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121.
122.
Cellular cytoskeletal remodeling reflects alterations in local biochemical and mechanical changes in terms of stress that
manifests relocation of signaling molecules within and across the cell. Although stretching due to load and chemical changes
by high homocysteine (HHcy) causes cytoskeletal re-arrangement, the synergism between stretch and HHcy is unclear. We investigated
the contribution of HHcy in cyclic stretch-induced focal adhesion (FA) protein redistribution leading to cytoskeletal re-arrangement
in mouse aortic endothelial cells (MAEC). MAEC were subjected to cyclic stretch (CS) and HHcy alone or in combination. The
redistribution of FA protein, and small GTPases were determined by Confocal microscopy and Western blot techniques in membrane
and cytosolic compartments. We found that each treatment induces focal adhesion kinase (FAK) phosphorylation and cytoskeletal
actin polymerization. In addition, CS activates and membrane translocates small GTPases RhoA with minimal effect on Rac1,
whereas HHcy alone is ineffective in both GTPases translocation. However, the combined effect of CS and HHcy activates and
membrane translocates both GTPases. Free radical scavenger NAC (N-Acetyl-Cysteine) inhibits CS and HHcy-mediated FAK phosphorylation
and actin stress fiber formation. Interestingly, CS also activates and membrane translocates another FA protein, paxillin
in HHcy condition. Cytochalasin D, an actin polymerization blocker and PI3-kinase inhibitor Wortmannin inhibited FAK phosphorylation
and membrane translocation of paxillin suggesting the involvement of PI3K pathway. Together our results suggest that CS- and
HHcy-induced oxidative stress synergistically contribute to small GTPase membrane translocation and focal adhesion protein
redistribution leading to endothelial remodeling. 相似文献
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124.
The cystic fibrosis transmembrane conductance regulator (CFTR) undergoes rapid turnover at the plasma membrane in various cell types. The ubiquitously expressed N-WASP promotes actin polymerization and regulates endocytic trafficking of other proteins in response to signaling molecules such as Rho-GTPases. In the present study we investigated the effects of wiskostatin, an N-WASP inhibitor, on the surface expression and activity of CFTR. We demonstrate, using surface biotinylation methods, that the steady-state surface CFTR pool in stably transfected BHK cells was dramatically decreased following wiskostatin treatment with a corresponding increase in the amount of intracellular CFTR. Similar effects were observed for latrunculin B, a specific actin-disrupting reagent. Both reagents strongly inhibited macroscopic CFTR-mediated Cl(-) currents in two cell types including HT29-Cl19A colonic epithelial cells. As previously reported, CFTR internalization from the cell surface was strongly inhibited by a cyclic-AMP cocktail. This effect of cyclic-AMP was only partially blunted in the presence of wiskostatin, which raises the possibility that these two factors modulate different steps in CFTR traffic. In kinetic studies wiskostatin appeared to accelerate the initial rate of CFTR endocytosis as well as inhibit its recycling back to the cell surface over longer time periods. Our studies implicate a role for N-WASP-mediated actin polymerization in regulating CFTR surface expression and channel activity. 相似文献
125.
OBJECTIVE: To analyze neutrophilic phagocytosis by tumor cells in fine needle aspirate (FNA) smears from different types of tumor. STUDY DESIGN: A retrospective review of a total of 7 cases showing prominent neutrophilic phagocytosis by tumor cells in FNA smears during the period July 2003-December 2004. RESULTS: This feature was seen in malignant fibrous histiocytoma and poorly differentiated renal cell carcinoma in addition to giant cell carcinoma of the lung. CONCLUSION: Neutrophilic phagocytosis by tumor cells is seen in FNA smears and on cytomorphology. The differential diagnoses should include both pleomorphic sarcomas and carcinomas. 相似文献
126.
Methylated Cytokinins from the Phytopathogen Rhodococcus fascians Mimic Plant Hormone Activity 总被引:1,自引:0,他引:1
Venkatesan Radhika Nanae Ueda Yuuri Tsuboi Mikiko Kojima Jun Kikuchi Takuji Kudo Hitoshi Sakakibara 《Plant physiology》2015,169(2):1118-1126
Cytokinins (CKs), a class of phytohormones that regulate plant growth and development, are also synthesized by some phytopathogens to disrupt the hormonal balance and to facilitate niche establishment in their hosts. Rhodococcus fascians harbors the fasciation (fas) locus, an operon encoding several genes homologous to CK biosynthesis and metabolism. This pathogen causes unique leafy gall symptoms reminiscent of CK overproduction; however, bacterial CKs have not been clearly correlated with the severe symptoms, and no virulence-associated unique CKs or analogs have been identified. Here, we report the identification of monomethylated N6-(∆2-isopentenyl)adenine and dimethylated N6-(∆2-isopentenyl)adenine (collectively, methylated cytokinins [MeCKs]) from R. fascians. MeCKs were recognized by a CK receptor and up-regulated type-A ARABIDOPSIS THALIANA RESPONSE REGULATOR genes. Treatment with MeCKs inhibited root growth, a hallmark of CK action, whereas the receptor mutant was insensitive. MeCKs were retained longer in planta than canonical CKs and were poor substrates for a CK oxidase/dehydrogenase, suggesting enhanced biological stability. MeCKs were synthesized by S-adenosyl methionine-dependent methyltransferases (MT1 and MT2) that are present upstream of the fas genes. The best substrate for methylation was isopentenyl diphosphate. MT1 and MT2 catalyzed distinct methylation reactions; only the MT2 product was used by FAS4 to synthesize monomethylated N6-(∆2-isopentenyl)adenine. The MT1 product was dimethylated by MT2 and used as a substrate by FAS4 to produce dimethylated N6-(∆2-isopentenyl)adenine. Chemically synthesized MeCKs were comparable in activity. Our results strongly suggest that MeCKs function as CK mimics and play a role in this plant-pathogen interaction.The balance of phytohormones, such as cytokinins (CKs) and auxins, is finely controlled to maintain proper plant growth and development but is often disturbed following pathogen infection (Robert-Seilaniantz et al., 2007; Pieterse et al., 2012). As a virulence strategy, many phytopathogens synthesize phytohormones that cause aberrant organogenesis and modulate primary carbon metabolism that ultimately aids disease establishment (Jameson, 2000; Robert-Seilaniantz et al., 2007). For several pathogens, CK production is essential for virulence, and they carry genes for CK biosynthesis in a harbored plasmid (Jameson, 2000). Fungal pathogens employ CKs to form green islands with delayed senescence, whereas bacterial pathogens develop gall structures (Sakakibara et al., 2005; Walters et al., 2008; Giron et al., 2013). Rhodococcus fascians is a gram-positive actinomycete that causes symptoms ranging from leaf deformation to differentiated shooty outgrowths known as leafy galls in more than 150 different plant species (Goethals et al., 2001; Stes et al., 2011). In ornamental plants, such infections reduce their value and contribute to economic losses worldwide (Putnam and Miller, 2007). Leafy gall symptoms are reminiscent of CK overproduction and can be partially induced by exogenous application of CKs (Thimann and Sachs, 1966; Eason et al., 1996). Although several CKs have been isolated from R. fascians culture filtrates, a clear correlation with pathogenesis is lacking partially owing to the low concentration of bacterial CKs (Eason et al., 1996). A synergistic action by a mixture of bacterially produced CKs has been proposed, leading to persistent accumulation of CKs locally (Pertry et al., 2009). Nevertheless, to date, no virulence-associated CK analogs have been identified that could contribute to the infection symptoms.Naturally occurring CKs are adenine derivatives with different side chains at the N6 position. Major plant CKs are N6-prenylated adenine derivatives such as N6-(Δ2-isopentenyl)adenine (iP), trans-zeatin (tZ), cis-zeatin (cZ), and dihydrozeatin, collectively known as isoprenoid CKs (Sakakibara, 2006). Among them, iP and tZ are the major CKs in Arabidopsis (Arabidopsis thaliana). iP is synthesized by adenosine phosphate-isopentenyl transferase (IPT) using dimethylallyl diphosphate (DMAPP) and adenosine phosphate as substrates (Sakakibara, 2006). tZ is formed by hydroxylation of the trans-end of the prenyl side chain of the iP nucleotide. CK homeostasis is governed by both biosynthesis and catabolism and has an important regulatory role in plant growth (Sakakibara, 2006; Werner et al., 2006). CK oxidase/dehydrogenase (CKX) is responsible for an irreversible reaction cleaving the unsaturated isoprenoid side chain that results in the formation of adenine and the corresponding aldehyde (Werner et al., 2006). In Arabidopsis, CKs are perceived by a subset of sensory His kinases, ARABIDOPSIS HIS KINASE2 (AHK2) to AHK4, which undergo a His-Asp phosphorelay leading to induction of direct target genes including type-A ARABIDOPSIS RESPONSE REGULATOR (ARR) genes (Kieber and Schaller, 2010). This two-component signaling system has been implicated in mediating basal and pathogen-induced plant immunity (Choi et al., 2010; Argueso et al., 2012). For instance, infection of Arabidopsis plants by R. fascians reportedly activates type-A ARR5 expression with increased expression of AHK3 and AHK4, resulting in mitotic cell divisions that arrest the infected leaves in a meristematic state to establish a nutrient-rich niche (Depuydt et al., 2008, 2009; Pertry et al., 2010; Stes et al., 2011). As the infection progresses, IPT genes are switched off, whereas the expression of all CKX genes are strongly induced in symptomatic tissues (Depuydt et al., 2008).The virulence determinant of R. fascians is located within the fasciation (fas) locus, an operon encoding several genes involved in CK metabolism, indicating that CKs are essential for this plant-pathogen interaction (Stes et al., 2011). fas4 encodes IPT that catalyzes the rate-limiting step of CK biosynthesis and is vital for virulence (Stes et al., 2013). Interestingly, two methyltransferase-like genes are present upstream of the fas gene, whose functions have been unknown. Despite the presence of the fas genes in R. fascians, fewer known CKs have been detected compared with other gall-causing pathogens such as Pantoea agglomerans, Agrobacterium tumefaciens, and Pseudomonas savastanoi (Goethals et al., 2001). Further, the leafy gall phenotype is unique, not invoked by any of the above-mentioned pathogens, implying that the virulence of R. fascians might not be due to typical CKs alone (Goethals et al., 2001). R. fascians has long been hypothesized to produce CK analogs using similar or modified substrates (Goethals et al., 2001; Galis et al., 2005; Stes et al., 2011), but no such molecules have been discovered so far. Here, we report the identification and mode of biosynthesis for methylated cytokinins (MeCKs) as hormone mimics from R. fascians. These compounds are synthesized by two methyltransferases and FAS4. Their CK-like activity and higher in planta stability suggest a role for the methylated analogs as CK mimics that foster efficient pathogenesis. 相似文献
127.
Alyson Lorenz Radhika Dhingra Howard H. Chang Donal Bisanzio Yang Liu Justin V. Remais 《PloS one》2014,9(7)
Extrapolating landscape regression models for use in assessing vector-borne disease risk and other applications requires thoughtful evaluation of fundamental model choice issues. To examine implications of such choices, an analysis was conducted to explore the extent to which disparate landscape models agree in their epidemiological and entomological risk predictions when extrapolated to new regions. Agreement between six literature-drawn landscape models was examined by comparing predicted county-level distributions of either Lyme disease or Ixodes scapularis vector using Spearman ranked correlation. AUC analyses and multinomial logistic regression were used to assess the ability of these extrapolated landscape models to predict observed national data. Three models based on measures of vegetation, habitat patch characteristics, and herbaceous landcover emerged as effective predictors of observed disease and vector distribution. An ensemble model containing these three models improved precision and predictive ability over individual models. A priori assessment of qualitative model characteristics effectively identified models that subsequently emerged as better predictors in quantitative analysis. Both a methodology for quantitative model comparison and a checklist for qualitative assessment of candidate models for extrapolation are provided; both tools aim to improve collaboration between those producing models and those interested in applying them to new areas and research questions. 相似文献
128.
Venkatesan Radhika Christian Kost Gustavo Bonaventure Anja David Wilhelm Boland 《PloS one》2012,7(11)
Jasmonate-mediated regulation of VOC emission has been extensively investigated in higher plants, however, only little is known about VOC production and its regulation in ferns. Here, we investigate whether the emission of VOCs from bracken fern Pteridium aquilinum is triggered by herbivory and if so - whether it is regulated by the octadecanoid signaling pathway. Interestingly, feeding of both generalist (Spodoptera littoralis) and specialist (Strongylogaster multifasciata) herbivores as well as application of singular and continuous mechanical wounding of fronds induced only very low levels of VOC emission. In contrast, treatment with jasmonic acid (JA) led to the emission of a blend of VOCs that was mainly comprised of terpenoids. Likewise, treatment with the JA precursor 12-oxo-phytodienoic acid (OPDA) and α-linolenic acid also induced VOC emission, albeit to a lower intesity than the JA treatment. Accumulation of endogenous JA was low in mechanically wounded fronds and these levels were unaffected by the application of oral secretions from both generalist or specialist herbivores. The emission of terpenoids upon JA treatment could be blocked with fosmidomycin and mevinolin, which are inhibitors of the MEP- and MVA pathways, respectively. These results indicate that similar to higher plants, terpenoid VOCs are produced via these pathways in bracken fern and that these pathways are JA-responsive. However, the very low amounts of terpenoids released after herbivory or mechanical damage are in stark contrast to what is known from higher plants. We speculate that S. multifasciata and S. littoralis feeding apparently did not induce the threshold levels of JA required for activating the MEP and MVA pathways and the subsequent volatile emission in bracken fern. 相似文献
129.
130.
Radhika Deshmukh Hemant J. Purohit 《International journal of peptide research and therapeutics》2012,18(2):125-143
Peptide scaffolds are diverse chemical structures providing a major base for drug development. Nature modifies a premature
peptide with respect to a basic scaffold structure to create a mature and active peptide. Mimicking the natural scaffolds
with desirable modifications i.e., scaffold-hopping will decrease the enormous efforts of chemical syntheses and testing for
drug development. We have surveyed the scaffold-based compounds being used for anticancer, antiinfective, antiinflammatory
and antidiabetic activities. Synthetic peptidomimetics like aptamers, dendrimers, arylamide foldamers, β peptides, d peptides etc. provide an anticipative picture for the therapeutic use of scaffold structures. Free energy based conformational
analysis of peptidomimetics provides details of their structure–activity relationships. Diverse forms of such peptidomimetics
with respect to their structure and applications are discussed alongwith the mimetics which reached clinical trials. The review
gives an insight into the future panoramas of drug development and identifies few peptide scaffolds having diverse potential
with chemical modifications. 相似文献