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1.
The tandem PDZ domains of syntenin promote cell invasion 总被引:1,自引:0,他引:1
Meerschaert K Bruyneel E De Wever O Vanloo B Boucherie C Bracke M Vandekerckhove J Gettemans J 《Experimental cell research》2007,313(9):1790-1804
Syntenin is a tandem PDZ protein that has recently been shown to be overexpressed in several cancer cells and tissues, and that might play an active role in tumor cell invasion and metastasis. Here we show that overexpression of the tandem PDZ domains of syntenin in non-invasive cells is necessary and sufficient to stimulate these cells to invade a collagen I matrix, and this effect can be regulated by ligand binding to the PDZ domains. Furthermore, we show that syntenin-induced invasion requires signaling through ras, rho and PI3K/MAPK signaling pathways and involves changes in cell-cell adhesion. Inversely, when we used RNA interference to inhibit syntenin expression in different invasive cancer cell lines, we observed a drastically decreased ability of these cells to migrate and invade into collagen type I or Matrigel. RNAi-treated cells also show increased cell aggregation, indicating that syntenin is important for cell-cell adhesion in epithelial cells. Together, these results suggest that downregulation of syntenin by RNA interference could provide a means of inhibiting tumor invasion and possibly metastasis in different cancers, and point to syntenin as a potential cancer biomarker and drug target. 相似文献
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L. Verdoodt A. Van Haute I. J. Goderis K. De Witte J. Keulemans W. Broothaerts 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1998,96(2):294-300
To obtain homozygous genotypes of apple, we have induced haploid development of either the female or the male gametes by
parthenogenesis in situ and anther culture, respectively. Of the shoots obtained, which were mainly of a non-haploid nature,
some could be derived from fertilised egg cells or from sporophytic anther tissue. In order to select the shoots having a
true haploid origin, and thus homozygotes, we decided to use the single multi-allelic self-incompatibility gene as a molecular
marker to discriminate homozygous from heterozygous individuals. The rationale behind this approach was that diploid apple
cultivars contain 2 different alleles of the S-gene and therefore the haploid induced shoots obtained from them should have only one of the alleles of the single parent.
The parental cultivars used were ‘Idared’ (parthenogenesis in situ) and ‘Braeburn’ (androgenesis), and their S-genotypes were known, except for 1 of the ‘Braeburn’S-alleles. To stimulate parthenogenetic development ‘Idared’ styles were pollinated with irradiated ‘Baskatong’ pollen, the
S-alleles of the latter (2n) cultivar were also unknown. The cloning and sequence analysis of these 3 unidentified S-alleles, 1 from ‘Braeburn’ and 2 from ‘Baskatong’ is described, and we show that they correspond to the S
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-, S
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- and S
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-alleles. We have optimised a method for analysis of the S-alleles of ‘Idared/Baskatong’- or ‘Braeburn’-derived in vitro plant tissues and have shown that this approach can be applied
for the screening of the in vitro shoots for their haploid origin.
Received: 18 August 1997 / Accepted: 10 September 1997 相似文献
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Johan Ceusters Anne M. Borland Elsje Londers Veerle Verdoodt Christof Godts Maurice P. De Proft 《Physiologia plantarum》2009,135(2):174-184
CAM requires a substantial investment of resources into storage carbohydrates to account for nocturnal CO2 uptake, thereby restricting carbohydrate partitioning to other metabolic activities, including dark respiration, growth and acclimation to abiotic stress. Flexible modulation of carbon flow to the different competing sinks under changing environmental conditions is considered a key determinant for the growth, productivity and ecological success of the CAM pathway. The aim of the present study was to examine how shifts in carbohydrate partitioning could assure maintenance of photosynthetic integrity and a positive carbon balance under conditions of increasing water deprivation in CAM species. Measurements of gas exchange, leaf water relations, malate, starch and soluble sugar (glucose, fructose and sucrose) contents were made in leaves of the CAM bromeliad Aechmea ‘Maya’ over a 6‐month period of drought and subsequently over a 2‐month period of recovery from drought. Results indicated that short‐term influences of water stress were minimized by elevating the level of respiratory recycling, and carbohydrate pools were maintained at the expense of export for growth while providing a comparable nocturnal carbon gain to that in well‐watered control plants. Longer term drought resulted in a disproportionate depletion of key carbohydrate reserves. Sucrose, which was of minor importance for providing substrate for the dark reactions under well‐watered conditions, became the major source of carbohydrate for nocturnal carboxylation as drought progressed. Flexibility in terms of the major carbohydrate source used to sustain dark CO2 uptake is therefore considered a crucial factor in meeting the carbon and energy demands under limiting environmental conditions. Recovery from CAM‐idling was found to be dependent on the restoration of the starch pool, which was used predominantly for provision of substrate for nocturnal carboxylation, while net carbon export was limited. The conservation of starch for the nocturnal reactions might be adaptive with regard to responding efficiently to a return of water stress. 相似文献
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Hanne Steel Freija Verdoodt Andrea Čerevková Marjolein Couvreur Pamela Fonderie Tom Moens Wim Bert 《Invertebrate Biology》2013,132(2):108-119
Nematodes are omnipresent in composts and are active in virtually all stages of the composting process. Major shifts in species composition, life strategies, and feeding behavior occur during the composting process. Due to the heat peak, nematodes can be virtually absent, but several taxa appear immediately when the temperatures drop. These comprise both taxa present before the heat peak and new taxa. However, it is not known how nematodes populate the compost. In this study, we aimed to assess the survival and colonization capacity of nematodes in compost. Our results showed that composting processes inaccessible to insects or not in contact with soil did not significantly influence nematode succession during composting. However, differences between treatments were found for some specific taxa (i.e., for Acrostichus sp., Neodiplogasteridae sp., Nygolaimoides sp., and Rhabditidae sp. 1), illustrating the importance of insects for the dispersal of nematodes to compost. Experiments in the lab with the blue bottle fly as a possible carrier demonstrated actual transport of nematodes isolated from compost by the fly (i.e., Halicephalobus cfr. gingivalis, Diploscapter coronatus, Diplogasteritus sp., Acrostichus sp., and Mesorhabditis sp.). Juveniles and dauer stages of Aphelenchoides sp., Panagrolaimus sp., and rhabditids survived an experimentally induced temperature peak, while members of Tylenchidae did not. In conclusion, our results indicate that the rapidly changing nematode community in compost is the result of both differential survival and colonization capacities. 相似文献
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Patterns of Interallelic Divergence at the Rabbit B-Locus of the Immunoglobulin Light Chain Constant Region Are in Agreement with Population Genetical Evidence for Overdominant Selection
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Population studies at the b-locus of the "constant" regions of the rabbit immunoglobulin kappa 1 light chain (c kappa 1) revealed patterns of gene diversity resembling those that mark the peculiar nature of the major histocompatibility complex, such as large number of alleles, high heterozygosity levels, consistent excess of heterozygous individuals and long allele coalescence times. This paper documents the evolutionary patterns at the b-locus as inferred from DNA sequence comparisons. Among alleles, synonymous substitutions outnumbered expectations for neutral alleles by an order of magnitude. They were distributed randomly throughout the c kappa 1 coding region while interallelic amino acid differences did cluster into segments overlapping with the regions exposed to the solvent. Within these regions, acceptance rates of mutation at amino acid replacement sites were even higher than those at synonymous sites (dr/ds = 1.6-3.0), while in the intervals between these regions the opposite was found (dr/ds approximately 0.3). Under the assumption that allelic variation is adaptive at the molecular surface, the divergence patterns at the b-locus are therefore very similar to those reported for the major histocompatibility complex. An analysis at the quasi silent bas-locus (c kappa 2), which is linked to the b-locus, and comparisons among genes of the "variable" region of the kappa 1 light chains (v kappa 1), revealed patterns of divergence which differed markedly from those observed at the c kappa 1 constant regions. It is suggested that allelic variability at immunoglobulin constant regions can be due to mechanisms similar to those enhancing diversity at histocompatibility loci. 相似文献
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Desmaret S Qian L Vanloo B Meerschaert K Van Damme J Grooten J Vandekerckhove J Prestwich GD Gettemans J 《Biological chemistry》2005,386(11):1137-1147
Lysophosphatidic acid is a pleiotropic lipid signaling molecule that evokes a broad array of cellular responses including proliferation, tumor cell invasion, neurite retraction, cytoskeletal rearrangements and smooth muscle contraction. Generally, lysophosphatidic acid triggers physiological responses through interaction with specific plasma membrane receptors called LPA 1-4. There is, however, increasing evidence in support of intracellular proteins that interact with LPA. We employed Affigel-immobilized LPA to isolate cytoplasmic proteins that interact with this lysophospholipid. Among the proteins retained by this affinity matrix, pyruvate kinase, clathrin heavy chain and heat shock protein 70 (Hsp70) were identified by mass spectrometry. Isothermal titration calorimetry showed that pyruvate kinase contains one binding site for LPA (Ka approx. 10(6) M(-1)). Furthermore, LPA dissociates enzymatically active pyruvate-kinase tetramers into less active dimers, and is maximally active at concentrations close to its critical micelle concentration. These effects were not mimicked by other lysophospholipids. Co-immunoprecipitation experiments showed that pyruvate kinase interacts with clathrin, and confocal imaging revealed co-localization between clathrin and pyruvate kinase in the perinuclear region of cells. Our data suggest that pyruvate kinase partly exists in complex with clathrin in subcellular membranous areas, and that locally increased LPA levels can trigger inactivation of the metabolic enzyme. 相似文献
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Anne Decout Christine Labeur Berlinda Vanloo Marc Goethals Joel Vandekerckhove Robert Brasseur 《Molecular membrane biology》2013,30(3):237-246
Fusogenic peptides belong to a class of helical amphipathic peptides characterized by a hydrophobicity gradient along the long helical axis. According to the prevailing theory regarding the mechanism of action of fusogenic peptides, this hydrophobicity gradient causes the tilted insertion of the peptides in membranes, thus destabilizing the lipid core and, thereby, enhancing membrane fusion. To assess the role of the hydrophobicity gradient upon the fusogenic activity, two of these fusogenic peptides and several variants were synthesized. The LCAT-(57-70) peptide, which is part of the sequence of the lipolytic enzyme lecithin cholesterol acyltransferase, forms stable beta-sheets in lipids, while the apolipoprotein A-II (53-70) peptide remains predominantly helical in membranes. The variant peptides were designed through amino acid permutations, to be either parallel, perpendicular, or to retain an oblique orientation relative to the lipid-water interface. Peptide-induced vesicle fusion was monitored by lipid-mixing experiments, using fluorescent probes, the extent of peptide-lipid association, the conformation of lipid-associated peptides and their orientation in lipids, were studied by Fourier Transformed Infrared Spectroscopy. A comparison of the properties of the wild-type and variant peptides shows that the hydrophobicity gradient, which determines the orientation of helical peptides in lipids and their fusogenic activity, further influences the secondary structure and lipid binding capacity of these peptides. 相似文献