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951.
Venuprasad K Banerjee PP Chattopadhyay S Sharma S Pal S Parab PB Mitra D Saha B 《Journal of immunology (Baltimore, Md. : 1950)》2002,169(2):920-928
We previously showed that CD28 is expressed on human peripheral blood neutrophils and plays an important role in CXCR-1 expression and IL-8-induced neutrophil migration. In this work we demonstrate that Leishmania major infection of macrophages results in parasite dose-dependent IL-8 secretion in vitro and in IL-8-directed neutrophil migration, as blocked by both anti-IL-8 and anti-IL-8R Abs, toward the L. major-infected macrophages. In the neutrophil-macrophage cocultures, both CTLA4-Ig, a fusion protein that blocks CD28-CD80/CD86 interaction, and a neutralizing anti-IFN-gamma Ab inhibit the anti-leishmanial function of neutrophils, suggesting that the neutrophil-macrophage interaction via CD28-CD80/CD86 plays an important role in the IFN-gamma-dependent restriction of the parasite growth. Cross-linking of neutrophil-expressed CD28 by monoclonal anti-CD28 Ab or B7.1-Ig or B7.2-Ig results in phosphatidylinositol 3-kinase association with CD28 and in wortmannin-sensitive but cyclosporin A-resistant induction and secretion of IFN-gamma. Whereas the neutrophils secrete IFN-gamma with CD28 signal alone, the T cells do not secrete the cytokine in detectable amounts with the same signal. Thus, neutrophil-expressed CD28 modulates not only the granulocyte migration but also induction and secretion of IFN-gamma at the site of infection where it migrates from the circulation. 相似文献
952.
Natalia de Miguel Gil Lustig Olivia Twu Arnab Chattopadhyay James A. Wohlschlegel Patricia J. Johnson 《Molecular & cellular proteomics : MCP》2010,9(7):1554-1566
The identification of surface proteins on the plasma membrane of pathogens is of fundamental importance in understanding host-pathogen interactions. Surface proteins of the extracellular parasite Trichomonas are implicated in the initial adherence to mucosal tissue and are likely to play a critical role in the long term survival of this pathogen in the urogenital tract. In this study, we used cell surface biotinylation and multidimensional protein identification technology to identify the surface proteome of six strains of Trichomonas vaginalis with differing adherence capacities to vaginal epithelial cells. A combined total of 411 proteins were identified, and of these, 11 were found to be more abundant in adherent strains relative to less adherent parasites. The mRNA levels of five differentially expressed proteins selected for quantitative RT-PCR analysis mirrored their observed protein levels, confirming their up-regulation in highly adherent strains. As proof of principle and to investigate a possible role in pathogenesis for differentially expressed proteins, gain of function experiments were performed using two novel proteins that were among the most highly expressed surface proteins in adherent strains. Overexpression of either of these proteins, TVAG_244130 or TVAG_166850, in a relatively non-adherent strain increased attachment of transfected parasites to vaginal epithelial cells ∼2.2-fold. These data support a role in adhesion for these abundant surface proteins. Our analyses demonstrate that comprehensive profiling of the cell surface proteome of different parasite strains is an effective approach to identify potential new adhesion factors as well as other surface molecules that may participate in establishing and maintaining infection by this extracellular pathogen.The flagellated protozoan parasite Trichomonas vaginalis is the etiologic agent of trichomoniasis, the most common non-viral sexually transmitted infection worldwide with an estimated 174 million new cases annually (1). Although asymptomatic infection by T. vaginalis is common, multiple symptoms and pathologies can arise in both men and women, including vaginitis, urethritis, prostatitis, low birth weight infants and preterm delivery, premature rupture of membranes, and infertility (2–5). T. vaginalis has also emerged as an important cofactor in amplifying human immunodeficiency virus spread (6) as individuals infected with T. vaginalis have a significantly increased incidence of human immunodeficiency virus transmission (7, 8). T. vaginalis infection likewise increases the risk of cervical and aggressive prostate cancers (9–11).Despite the serious consequences that can arise from trichomoniasis, the underlying biochemical processes that lead to T. vaginalis pathogenesis are not well defined. Because T. vaginalis is an obligate extracellular pathogen, adherence to epithelial cells is critical for parasite survival within the human host (12). Several in vitro studies indicate that adhesion of the parasite to target mucosal epithelial cells is essential for the maintenance of infection and for cytopathogenicity (13, 14). T. vaginalis adherence to host cells is mediated, in part, by a lipophosphoglycan (LPG)1 that coats the surface of the parasite, and altering the sugar content of this LPG reduces both adherence and cytotoxicity (15). Moreover, the mammalian protein galectin-1 binds to T. vaginalis in a carbohydrate-dependent manner via a direct interaction with parasite LPG (16). Knockdown of galectin-1 in mammalian cells, however, reduces parasite binding only by ∼17% (16). Although galectin-1-mediated interactions between T. vaginalis LPG and host cell glycoconjugates may be central in establishing infection, it is clear that parasite adhesion factors in addition to LPG are likely to be involved in host-parasite interaction. Surface proteins are likely to play important roles in the initial adherence to mucosal tissue as well as the long term survival of the pathogen on mucosal surfaces.The outcome of infection with T. vaginalis is highly variable. Possible explanations for this phenomenon include host immunity, host nutritional status, and the vaginal microbiota. Additionally, genetic differences between T. vaginalis isolates leading to differences in adherence and cytotoxicity capacities are likely to result in differences in disease progression. Recently, geographically diverse T. vaginalis strains that are significantly more cytotoxic to host cells than laboratory-adapted strains have become available (17, 18), paving the way toward comparative studies aimed at identifying proteins that correlate with virulent phenotypes.Despite the importance of T. vaginalis surface proteins as a critical interface for pathogen-host interactions, there has been no systematic investigation of the surface proteins of this parasite. The T. vaginalis genome is large and encodes a massive proteome with a considerable and diverse repertoire of candidate surface proteins (19). For example, sequence analysis programs that predict transmembrane protein topology identified over 5100 T. vaginalis proteins with one or more transmembrane domains (20). Furthermore, over 300 annotated proteins with predicted transmembrane domains also contain protein motifs common to surface proteins from other pathogens known to contribute to mucosal colonization and other pathogenic processes (20). The vast number and diversity of possible surface proteins necessitates a multitiered approach using complementary genomics and proteomics analyses to identify candidates for focused functional studies.Biotinylation of proteins at the cell surface with an impermeable reagent followed by specific purification of these proteins using streptavidin has successfully been used for the enrichment and identification of surface proteins (21–24). The high avidity binding of biotin to streptavidin greatly enhances membrane protein purification, a challenging feat because of the low abundance of membrane proteins in total cellular extracts. Here, we used this approach to profile the surface plasma membrane proteome of T. vaginalis and to identify proteins that are differentially expressed in adherent relative to less adherent strains of the parasite. To the best of our knowledge, this is the first study to systematically identify and characterize proteins at the surface of Trichomonas parasites. Defining the parasite cell surface proteome is a critical step toward understanding the relative abundance of surface proteins in strains with varying virulence properties. This information will be critical for defining the role surface proteins play in mediating contact between the parasite and host cells as well as the resulting intracellular and extracellular signals that contribute to establishing and maintaining infection. Additionally, conserved surface molecules unique to T. vaginalis that might serve as specific vaccine candidates can be revealed using this approach. The prevalence of trichomoniasis among women of reproductive age (25) and its correlation with AIDS transmission and cervical and prostate cancers (6, 8–11) provide strong arguments for the need to develop vaccines against this human pathogen. 相似文献
953.
D Maity MM Mollick D Mondal B Bhowmick MK Bain K Bankura J Sarkar K Acharya D Chattopadhyay 《Carbohydrate polymers》2012,90(4):1818-1825
In this paper we reported preparation of methylcellulose-silver nanocomposite films by mixing of aqueous solution of methylcellulose with silver nitrate followed by casting. The silver nanoparticles were generated in methylcellulose matrix through reduction and stabilization by methylcellulose. The surface plasmon band at 412nm indicated the formation of Ag nanoparticles. The MC-Ag nanocomposite films were characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM) and Fourier transform infrared (FTIR). The X-ray diffraction analysis of synthesized MC-Ag nanocomposite films revealed that metallic silver was present in face centered cubic crystal structure. Average crystallite size of silver nanocrystal was 22.7nm. The FTIR peaks of as-synthesized MC-Ag nanocomposite fully designated the strong interaction between Ag nanoparticles and MC matrix. Nano-sized silver modified methylcellulose showed enhanced mechanical properties i.e. the introduction of Ag leading to both strengthening and toughening of MC matrix. The methylcellulose-silver nanocomposite films offered excellent antimicrobial activity against various microorganisms. 相似文献
954.
Ray PK Das T Sa G Ghosh AK Chattopadhyay S 《Apoptosis : an international journal on programmed cell death》2000,5(6):509-514
The word Apoptosis or pragrammed cell death is described as the ultimate end of multiple cellular events converging from numerous initiating events to the ultimate death of a cell or organism. Several processes, such as initiation of death signals at the plasma membrane, expression of pro-apoptotic oncoproteins, activation of death proteases, endonucleases etc., that ultimately coalesce to a common irreversible execution phase, lead to cell demise. Counteracting the death signals are cell survival factors. A balance between the cell death and cell survival factors plays a major role in the decision making process as to whether a cell should die or must live. It is, therefore, hypothesized that if the balance can be shifted in favor of cell survival, one might be able to arrest the aging process, save the injured cells or else if the balance is shifted toward cell-kill it might help destroy tumors and other undesirable cells.Protein A (PA) of Staphylococcus aureus has been found to have multifarious biological response modifying properties. It has been shown to possess anti-tumor, anti-toxic, anti-parasitic and antifungal activities. It also acts as a potent immunostimulator. PA can protect bone marrow progenitor cells from zidovudin(AZT)-induced apoptosis and can stimulate immunocyte proliferation, thereby helping to replenish/restore the depleted hematopoietic cell pool. Such ability to replenish hematopoietic cells is a common property of PA observed against a number of toxic drugs/chemicals, such as cyclophosphamide, benzene, aflatoxin, salmonella endotoxin, etc.Interestingly, it was further demonstrated in our laboratory that PA can selectively kill tumor cells without affecting normal cells of the host. A search for the mechanisms of PA action revealed that this bacterial protein could shift the balance between pro- and anti-apoptotic proteins in favor of survival in normal cells, but in favor of cell death in tumor cells at a particular dose level. This unique property of PA suggests that controlled use of such type of Biological Response Modifier might help in controlling both cell growth and death phenomena. 相似文献
955.
Chattopadhyay MB Mukherjee S Kulkarni I Vijayan V Doloi M Kanjilal N Chatterjee M 《Cancer cell international》2005,5(1):16
Combined effect of vanadium and beta-carotene on rat liver DNA-chain break and Proton induced X-ray emission (PIXE) analysis
was studied during a necrogenic dose (200 mg/kg of body weight) of Diethyl Nitrosamine (DENA) induced rat liver carcinogenesis.
Morphological and histopathological changes were observed as an end point biomarker. Supplementation of vanadium (0.5 ppm
ad libitum) in drinking water and beta-carotene in the basal diet (120 mg/Kg of body weight) were performed four weeks before DENA treatment
and continued till the end of the experiment (16 weeks). PIXE analysis revealed the restoration of near normal value of zinc,
copper, and iron, which were substantially altered when compared to carcinogen treated groups. Supplementation of both vanadium
and beta-carotene four weeks before DENA injection was found to offer significant (64.73%, P < 0.001) protection against generation
of single-strand breaks when compared with the carcinogen control counter parts. A significant stabilization of hepatic architecture
of the cells was observed as compared to carcinogen control in vanadium plus beta-carotene treated group. This study thus
suggests that vanadium, a prooxidant but potential therapeutic agent yield safe and effective pharmacological formulation
with beta-carotene, an antioxidant, in the inhibition of experimental rat hepatocarcinogenesis. 相似文献
956.
957.
Negi AS Darokar MP Chattopadhyay SK Garg A Bhattacharya AK Srivastava V Khanuja SP 《Bioorganic & medicinal chemistry letters》2005,15(4):1243-1247
Gallic acid has been modified to naphthophenone derivatives with esterified fatty acid side chain. Compound 12, an ethyl crotonate ester of naphthophenone derivative has shown potent auxin like growth promoter activity. This is the first example of naphthophenone derivatives with plant growth promoting activity. 相似文献
958.
959.
The present study critically evaluates the effects of hypothyroid and hyperthyroid states on lipid peroxidation and two enzymes of active oxygen metabolism, namely superoxide dismutase (SOD) and catalase (CAT) in the rat heart mitochondrial and post-mitochondrial fractions. Lipid peroxidation, an index of oxidative stress, was elevated in the heart tissue in hypothyroid state but reduced upon T3 supplementation. Hyperthyroidism registered increased SOD activity in post-mitochondrial fraction. Mitochondrial SOD activity was reduced in hypothyroid state, which was further reduced by T3 administration. In contrast, different thyroid states had no effect on catalase activity in the mitochondrial fraction. The hypothyroid state however, significantly augmented catalase activity in post-mitochondrial fraction. The results suggest that the antioxidant defence status of cardiac tissue is well modulated by thyroid hormone. 相似文献
960.
A branched chain fatty acid promotes cold adaptation in bacteria 总被引:2,自引:0,他引:2