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81.
Photoaffinity Labeling and Electrophoretic Identification of the H1 -Receptor: Comparison of Several Brain Regions and Animal Species 总被引:1,自引:1,他引:0
Abstract: The photoaffinity probe [l25 I]iodoazidophen-pyramine was used to label irreversibly the H1 -receptor in membranes of several guinea pig brain regions and of the cerebral cortex of the rat, mouse, and pig. Following sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis, two main bands were specifically labeled in all tissues: a 56-kilodalton (kDa) peptide and a 41-47-kDa peptide whose relative importance diminished in the presence of protease inhibitors. This indicates that, in all tissues examined, in spite of evidence for pharmacological heterogeneity, the ligand recognition domain of the H1 -receptor resides in a 56-kDa peptide. 相似文献
82.
Martial Guillaud Timon P. H. Buys Anita Carraro Jagoda Korbelik Michele Follen Michael Scheurer Karen Adler Storthz Dirk van Niekerk Calum E. MacAulay 《PloS one》2014,9(9)
Accurate cervical intra-epithelial neoplasia (CIN) lesion grading is needed for effective patient management. We applied computer-assisted scanning and analytic approaches to immuno-stained CIN lesion sections to more accurately delineate disease states and decipher cell proliferation impacts from HPV and smoking within individual epithelial layers. A patient cohort undergoing cervical screening was identified (n = 196) and biopsies of varying disease grades and with intact basement membranes and epithelial layers were obtained (n = 261). Specimens were sectioned, stained (Mib1), and scanned using a high-resolution imaging system. We achieved semi-automated delineation of proliferation status and epithelial cell layers using Otsu segmentation, manual image review, Voronoi tessellation, and immuno-staining. Data were interrogated against known status for HPV infection, smoking, and disease grade. We observed increased cell proliferation and decreased epithelial thickness with increased disease grade (when analyzing the epithelium at full thickness). Analysis within individual cell layers showed a ≥50% increase in cell proliferation for CIN2 vs. CIN1 lesions in higher epithelial layers (with minimal differences seen in basal/parabasal layers). Higher rates of proliferation for HPV-positive vs. -negative cases were seen in epithelial layers beyond the basal/parabasal layers in normal and CIN1 tissues. Comparing smokers vs. non-smokers, we observed increased cell proliferation in parabasal (low and high grade lesions) and basal layers (high grade only). In sum, we report CIN grade-specific differences in cell proliferation within individual epithelial layers. We also show HPV and smoking impacts on cell layer-specific proliferation. Our findings yield insight into CIN progression biology and demonstrate that rigorous, semi-automated imaging of histopathological specimens may be applied to improve disease grading accuracy. 相似文献
83.
84.
Masdeu C Faure H Coulombe J Schoenfelder A Mann A Brabet I Pin JP Traiffort E Ruat M 《Biochemical and biophysical research communications》2006,349(2):471-479
The seven-transmembrane receptor Smoothened (Smo) transduces the signal initiated by Hedgehog (Hh) morphogen binding to the receptor Patched (Ptc). We have reinvestigated the pharmacological properties of reference molecules acting on the Hh pathway using various Hh responses and a novel functional assay based on the coexpression of Smo with the alpha subunit of the G15 protein in HEK293 cells. The measurement of inositol phosphate (IP) accumulation shows that Smo has constitutive activity, a response blocked by Ptc which indicates a functional Hh receptor complex. Interestingly, the antagonists cyclopamine, Cur61414, and SANT-1 display inverse agonist properties and the agonist SAG has no effect at the Smo-induced IP response, but converts Ptc-mediated inactive forms of Smo into active ones. An oncogenic Smo mutant does not mediate an increase in IP response, presumably reflecting its inability to reach the cell membrane. These studies identify novel properties of molecules displaying potential interest in the treatment of various cancers and brain diseases, and demonstrate that Smo is capable of signaling through G15. 相似文献
85.
Cell substratum adhesion influences a variety of processes including motility, proliferation and survival. In recent years, it has become clear that there are proteins that are capable of shuttling between cell adhesion zones and the nucleus, providing a mechanism for transcellular coordination and communication. Recent findings have given insight into the physiological signals that trigger trafficking of focal adhesion constituents to the nucleus, where they make diverse contributions to the control of gene expression. 相似文献
86.
Martial Séveno Aline Voxeur Christophe Rihouey Ai-Min Wu Tadashi Ishii Christian Chevalier Marie Christine Ralet Azeddine Driouich Alan Marchant Patrice Lerouge 《Planta》2009,230(5):947-957
Rhamnogalacturonan II (RG-II) is a structurally complex cell wall pectic polysaccharide. Despite its complexity, both the
structure of RG-II and its ability to dimerise via a borate diester are conserved in vascular plants suggesting that RG-II has a fundamental role in primary cell wall organisation
and function. The selection and analysis of new mutants affected in RG-II formation represents a promising strategy to unravel
these functions and to identify genes encoding enzymes involved in RG-II biosynthesis. In this paper, a novel fingerprinting
strategy is described for the screening of RG-II mutants based on the mild acid hydrolysis of RG-II coupled to the analysis
of the resulting fragments by mass spectrometry. This methodology was developed using RG-II fractions isolated from citrus
pectins and then validated for RG-II isolated from the Arabidopsis
mur1 mutant and irx10 irx10-like double mutant. 相似文献
87.
Martial Marbouty Khalil Mazouni Cyril Saguez Corinne Cassier-Chauvat Franck Chauvat 《Journal of bacteriology》2009,191(16):5123-5133
Because very little is known about cell division in noncylindrical bacteria and cyanobacteria, we investigated 10 putative cytokinetic proteins in the unicellular spherical cyanobacterium Synechocystis strain PCC 6803. Concerning the eight penicillin-binding proteins (PBPs), which define three classes, we found that Synechocystis can survive in the absence of one but not two PBPs of either class A or class C, whereas the unique class B PBP (also termed FtsI) is indispensable. Furthermore, we showed that all three classes of PBPs are required for normal cell size. Similarly, the putative FtsQ and FtsW proteins appeared to be required for viability and normal cell size. We also used a suitable bacterial two-hybrid system to characterize the interaction web among the eight PBPs, FtsQ, and FtsW, as well as ZipN, the crucial FtsZ partner that occurs only in cyanobacteria and plant chloroplasts. We showed that FtsI, FtsQ, and ZipN are self-interacting proteins and that both FtsI and FtsQ interact with class A PBPs, as well as with ZipN. Collectively, these findings indicate that ZipN, in interacting with FtsZ and both FtsI and FtQ, plays a similar role to the Escherichia coli FtsA protein, which is missing in cyanobacteria and chloroplasts.The peptidoglycan layer (PG) of bacterial cell wall is a major determinant of cell shape, and the target of our best antibiotics. It is built from long glycan strands of repeating disaccharides cross-linked by short peptides (38). The resultant meshwork structure forms a strong and elastic exoskeleton essential for maintaining shape and withstanding intracellular pressure. Cell morphogenesis and division have been essentially studied in the rod-shaped organisms Escherichia coli and Bacillus subtilis, which divide through a single medial plane (8, 10, 21, 23). These organisms have two modes of cell wall synthesis: one involved in cell elongation and the second operating in septation (2). Each mode of synthesis is ensured by specific protein complexes involving factors implicated in the last step of PG synthesis (2). The complete assembly of PG requires a glycosyl transferase that polymerizes the glycan strands and a transpeptidase that cross-links them via their peptide side chains (35). Both activities are catalyzed by penicillin-binding proteins (PBPs), which can be divided into three classes: class A and class B high-molecular-weight (HMW) PBPs and class C low-molecular-weight (LMW) PBPs (35).Class A PBPs exhibit both transglycosylase and transpeptidase activities. In E. coli, they seem to be nonspecialized (2), as they operate in the synthesis of both cylindrical wall (cell elongation) and septal PG (cytokinesis). In B. subtilis, PBP1 (class A) is partially localized to septal sites and its depletion leads to cell division defects (31).Class B PBPs, which comprise two proteins in most bacteria, are monofunctional transpeptidases (35), each involved in longitudinal and septal growth of cell wall, respectively (36). In E. coli, this protein, PBP3, is also termed FtsI, because it belongs to the Fts group of cell division factors whose depletion leads to the filamentation phenotype (11). These at least 10 Fts proteins are recruited to the division site at mid-cell in the following sequential order: FtsZ, FtsA, ZipA, FtsK, FtsQ, FtsL/FtsB, FtsW, FtsI, and FtsN (11). The cytoplasmic protein FtsZ is the first recruited to the division site, where it polymerizes in a ring-like structure (1), which serves as a scaffold for the recruitment of the other Fts proteins and has been proposed to drive the division process (6). Together the Fts proteins form a complex machine coordinating nucleoid segregation, membrane constriction, septal PG synthesis, and possibly membrane fusion.Unlike the other PBPs, class C PBPs do not operate in PG synthesis but rather in maturation or recycling of PG during cell septation (35). They are subdivided into four types. Class C type 5 PBP removes the terminal d-alanine residue from pentapeptide side-chains (dd-carboxypeptidase activity). Types 4 and 7 are able to cleave the peptide cross-links (endopeptidase activity). Finally, type AmpH, which does not have a defined enzymatic activity, is believed to play a role in the normal course of PG synthesis, remodeling or recycling (for a review, see reference 35).In contrast to rod-shaped bacteria, less is known concerning PG synthesis, morphogenesis, and cytokinesis, and their relationships, in spherical-celled bacteria, even though a wealth of them have a strong impact on the environment and/or human health. Furthermore, unlike rod-shaped bacteria spherical-celled bacteria possess an infinite number of potential division planes at the point of greater cell diameter, and they divide through alternative perpendicular planes (26, 36, 37, 39). The spherical cells of Staphylococcus aureus seem to insert new PG strands only at the septum, and accordingly the unique class A PBP localizes at the septum during cell division (36). In contrast, the rugby-ball-shaped cells of Streptococcus pneumoniae synthesize cell wall at both the septum and the neighboring region called “equatorial rings” (36). Accordingly, class A PBP2a and PBP1a were found to operate in elongation and septation, respectively (29).In cyanobacteria, which are crucial to the biosphere in using solar energy to renew the oxygenic atmosphere and which make up the biomass for the food chain (7, 30, 40), cell division is currently investigated in two unicellular models with different morphologies: the rod-shaped Synechococcus elongatus strain PCC 7942 (19, 28) and the spherical-celled Synechocystis strain PCC 6803 (26), which both possess a small fully sequenced genome (http://genome.kazusa.or.jp/cyanobase/) that is easily manipulable (18). In both organisms FtsZ and ZipN/Arc6, a protein occurring only in cyanobacteria (ZipN) and plant chloroplasts (Arc6), were found to be crucial for cytokinesis (19, 26, 28) and to physically interact with each other (25, 26). Also, interestingly, recent studies of cell division in the filamentous cyanobacterium Anabaena (Nostoc) strain PCC 7120, showed that this process is connected with the differentiation of heterocysts, the cells dedicated to nitrogen fixation (34).In a continuous effort to study the cell division machine of the unicellular spherical cyanobacterium Synechocystis, we have presently characterized its eight presumptive PBPs (22) that define three classes and the putative cytokinetic proteins FtsQ and FtsW, as well as their network of interactions between each other and ZipN. Both FtsI and FtsQ were found to be key players in cell division in interacting with ZipN and class A PBPs. Consequently, ZipN in interacting with FtsZ (26), FtsI, and FtQ, like the FtsA protein of E. coli, could play a role similar to FtsA, which is absent in cyanobacteria and chloroplasts. 相似文献
88.
Martial Marbouty Cyril Saguez Corinne Cassier-Chauvat Franck Chauvat 《Journal of bacteriology》2009,191(19):6178-6185
Assembly of the tubulin-like cytoskeletal protein FtsZ into a ring structure at midcell establishes the location of the nascent division sites in prokaryotes. However, it is not yet known how the assembly and contraction of the Z ring are regulated, especially in cyanobacteria, the environmentally crucial organisms for which only one FtsZ partner protein, ZipN, has been described so far. Here, we characterized SepF and Ftn6, two novel septal proteins, in the spherical-celled strain Synechocystis PCC 6803. Both proteins were found to be indispensable to Synechocystis sp. strain PCC 6803. The depletion of both SepF and Ftn6 resulted in delayed cytokinesis and the generation of giant cells but did not prevent FtsZ polymerization, as shown by the visualization of green fluorescent protein (GFP)-tagged FtsZ polymers. These GFP-tagged Z-ring-like structures often appeared to be abnormal, because these reporter cells respond to the depletion of either SepF or Ftn6 with an increased abundance of total, natural, and GFP-tagged FtsZ proteins. In agreement with their septal localization, we found that both SepF and Ftn6 interact physically with FtsZ. Finally, we showed that SepF, but not Ftn6, stimulates the formation and/or stability of FtsZ polymers in vitro.Binary fission of a mother cell to form two daughter cells is a widely conserved cell proliferation mechanism. In nearly all bacteria, cell division is initiated by the polymerization into a ring-like structure at midcell of the tubulin homolog GTPase protein FtsZ, which is also found in some archae, as well as in plastids and some mitochondria (for reviews, see references 7, 21, and 33). The Z-ring is subsequently used as a scaffold for recruitment of downstream factors that execute the synthesis of the division septum. The assembly of this complex, also referred to as the divisome, has been thoroughly investigated in studies of the rod-shaped model organisms Escherichia coli and Bacillus subtilis) (for reviews, see references 3, 4, 7, 9, 11, 19, and 21). In E. coli, more than 10 different proteins are required for the progression and completion of cell division. They are designated Fts proteins because their depletion leads to filamentation of the bacteria, and they are recruited to the division site in the following sequential order: FtsZ→FtsA/ZipA/ZapB→FtsK→FtsQ and FtsL/FtsB→FtsW→FtsI and FtsN.The stability of the FtsZ protofilaments is thought to be important for assembly of the septal Z ring. Four FtsZ-interacting proteins have been shown to promote FtsZ polymerization and/or Z-ring stabilization, namely, ZapA and ZipA (found only in gammaproteobacteria), FtsA (an actin-like protein), and SepF (not found in gammaproteobacteria) (10, 31). Both FtsA and ZipA assemble at the Z-ring early and participate in its anchorage to the inner face of the cytoplasmic membrane of the cell. They also participate in the recruitment of the downstream cytokinetic factor FtsK. Subsequently, the recruitment of FtsQ and the FtsB/FtsL complex allow the progressive assembly of downstream factors (FtsW, FtsI, and FtsN) involved in synthesis of the septal cell wall (7).By contrast, the negative regulatory proteins MinCDE, DivIVA, EzrA, SulA, and Noc operate in the destabilization and positioning of the Z-ring at midcell (7, 21, 30), sometimes through a direct interaction with FtsZ (SulA, MinC, and ErzA).Little is known concerning cell division in cyanobacteria, in spite of their crucial importance to the biosphere (5, 27, 34) and their interest for biotechnologists (1, 6, 32). Cyanobacteria are also attractive because many species (such as E. coli and B. subtilis) exhibit a cylindrical morphology with a well-defined middle, whereas many others have a spherical shape (29) and thus possess an infinite number of potential division planes at the point of greatest cell diameter. Furthermore, as the progenitor of the chloroplasts (8), cyanobacteria can be of help for deciphering the stromal chloroplastic division machinery (33). Interestingly, several cell division factors occurring in E. coli and B. subtilis have been shown (FtsZ, MinCDE, and SulA) or proposed (FtsE, FtsI, FtsQ, and FtsW) to be conserved in cyanobacteria (23, 26) and chloroplasts (which lack MinC) (33). In contrast, ftsA, ftsB, zipA, ftsK, ftsL, ftsN, and zapA have not been detected in cyanobacteria.So far, cyanobacterial cytokinesis has mainly been investigated using the two unicellular species Synechococcus sp. strain PCC 7942 (rod shaped; hereafter S. elongatus) and Synechocystis sp. strain PCC 6803 (spherical-celled; hereafter Synechocystis sp.) and the filamentous strain Anabaena PCC 7120, all of which possess a fully sequenced genome (http://genome.kazusa.or.jp/cyanobase/) that is easily manipulated (16). Both FtsZ and ZipN/Ftn2/Arc6, a protein occurring only in cyanobacteria (ZipN [alternative name, Ftn2]) and plant chloroplasts (Arc6), were found to be crucial for cytokinesis (17, 23, 26) and to physically interact with each other (20, 23). We also reported that the MinCDE system participates in determining the correct positioning of the septal Z ring at midcell (23). In addition, it has recently been shown in studies of Synechococcus sp. that inactivation of both the cdv2 gene (an orthologue of the gene encoding B.subtilis sepF) and the ftn6 gene (present in only some cyanobacteria) promotes filamentation, though their role in cell division has yet to be characterized (16, 26).In a continuous effort to characterize the divisome machine of Synechocystis sp., we have used a combination of in vivo and in vitro techniques for thorough analysis of the SepF and Ftn6 proteins. We report here that both SepF and Ftn6 are crucial cytokinetic proteins that localize at the division site at midcell and whose depletion leads to the formation of giant cells that remain spherical. In agreement with their septal localization, both SepF and Ftn6 were found to interact physically with FtsZ; also, SepF, but not Ftn6, was found to stimulate the formation and/or stability of FtsZ polymers. 相似文献
89.
There is growing interest in incorporating economic factors into epidemiological models in order to identify optimal strategies for disease control when resources are limited. In this paper we consider how to optimize the control of a pathogen that is capable of infecting multiple hosts with different rates of transmission within and between species. Our objective is to find control strategies that maximize the discounted number of healthy individuals. We consider two classes of host-pathogen system, comprising two host species and a common pathogen, one with asymmetrical and the other with symmetrical transmission rates, applicable to a wide range of SI (susceptible-infected) epidemics of plant and animal pathogens. We motivate the analyses with an example of sudden oak death in California coastal forests, caused by Phytophthora ramorum, in communities dominated by bay laurel (Umbellularia californica) and tanoak (Lithocarpus densiflorus). We show for the asymmetric case that it is optimal to give priority in treating disease to the more infectious species, and to treat the other species only when there are resources left over. For the symmetric case, we show that although a switching strategy is an optimum, in which preference is first given to the species with the lower level of susceptibles and then to the species with the higher level of susceptibles, a simpler strategy that favors treatment of infected hosts for the more susceptible species is a robust alternative for practical application when the optimal switching time is unknown. Finally, since transmission rates are notoriously difficult to estimate, we analyze the robustness of the strategies when the true state with respect to symmetry or otherwise is unknown but one or other is assumed. 相似文献
90.
Martial Rey Petr Man Benjamin Clémen?on Véronique Trézéguet Gérard Brandolin Eric Forest Ludovic Pelosi 《The Journal of biological chemistry》2010,285(45):34981-34990
The mitochondrial adenine nucleotide carrier (Ancp) catalyzes the transport of ADP and ATP across the mitochondrial inner membrane, thus playing an essential role in cellular energy metabolism. During the transport mechanism the carrier switches between two different conformations that can be blocked by two toxins: carboxyatractyloside (CATR) and bongkrekic acid. Therefore, our understanding of the nucleotide transport mechanism can be improved by analyzing structural differences of the individual inhibited states. We have solved the three-dimensional structure of bovine carrier isoform 1 (bAnc1p) in a complex with CATR, but the structure of the carrier-bongkrekic acid complex, and thus, the detailed mechanism of transport remains unknown. Improvements in sample processing in the hydrogen/deuterium exchange technique coupled to mass spectrometry (HDX-MS) have allowed us to gain novel insights into the conformational changes undergone by bAnc1p. This paper describes the first study of bAnc1p using HDX-MS. Results obtained with the CATR-bAnc1p complex were fully in agreement with published results, thus, validating our approach. On the other hand, the HDX kinetics of the two complexes displays marked differences. The bongkrekic acid-bAnc1p complex exhibits greater accessibility to the solvent on the matrix side, whereas the CATR-bAnc1p complex is more accessible on the intermembrane side. These results are discussed with respect to the structural and biochemical data available on Ancp. 相似文献