UMLS:C0038362 - FACTA Search

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interferon-alpha (IFNalpha), a cytokine with modulatory activities on many cell types, is useful for treating many types of cancer and infectious diseases. This study investigates whether modification of a protein, using IFNalpha as an example, with a lipophilic group can alter its distribution and kinetic properties in the body. Ser163 of IFNalpha2a was mutated to Cys to generate a free sulfhydryl group for site-specific chemical modification. IFNalpha2a(S163C) was conjugated by iodoacetamide derivatives of varying lengths, and the modified IFNalpha2a was purified by gel filtration chromatography. The biological activities of IFNalpha2a(S163C) and lipophilized IFNalpha2a(S163C) were similar to that of IFNalpha2a, as evidenced by their inhibitory effects on the growth of Daudi cells and on the replication of vesicular stomatitis virus in Madin-Darby bovine kidney cells. Lipophilized IFNalpha2a(S163C) bound to human serum albumin and cell membranes more readily than did IFNalpha2a. Future experiments will investigate whether lipophilized IFNalpha2a(S163C) has improved pharmacokinetic properties.
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PMID:Site-specific lipophilic modification of interferon-alpha. 1249 47

The immunomodulatory role of type I IFNs (IFN-alpha/beta) in shaping T cell responses has been demonstrated, but the direct effects of IFN on T cells are still poorly characterized. Particularly, because IFN exert an antiproliferative activity, it remains elusive how the clonal expansion of effector T cells can paradoxically occur in the event of an infection when large amounts of IFN are produced. To address this issue, we have studied the effects of type I IFN in an in vitro differentiation model of human primary CD4(+) T cells. We found that IFN-alpha treatment of resting naive T cells delayed their entry into the cell cycle after TCR triggering. Conversely, the ongoing expansion of effector T cells was not inhibited by the presence of IFN. Moreover, activated T cells showed a significantly reduced induction of IFN-sensitive genes, as compared with naive precursors, and this decline occurred independently of subset-specific polarization. The residual type I IFN response measured in activated T cells was found sufficient to inhibit replication of the vesicular stomatitis virus. Our data suggest that the activation of T lymphocytes includes regulatory processes that restrain the transcriptional response to IFN and allow the proliferation of effector cells in the presence of this cytokine.
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PMID:Down-modulation of responses to type I IFN upon T cell activation. 1251 37

Transforming growth factor beta (TGFbeta) is a critical immunosuppressive cytokine that inhibits the cell-mediated immune responses partly via inhibition of immunostimulatory cytokine production from T cells, NK cells, and macrophages. Here we investigated the effect of TGFbeta on NK cell activation induced by interleukin 18 (IL-18) using a murine NK cell line LNK5E6. IL-18 activated LNK5E6 cells to produce antiviral activity against vesicular stomatitis virus (VSV) and TGFbeta inhibited this activation. TGFbeta inhibited interferon-gamma (IFN-gamma) production in LNK5E6 cells treated with IL-18. TGFbeta also suppressed the IL-18 induced mRNA expression of IFN-gamma. Moreover, TGFbeta did not affect the transcriptional activity of IFN-gamma but decreased the half-life of IFN-gamma mRNA induced by IL-18. These results suggest that the destabilization of IFN-gamma mRNA induced by TGFbeta leads to the inhibition of antiviral activity and IFN-gamma production in IL-18 stimulated LNK5E6 cells.
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PMID:TGFbeta down-regulates IFN-gamma production in IL-18 treated NK cell line LNK5E6. 1255 70

Transcription of vesicular stomatitis virus is controlled by the position of a gene relative to the single 3' genomic promoter: promoter-proximal genes are transcribed at higher levels than those in more 5' distal positions. In previous work, we generated viruses having rearranged gene orders. These viruses had the promoter-proximal gene that encodes the nucleocapsid protein, N, moved to the second or fourth position in the genome in combination with the glycoprotein gene, G, moved from its usual promoter-distal fourth position to the first or third position. This resulted in three new viruses identified by the positions of the N and G genes in the gene order: G3N4, G1N4, and G1N2. The viruses G3N4 and G1N4 were attenuated for lethality in mice. In the present study, we addressed the basis of this attenuation by measuring the ability of each of the rearranged viruses to travel to and replicate in the olfactory bulb and brain following intranasal inoculation. In addition, the neuropathogenicity, serum cytokine levels, and immunoglobulin G isotype profiles in infected mice were determined. All the viruses reached the olfactory bulb and brain, but the outcomes of these infections were dramatically different. Viruses N1G4(wt) and G1N2 caused lethal encephalitis in 100% of animals within 7 days postinoculation; however, viruses G3N4 and G1N4 were cleared from the brain by 7 days postinoculation and all animals survived without apparent distress. The viruses differed in the distribution and intensity of lesions produced and the type and levels of cytokines induced. Animals inoculated with N1G4(wt) or G1N2 displayed extensive encephalitis and meningitis and had elevated levels of serum gamma interferon compared to what was seen with G3N4- or G1N4-infected mice. In contrast to what occurred with intranasal inoculation, all four viruses caused lethal encephalitis when administered by direct inoculation to the brain, a route that circumvents the majority of the host immune response, demonstrating that G3N4 and G1N4 were not deficient in their abilities to cause disease in the brain. These findings indicate that gene rearrangement and its consequent alteration of gene expression can, without any other changes, alter the viral spread and cytokine response following intranasal infection.
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PMID:Vesicular stomatitis viruses with rearranged genomes have altered invasiveness and neuropathogenesis in mice. 1271 67

Cyclic neutropenia is a rare disease that occurs both in humans and gray collie dogs and is characterized by recurrent severe neutropenia leading to bacterial infections and shortened life expectancy. Daily injections of recombinant granulocyte colony-stimulating factor (rG-CSF) are effective in shortening the period of severe neutropenia and reducing infections. After demonstrating that rG-CSF induced elevated neutrophil production in an affected dog, cytokine administration was stopped and 109 infectious units (IUs) of a lentivirus pseudotyped with vesicular stomatitis virus G protein (VSV-G) encoding canine G-CSF cDNA was administered intramuscularly. Serial blood cell counts showed elevated neutrophil production for longer than 17 months. Although neutrophil counts continued to cycle, the range at nadirs was from 3710 to 5300 cells/microL, well above the nadirs before lentivirus administration. After the injection of lentivirus, mean neutrophil counts +/- SD were 12 460 +/- 4240 cells/microL, significantly increased over both pretreatment values of 3040 +/- 2540 cells/microL(P <.0001) and neutrophil counts during G-CSF administration of 10 290 +/- 4860 cells/microL(P <.007). The changes in blood counts from lentivirus injection were associated with absence of clinical signs of infection and fever. The gray collie continued to gain weight and was no longer housed in a pathogen-free environment. Genomic DNA from muscle at injection sites was positive for provirus, whereas gonad, lung, spleen, heart, liver, kidney, leukocytes, and noninjected muscle samples were all negative for provirus. Thus, intramuscular administration of lentivirus encoding G-CSF provided sustained therapeutic levels of neutrophils, suggesting this approach may be applied for long-term treatment of patients with cyclic and other neutropenias.
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PMID:Treatment of canine cyclic neutropenia by lentivirus-mediated G-CSF delivery. 1275 Jan 78

The nonstructural proteins of hepatitis C virus (HCV) have been shown previously to localize to the endoplasmic reticulum (ER) when expressed singly or in the context of other HCV proteins. To determine whether the expression of HCV nonstructural proteins alters ER function, we tested the effect of expression of NS2/3/4A, NS4A, NS4B, NS4A/B, NS4B/5A, NS5A, and NS5B from genotype 1b HCV on anterograde traffic from the ER to the Golgi apparatus. Only the nominal precursor protein NS4A/B affected the rate of ER-to-Golgi traffic, slowing the rate of Golgi-specific modification of the vesicular stomatitis virus G protein expressed by transfection by approximately threefold. This inhibition of ER-to-Golgi traffic was not observed upon expression of the processed proteins NS4A and NS4B, singly or in combination. To determine whether secretion of other cargo proteins was inhibited by NS4A/B expression, we monitored the appearance of newly synthesized proteins on the cell surface in the presence and absence of NS4A/B expression; levels of all were reduced in the presence of NS4A/B. This reduction is also seen in cells that contain genome length HCV replicons: the rate of appearance of major histocompatibility complex class I (MHC-I) on the cell surface was reduced by three- to fivefold compared to that for a cured cell line. The inhibition of protein secretion caused by NS4A/B does not correlate with the ultrastructural changes leading to the formation a "membranous web" (D. Egger et al., J. Virol. 76:5974-5984, 2002), which can be caused by expression of NS4B alone. Inhibition of global ER-to-Golgi traffic could, by reducing cytokine secretion, MHC-I presentation, and transport of labile membrane proteins to the cell surface, have significant effects on the host immune response to HCV infection.
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PMID:Nonstructural protein precursor NS4A/B from hepatitis C virus alters function and ultrastructure of host secretory apparatus. 1282 24

CD28 plays crucial costimulatory roles in T cell proliferation, cytokine production, and germinal center response. Mice that are deficient in the inducible costimulator (ICOS) also have defects in cytokine production and germinal center response. Because the full induction of ICOS in activated T cells depends on CD28 signal, the T cell costimulatory capacity of ICOS in the absence of CD28 has remained unclear. We have clarified this issue by comparing humoral immune responses in wild-type, CD28 knockout (CD28 KO), and CD28-ICOS double-knockout (DKO) mice. DKO mice had profound defects in Ab responses against environmental Ags, T-dependent protein Ags, and vesicular stomatitis virus that extended far beyond those observed in CD28 KO mice. However, DKO mice mounted normal Ab responses against a T-independent Ag, indicating that B cell function itself was normal. Restimulated CD4(+) DKO T cells that had been primed in vivo showed decreased proliferation and reduced IL-4 and IL-10 production compared with restimulated CD4(+) T cells from CD28 KO mice. Thus, in the absence of CD28, ICOS assumes the major T cell costimulatory role for humoral immune responses. Importantly, CD28-mediated ICOS up-regulation is not essential for ICOS function in vivo.
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PMID:The inducible costimulator plays the major costimulatory role in humoral immune responses in the absence of CD28. 1512 72

The ability of virus-specific CD8(+) T cells to produce cytokines was studied in mice infected with lymphocytic choriomeningitis virus and vesicular stomatitis virus. Intracellular staining was used to visualize cytokine-producing CD8(+) and CD4(+) T cells. Overall, virus-specific CD8(+) T cells produce a similar range of cytokines (IFN-gamma, TNF-alpha, IL-2, GM-CSF, RANTES, MIP-1alpha and MIP-1beta) as CD4(+) T cells, but the relative distribution of cytokine-producing subsets is different. Moreover, cytokine-producing CD8(+) T cells were found to dominate numerically at all time-points tested. Co-staining for more than one cytokine revealed that while all cytokine-producing CD8(+) T cells synthesized IFN-gamma, additional cytokines were produced by partly overlapping subsets of this population. The frequency of cells producing more than one cytokine was higher in a tertiary site (peritoneum) and generally increased with transition into the memory phase; however, GM-CSF producing cells were only present transiently. Concerning factors predicted to influence the distribution of cytokine-producing subsets, IFN-gamma and IL-12 did not play a role, nor was extensive virus replication essential. Notably, regarding the heterogeneity in cytokine production by individual cells with similar epitope specificity, variation in TCR avidity was not the cause, since in vivo-activated TCR transgene-expressing cells were as heterogeneous in cytokine expression as polyclonal cells specific for the same epitope.
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PMID:Cytokine production by virus-specific CD8(+) T cells varies with activation state and localization, but not with TCR avidity. 1516 55

Interleukin (IL)-12, a key cytokine bridging innate and acquired immunity, is efficacious in enhancing recovery from experimental vesicular stomatitis virus (VSV) infection of the mouse central nervous system (CNS). This response is associated with the upregulation of neuronal nitric oxide synthase (NOS-1), independent of IFN-gamma and TNF-alpha. We hypothesized that neurons may respond directly IL-12. Our data are consistent with the expression of a functional IL-12 receptor (IL-12R) by neurons in culture and this receptor-ligand interaction results in the induction of an innate antiviral immune response. N18 cells, which did not express IL-12Rbeta2 were transfected with the IL-12Rbeta2 receptor gene; Koch's postulates were fulfilled, as clones derived from this transfection were reconstituted for IL-12 responsiveness.
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PMID:Expression of IL-12 receptor by neurons. 1535 7

Interference with nucleocytoplasmic transport is a strategy employed by certain viruses to compromise host cellular function. While it has been shown that the matrix (M) protein of the vesicular stomatitis virus (VSV) inhibits nuclear export of host cell mRNAs, the underlying mechanism has not been fully established. Here we show that VSV M protein binds the mRNA export factor Rae1/mrnp41. A mutant of M protein defective in Rae1 binding is unable to inhibit mRNA nuclear export. We further show that increased expression of Rae1 fully reverts the inhibition of mRNA export induced by M protein or following virus infection. We found that Rae1 is induced by interferon-gamma, a cytokine that plays a critical role in the immune response to viruses, such as VSV. Thus, these results demonstrate that VSV M protein blocks mRNA export by disrupting Rae1 function, which can be reverted by induction of Rae1 expression.
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PMID:VSV disrupts the Rae1/mrnp41 mRNA nuclear export pathway. 1562 20

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