocytes of X-AT carriers (and up to 13% of spermatocytes of normal bulls) sustain a Y-axis break adjacent to the PAR. Although the exact cause of a Y-axis break in bovine spermatocytes is not known at present, we believe that the break and possible loss of Yq in such high proportions of spermatocytes of X-AT carriers could have contributed to the sperm head malformation and oligospermia in our X-AT carrier bulls. 相似文献
997.
998.
Pombo I Martin-Verdeaux S Iannascoli B Le Mao J Deriano L Rivera J Blank U 《The Journal of biological chemistry》2001,276(46):42893-42900
Following activation through high affinity IgE receptors (FcepsilonRI), mast cells release, within a few minutes, their granule content of inflammatory and allergic mediators. FcepsilonRI-induced degranulation is a SNARE (soluble N-ethylmaleimide attachment protein receptors)-dependent fusion process. It is regulated by Rab3D, a subfamily member of Rab GTPases. Evidence exists showing that Rab3 action is calcium-regulated although the molecular mechanisms remain unclear. To obtain an understanding of Rab3D function we have searched for Rab3D-associated effectors that respond to allergic triggering through FcepsilonRI. Using the RBL-2H3 mast cell line we detected a Ser/Thr kinase activity, termed here Rak3D (from Rab3D-associated kinase), because it was specifically co-immunoprecipitated with anti-Rab3D antibody. Rak3D activity, as measured by its auto- or transphosphorylation, was maximal in resting cells and decreased upon stimulation. The down-regulation of the observed activity was blocked with EGTA, but not with other degranulation inhibitors, suggesting that its activity functions downstream of calcium influx. We found that Rak3D phosphorylates the NH(2)-terminal regulatory domain of the t-SNARE syntaxin 4, but not syntaxin 2 or 3. The phosphorylation of syntaxin 4 decreased its binding to its partner SNAP23. Thus, we propose a novel phosphorylation-dependent mechanism by which Rab3D controls SNARE assembly in a calcium-dependent manner. 相似文献
999.
1000.
Le Gall M Tobin V Stolarczyk E Dalet V Leturque A Brot-Laroche E 《Journal of cellular physiology》2007,213(3):834-843
Sugar consumption and subsequent sugar metabolism are known to regulate the expression of genes involved in intestinal sugar absorption and delivery. Here we investigate the hypothesis that sugar-sensing detectors in membranes facing the intestinal lumen or the bloodstream can also modulate intestinal sugar absorption. We used wild-type and GLUT2-null mice, to show that dietary sugars stimulate the expression of sucrase-isomaltase (SI) and L-pyruvate kinase (L-PK) by GLUT2-dependent mechanisms, whereas the expression of GLUT5 and SGLT1, did not rely on the presence of GLUT2. By providing sugar metabolites, sugar transporters, including GLUT2, fuelled a sensing pathway. In Caco2/TC7 enterocytes, we could disconnect the sensing triggered by detector from that produced by metabolism, and found that GLUT2 generated a metabolism-independent pathway to stimulate the expression of SI and L-PK. In cultured enterocytes, both apical and basolateral fructose could increase the expression of GLUT5, conversely, basolateral sugar administration could stimulate the expression of GLUT2. Finally, we located the sweet-taste receptors T1R3 and T1R2 in plasma membranes, and we measured their cognate G alpha Gustducin mRNA levels. Furthermore, we showed that a T1R3 inhibitor altered the fructose-induced expression of SGLT1, GLUT5, and L-PK. Intestinal gene expression is thus controlled by a combination of at least three sugar-signaling pathways triggered by sugar metabolites and membrane sugar receptors that, according to membrane location, determine sugar-sensing polarity. This provides a rationale for how intestine adapts sugar delivery to blood and dietary sugar provision. 相似文献