Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human CD46, formerly membrane cofactor protein (MCP), binds and inactivates complement C3b and serves as a receptor for measles virus (MV), thereby protecting cells from homologous complement and sustaining systemic viral infection. CD46 on activated macrophages (Mphi) but not intact monocytes is presumed to be the factor responsible for virus-mediated immune modulation including down-regulation of IL-12 production. As CD46 is expressed on both Mphi and monocytes, the molecular mechanisms responsible for these distinct immune responses remain largely unknown. Here, we found that peripheral blood monocytes treated for 5--8 days with GM-CSF (i.e. mature Mphi) acquired the capacity to assemble CD9, alpha3-beta1 integrin and the tyrosine phosphatase SHP-1 with their CD46. Prior to this maturation stage, Mphi expressed sufficient amounts of CD9 and CD46 but showed no such complex formation, and as in intact monocytes MV replication was markedly suppressed. By flow cytometry and confocal microscopy, the complex was found to assemble on the surface in cells treated with approximately 6 days with GM-CSF but not for approximately 2 days. Notably, an alternative MV receptor SLAM CDw150 was neither expressed nor recruited to this complex throughout GM-CSF-mediated Mphi differentiation. These responses and molecular links were not reproduced in the hamster cell line CHO expressing human CD46 although these cells acquired high susceptibility to MV. Based on these observations, MV susceptibility in human myeloid lineages appears not to be as simple as that observed in human CD46-transfected non-myeloid cells. The molecular complex involving CD46 may confer high MV permissiveness leading to immune modulation in Mphi.
Mol Immunol 2002 Feb
PMID:Molecular assembly of CD46 with CD9, alpha3-beta1 integrin and protein tyrosine phosphatase SHP-1 in human macrophages through differentiation by GM-CSF. 1185 24

A profound, transient suppression of immune functions during and after the acute infection is the major cause of more than one million cases of infant deaths associated with measles worldwide. Concommittant with the generation of an efficient measles virus (MV) specific immunity, immune responses towards other pathogens are strongly impaired and provide the basis for the establishment and severe course of opportunistic infections. The molecular basis for MV-induced immunosuppression has not been resolved as yet. Similar to other immunosuppressive viruses, MV is lymphotropic and viral nucleic acid and proteins are detectable in peripheral blood mononuclear cells (PBMC). It is considered central to MV-induced immunosuppression that PBMC isolated from patients largely fail to proliferate in response to antigen specific and polyclonal stimulation. The low abundancy of MV-infected PBMC suggests that MV-induced immunosuppression is not directly caused by infection-mediated cell loss or fusion, but rather by indirect mechanisms such as deregulation of cytokines or surface contact-mediated signaling which may lead to apoptosis or impair the proliferative response of uninfected PBMC. Evidence for a role of any of these mechanisms was obtained in vitro, however, much has still to be learned about the tropism of MV and its interactions with particular host cells such as dendritic cells in vivo.
Curr Mol Med 2001 May
PMID:Measles virus induced immunosuppression: targets and effector mechanisms. 1189 69

Acute measles, a well known disease usually contracted during early childhood, is still the major cause of vaccine-preventable infant deaths worldwide. There are about 40 million cases of acute measles per year, with more than one million cases of infant death as a consequence of measles. These are mainly due to opportunistic infections which develop on the basis of a generalized suppression of the cellular immunity in the course and after the acute disease. Lymphopenia, a general proliferative unresponsiveness of T cells ex vivo and cytokine imbalance, are considered as major hallmarks of measles virus (MV) induced immunosuppression. These findings are compatible with modulation of T cell responses by viral interference with professional antigen-presenting cells such as dendritic cells or direct effects on T cells by suppression of survival or proliferation signals. In vitro, MV interaction causes a variety of effects on dendritic cells, including maturation and loss of their allostimulatory functions. Whether there is an additional impact on the quality of T cell responses is unknown as yet. It is clear, however, that surface interaction of lymphocytes with the MV glycoprotein complex is necessary and sufficient to induce a state of proliferative unresponsiveness in T cells. This surface contact mediated signal essentially interferes with the propagation of the interleukin 2 receptor signal by blocking the activation of the protein kinase B, also called Akt kinase, both in vitro and after experimental infection.
J Mol Med (Berl) 2002 Feb
PMID:Regulation of gene expression in lymphocytes and antigen-presenting cells by measles virus: consequences for immunomodulation. 1190 44

Alphaviruses are small, enveloped positive-strand RNA viruses that have been successfully transformed into expression vectors in the case of Semliki Forest virus (SFV), Sindbis virus (SIN), and Venezuelan equine encephalitis virus. Compared to other viral vectors, their advantages are easy and fast generation of recombinant viral particles, rapid onset, and high-level transgene expression. When applied to neuronal tissue, SFV and SIN vectors possess the additional advantage of efficiently and preferentially transducing neurons rather than non-neuronal cells. This article gives an overview of the biology of SFV and SIN, their generation into expression vectors, and their application in neurobiology, with particular emphasis on the transduction of hippocampal neurons. In addition, it describes the more recent development of alphaviral vectors with decreased or absent cytotoxicity and lowered transgene expression, temperature-controllable gene expression, and altered host-cell specificity in the central nervous system (CNS). Finally, the review evaluates the use of SFV and SIN vectors in hippocampal tissue cultures vs recombinant lentivirus, adenovirus type 5, adeno-associated virus type 2, and measles virus.
Mol Neurobiol
PMID:Alphaviral vectors for gene transfer into neurons. 1242 55

Following measles virus (MV) infection, viral peptides are presented to CTL by MHC class I molecules on infected antigen presenting cells at widely different epitope densities. Whereas three MV epitopes (MV-M(211-219), MV-F(438-446) and MV-H(30-38)) derived from different structural proteins occur at regular densities, one peptide derived from the non-structural C protein (MV-C(84-92)) fully dominates the MV peptide display in HLA class I molecules on end-stage-infected human B cells. Here we demonstrate that this hierarchy in MV epitope density is not a constant, but varies with progression of infection. While MV-M(211-219), MV-F(438-446) and MV-H(30-38) epitopes were already presented by HLA class I molecules early in infection, expression of MV-C(84-92) was restricted to the later phases of infection. These dynamics in epitope densities correlated with features of MV protein expression. Synthesis of C protein mainly focused towards the final stages of infection, while the other MV proteins were more readily synthesised from earlier time points on, in line with the emergence of their respective epitopes. Furthermore, the most abundant MV epitope was derived from the most unstable viral protein and vice versa, suggesting that the stability of viral proteins may be an indicator for the final abundance of their epitopes. Thus, even though many other factors may influence the generation of peptide-MHC class I complexes, we here report that the regulation of viral protein expression seems closely linked to the viral MHC class I epitope display. Finally, the observed dynamics in viral epitope hierarchy may have important implications for the induction of antiviral T cell immunity.
Mol Immunol 2003 Jan
PMID:Dynamics of measles virus protein expression are reflected in the MHC class I epitope display. 1243 90

Dendritic cells (DCs) were recently found to be innate immunity effectors against tumoral cells and viruses. (i) In response to most viruses, including HIV, plasmacytoid DCs are responsible for most of the type I IFN secretion, which is strongly anti-viral and induces TH1 type responses. Myeloid DCs secrete IL-12, which is also important for TH1-type and cytotoxic responses. In HIV patient blood, both DC population numbers decrease as early as the primary stage. Plasmacytoid DC numbers correlate with type I IFN secretion, which is a prognosis predictor, particularly under treatment. IL-12 secretion is also defective. Immunotherapies to replace the defective cytokines or to restore a potentially defective DC-T lymphocyte feed-back might help patients restore their immune responses under antiviral therapy. (ii) After measles and other viral infections, or incubation with dsRNA, DCs become cytotoxic and consequently exhibit natural killer function, through upregulation of type I IFN secretion which enhances TRAIL expression. In HIV infection, this mechanism was not demonstrated yet, but it might a) be responsible for the massive apoptosis of uninfected lymphocytes, and b) increase specific immunity through cross-presentation of antigens from infected cells killed by DCs. (iii) DCs direct expansion and effector functions of NK cells in the absence of adaptive-type cytokines and modulate NKT cell IFN-gamma production. Reciprocally, NK activation triggers DC maturation. HIV-1 Tat inhibits NK cell cytotoxicity directly and probably through inhibition of IL-12 secretion by DC. Therefore, understanding the functions of DCs in innate immune responses and in pathogenesis will help obtain better HIV replication control.
Curr Mol Med 2002 Dec
PMID:Dendritic cells in innate immune responses against HIV. 1246 94

We have earlier shown that attenuated measles virus (MV) has therapeutic potential as a replicating oncolytic virus in models of non-Hodgkin's lymphoma (NHL). In the current study, we investigated whether we could obtain replicating MVs capable of entering CD20(+) target cells through an interaction between a single-chain (scFv) anti-CD20 antibody and the CD20 antigen, a target of considerable clinical relevance in NHL. We replaced the H envelope glycoprotein of MV by an H-scFv anti-CD20 fusion protein with and without a protease-cleavable linker. Biochemical analysis of purified virions confirmed that the modified H proteins were incorporated into the viral particles with efficiency similar to unmodified H. Experiments employing CHO cells and CHO cells expressing human CD20 indicated that the MVH alpha CD20 viruses were able to replicate well in CHOCD20 but not CHO cells. MVH alpha CD20 or a nonmodified control MV were administered systemically to immunodeficient mice bearing bilateral human tumor xenografts, one side with and the other side without CD20 expression. Growth of CD20(+) tumors was retarded by MVH alpha CD20 as compared with the control virus. The viruses had equivalent effects on the CD20(-) tumors. Thus we have demonstrated that the entry of a replicating oncolytic virus can be mediated through an interaction between a highly clinically relevant single-chain antibody and its target antigen, and we have shown that this interaction enhances in vivo oncolytic activity.
Mol Ther 2003 Jan
PMID:An oncolytic measles virus engineered to enter cells through the CD20 antigen. 1257 19

Although edible vaccines seem to be feasible, antigens of human pathogens have mostly been expressed in plants that are not attractive for human consumption (such as potatoes) unless they are cooked. Boiling may reduce the immunogenicity of many antigens. More recently, the technology to transform fruit and vegetable plants have become perfected. We transformed carrot plants with Agrobacterium tumefaciens to generate plants (which can be eaten raw) transgenic for an immunodominant antigen of the measles virus, a major pathogen in man. The hemagglutinin (H) glycoprotein is the principle target of neutralizing and protective antibodies against measles. Copy numbers of the H transgene were verified by Southern blot and specific transcription was confirmed by RT-PCR. The H protein was detected by western blot in the membrane fraction of transformed carrot plants. The recombinant protein seemed to have a 8% lower molecular weight than the viral protein. Although this suggests a different glycosylation pattern, proper folding of the transgenic protein was confirmed by conformational-dependent monoclonal antibodies. Immunization of mice with leaf or root extracts induced high titres of IgG1 and IgG2a antibodies that cross-reacted strongly with the measles virus and neutralized the virus in vitro. These results demonstrate that transgenic carrot plants can be used as an efficient expression system to produce highly immunogenic viral antigens. Our study may pave the way towards an edible vaccine against measles which could be complementary to the current live-attenuated vaccine.
Plant Mol Biol 2003 Mar
PMID:Neutralizing immunogenicity of transgenic carrot (Daucus carota L.)-derived measles virus hemagglutinin. 1265 Jun 13

Apoptosis of bollworm cell line Hz-AM1 can be delayed by transient expression of AcNPV (Autographa californica Nuclear Polihedrosis Virus) p35 gene. Acp35Z, a p35 inactivated AcNPV by inserting with LacZ gene, cannot replicate in Hz-AM1 cells. However, the replication can be rescued by co-transfection with a plasmid containing AcNPV p35 gene. It is also realized that the transient expression of AcNPV p35 gene in Hela cells can put off cell apoptosis which is induced by adding actinomycin-D. Through co-transfection and G418 screening, two anti-apoptosis cell lines named Sf9-35 and Vero-35 are established by integrating AcNPV p35 and Neo expression cassette into the cell chromosomes. The Sf9-35 enhances the yield of budded virus of AcNPV, while the Vero-35 increases the propagation of measles virus.
Mol Cell Biochem 2003 Oct
PMID:Functional study on baculovirus anti-apoptosis genes. 1457 82

Measles virus (MV) remains among the most potent global pathogens, killing more than 1 million children annually. The virus induces a profound suppression of immune functions that favours the establishment of, and aggravates the course of, secondary infections. By contrast, MV-specific immune responses are efficiently generated, and these clear the virus from the organism and confer a long-lasting immunity. As sensitisers of pathogen encounter and instructors of the adaptive immune response, professional antigen-presenting cells (APCs) such as dendritic cells play a decisive role in the induction and quality of the MV-specific immune response. However, key features of immune suppression associated with MV are compatible with interference with APC maturation and function, and subsequent qualitative and quantitative alterations of T-cell activation.
Expert Rev Mol Med 2002 May 30
PMID:Measles virus and immunomodulation: molecular bases and perspectives. 1458 53


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