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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The HIV-1 gp120 recombinant protein fragment encompassing aa residues 410-511, that contains the CD4 binding region (rp120cd), and fragment aa 446-511, which lacks the sequence responsible for CD4 binding (rp120), were synthesized to study their ability to induce TNF synthesis in human monocytes. The rp120cd stimulated TNF alpha secretion by monocytes while the rp120 and full-length recombinant protein (FL gp120), used as control, failed to do so. However, FL gp120 stimulated peripheral blood mononuclear cells (PBMC) and lymphocytes for TNF production and this was inhibited by anti-CD4 MAb. The rp120cd also caused TNF secretion by PBMC that was not blocked by this antibody. Furthermore, FL gp120 but not rp120cd inhibited anti-CD4 mAb binding to CEM cells. Hence, FL gp120 may cause TNF release from lymphocytes by binding to CD4, while rp120cd interacts with monocytes but not lymphocytes and induces TNF production by a mechanism not involving CD4 binding. Unexpectedly, FL gp120 but not rp120cd stimulated IL-6 secretion and IL-6 mRNA synthesis in monocytes. The FL gp120-induced production of IL-6 by monocytes was inhibited by anti-CD4 monoclonal antibody (MAb). Thus, there may be different requirements for TNF induction in lymphocytes and monocytes stimulated with various preparations of gp120 and for the selective induction of cytokines in monocytes. The enhanced production of TNF in HIV infection and AIDS may involve distinct cellular sources and different mechanisms.
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PMID:Interaction of HIV-1 gp120 molecule fragments with human monocytes: different requirements for tumor necrosis factor-alpha and IL-6 production. 770 70

The pathology in central nervous system (CNS) AIDS suggests that direct infection with HIV-1 is not required for changes in glia and neurons. Induction of a variety of pathological responses in vitro in rodent brain cultures also suggests that CD4 is not the receptor for HIV-1 in the brain, given that human and rodent CD4 are not homologous. This implies that the epitopes on HIV-1 which bind glia and activate them are novel, non-CD4-binding domains. We have therefore mapped the envelope (env) regions required for production in rat glial cultures of interleukin-1 (IL-1) and tumor necrosis factor alpha (TNF alpha) which we hypothesize are important in CNS AIDS. Serially truncated deletion mutants from the gp120/gp41 carboxy terminus representing folded, glycosylated recombinant env proteins were expressed in HeLa cells via a vaccinia virus vector. These proteins, linear gp120/gp41 peptides, as well as polyclonal and monoclonal antibodies reactive to defined regions of gp120/gp41 were used to map the epitopes involved in production of IL-1 and TNF alpha. Compared to HeLa cell and wild-type vaccinia virus controls, the vaccinia recombinant env protein gp160 containing cleaved gp120 and gp41 induced both IL-1 and TNF alpha. If gp160 was not cleaved into gp120 and gp41, IL-1 but not TNF alpha induction was reduced. Peak production of TNF alpha by gp120/gp41 was at 4 h while IL-1 production was still significantly elevated at 44 h at the highest concentrations of env protein. Using the truncation deletions, the V3 loop of gp120 appeared to be critical for IL-1. Glycosylation and folding of V3 is probably important in IL-1 induction since a V3 peptide was not as active. While removal of glycosylated, folded V4 and C4 regions had no effect on IL-1, linear peptides in the region from the V4 loop to the C4 domain were strong inducers of IL-1. Non-glycosylated, linear V4 loop peptide induced more IL-1 than the V4 in protein generated in HeLa cells, suggesting that glycosylation and/or conformational structures sequester V4 inducer epitopes. Using the truncation deletions, the carboxy terminus region (V4-C5) of gp120 as well as gp41 were shown to be critical for TNF alpha production. Peptides representing linear epitopes in the V3 loop, C5 domain of gp120, and the ectodomain of gp41 were all strong inducers of TNF alpha; a protein representing almost the entire gp41 was the strongest inducer of TNF alpha.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The mapping of HIV-1 gp160 epitopes required for interleukin-1 and tumor necrosis factor alpha production in glial cells. 770 35

We investigated whether HIV-1 can regulate tumor necrosis factor receptor (TNFR) expression in SupT-1, a CD4+ T-cell line. The cells were infected with HIV-1 containing 1,000 cpm RT activity, as early as day 3 after infection and all along the culture the supernatant level of core protein p24 was > 250 pg/ml, and on days 6 and 9 after infection, p24 was found in 10% of the cells as determined by indirect immunofluorescence assay. The cells were growing without loss of viability. The study of TNFR expression was based on a microassay for measurement of binding of 125I-TNF alpha to cells, in which free and cell-bound ligand separation was performed by centrifugation through oil. Scatchard analysis of TNF alpha binding on days 6 and 9 after infection revealed a 90% increase in the expression of high-affinity membrane receptors in HIV+SupT-1 culture compared with uninfected cells (mean +/- S.D. = 501 +/- 148.5 vs. 263 +/- 77.8 receptors/cell, n = 9, P < 0.001) with no change in dissociation constants (mean +/- S.D. = 4.36 +/- 1.06 vs. 4.00 +/- 1.12 x 10(-10) M).
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PMID:Tumor necrosis factor receptor expression in HIV-1-infected CD4+ T cells. 772 83

The pathogenesis of liver injury, which remains unclear in the course of human immunodeficiency virus infection, can be investigated in simian immunodeficiency virus-infected macaques, which develop an immunodeficiency disease resembling human acquired immune deficiency syndrome (AIDS). We studied the livers of 21 monkeys infected with simian immunodeficiency virus (SIVmac251) for 4 days to 39 months and detected viral antigens in Kupffer cells, macrophages, and lymphocytes in 65% of the livers tested. Virus-containing cells were present in 5 out of 9 livers tested as early as 4 days postinoculation. The number of positive cells as well as their content in viral proteins substantially increased in sinusoidal cells with the progression of the disease. Morphological features and double immunolabeling indicated that Kupffer cells constituted the predominant cell type containing viral antigens. The presence of multinucleated giant cells displaying the ultrastructural features of resident liver macrophages was another sign of the productive infection of Kupffer cells in vivo, which was attested by the observation of budding, immature, and mature SIV particles. Kupffer cell hyperplasia and hypertrophy were evident and appeared to be related to the development of SIV infection, because a close correlation was found between antigenemia and the surface area occupied by these cells. The Kupffer cells contained apoptotic lymphocytes, indicating that resident liver macrophages could play a role in the uptake of such cells from the blood. The production of tumor necrosis factor alpha (TNF alpha) and, possibly, interferon-alpha by Kupffer cells, the expression of vascular adhesion molecule-1, (VCAM-1), intralobular and periportal inflammation, and the proliferation and expansion of bile duct cells were other signs of liver involvement in SIV infection.
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PMID:Permissiveness of Kupffer cells for simian immunodeficiency virus (SIV) and morphological changes in the liver of rhesus monkeys at different periods of SIV infection. 773 26

Apoptosis is a major cause of cell death in health and disease. In contrast to necrosis, apoptosis does not induce an inflammatory response and the cellular debris produced by apoptosis has been assumed to be biologically inert. This review challenges this assumption by suggesting that apoptotic debris (especially in the context of growing tumors or during HIV infection) may have immunological activities, mainly immunosuppressive but perhaps also immunostimulatory. In many cases, the surface of apoptotic cells differs from normal cells in that phosphatidylserine (PS) is aberrantly exposed on the external face of the cell membrane. Liposomes composed of PS may down-modulate macrophage anti-leishmanial activities, suppress macrophage TNF production, suppress lymphocyte proliferation, and increase macrophage proliferation. "Membrane shedding" has been described in certain malignancies where apoptosis may be occurring, and the shed tumor membrane vesicles have been shown to reduce MHC class II expression on macrophages and decrease lymphocyte responsiveness, perhaps because of their ganglioside content. Finally, the apoptotic debris from HIV-infected cells may bear on its surface viral proteins which contain immunosuppressive peptide sequences. This debris may also use viral envelope proteins to fuse into macrophages and thereby avoid phagocytosis and lysosomal destruction. These considerations suggest that the flux of apoptosing cells and debris through the immune system that occurs during tumor growth and HIV infection should not be assumed to be immunologically neutral. In particular, HIV-related apoptosis may have immunosuppressive effects in addition to the numerical depletion of lymphocytes.
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PMID:The immunological potential of apoptotic debris produced by tumor cells and during HIV infection. 773 82

The relationships between serum levels of soluble tumor necrosis factor receptors (sTNFRs) and other prognostic and immunological parameters in different immunological subgroups of 64 HIV-1 infected patients were studied. In the patient group as a whole, the raised serum levels of sTNFRs were significantly inversely correlated to the numbers of CD4+ and CD8+ lymphocytes and significantly positively correlated with serum levels of neopterin, HIV-1 p24 antigen and the soluble CD8/CD8+ lymphocyte ratio. However, when the patients were classified into three separate immunological subgroups according to the numbers of CD4+ lymphocytes, only serum levels of neopterin were significantly correlated to levels of sTNFRs in all the defined immunological subgroups. These results indicate that HIV-1 infection is associated with a persistent and chronic immune activation in the TNF system manifested by raised serum levels of sTNFRs, which may reflect sustained activation of the immune system particularly in monocytes/macrophages. Further, these results confirm that, when comparing immunological and virological parameters in HIV-1 infection, different results may be obtained in different immunological subgroups of patients.
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PMID:Activation of tumor necrosis factor--alpha system in HIV-1 infection: association with markers of immune activation. 774

Arachidonic acid (AA) has been shown to interact with transmembrane signaling pathways involved in T-cell activation. The latter have been shown to be impaired in lymphocytes obtained from HIV-infected patients. In the present study, AA and its metabolite, PGE2, released from differentiating human mononuclear phagocytes in response to HIV infection, and their relationship to HIV replication and TNF-alpha production were examined. The macrophage (M phi) cultures were more permissive for HIV replication than monocyte (MO) cultures. AA release in response to HIV infection was observed in both MO and M phi with a peak at 24 hr postinfection (p.i.). This AA release was 3.8- and 6-fold that of uninfected MO and M phi cultures, respectively. Supernatants from MO and M phi cultures at the peak of AA production inhibited [3H]thymidine uptake of peripheral blood mononuclear cells in response to PHA by 45 and 54%. At 24 hr p.i., PGE2 production was increased in both MO and M phi cultures. This increase was associated with a 1.2- and 20-fold inhibition of IL-1 production, respectively. TNF release, however, increased through day 14 p.i. Treating mock-infected MO with recombinant TNF-alpha induced AA release. Monoclonal antibodies to TNF inhibited this release by 80%. TNF (0.01-0.4 microgram/ml) added exogenously to MO produced a biphasic pattern of AA release; while low concentrations were stimulatory, higher concentrations were inhibitory. Treating monocyte and macrophage cultures with mAb to TNF-alpha inhibited the HIV-induced release of AA and PGE2. These findings indicate that HIV-induced TNF-alpha regulates the release of AA and PGE2, which might provide insight into the mechanisms involved in the pathogenesis of HIV-related disorders.
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PMID:HIV-induced TNF-alpha regulates arachidonic acid and PGE2 release from HIV-infected mononuclear phagocytes. 774 31

In contrast to the purely enhancer-dependent effect of cytokines such as TNF on the activity of the HIV regulatory region (LTR), we observed that okadaic acid (OKA) activates HIV transcription through both the enhancer, responding to the factor NF-kappa B, and the promoter domain of the LTR. The inducibility of HIV LTR-driven luciferase expression constructs in lymphoblastoid cells stimulated by OKA depended on both functional Sp1 binding elements and the ability of the TATA box to bind the protein TBP. In both transformed and normal lymphocytes, OKA stimulation induced intense phosphorylation of the constitutively expressed Sp1 protein in the nucleus, a property of OKA not shared by TNF, phorbol ester, or PHA and interleukin 2. Responsiveness of LTR constructs deleted of kappa B elements to HIV Tat expression was increased upon OKA but not TNF stimulation. Our results suggest that SP1 phosphorylation induced by OKA, a selective inhibitor of the serine-threonine phosphatase PP2A, facilitates the formation of a transcription complex involving general transcription factors, HIV Tat, and Sp1 proteins. The formation of this complex would increase, independently of an in synergy with NF-kappa B, the low basal activity of the HIV LTR observed in normal T lymphocytes.
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PMID:Induction of Sp1 phosphorylation and NF-kappa B-independent HIV promoter domain activity in T lymphocytes stimulated by okadaic acid. 774 47

PBL from HIV-infected patients were engrafted into CB-17 SCID mice to develop a novel small animal model for the study of HIV pathogenesis and therapy. Engraftment was achieved in 84% of mice, with human Ig (hu-Ig) levels and total human mononuclear cell recovery by peritoneal wash similar to those in control hu-PBL-SCID mice engrafted with uninfected donor cells. The hu-Ig produced by hu-HIV/PBL-SCID mice had broad reactivity against HIV. Virus could be detected in 98% of mice by polymerase chain reaction and/or viral coculture. Viremia was first detected by quantitative polymerase chain reaction on day 7 (approximately 10,000 copies of viral RNA/ml of plasma) and persisted through day 17. Quasispecies analysis of amplified, cloned, proviral DNA of the V3 region of the env gene showed that nucleotide sequences from hu-HIV/PBL-SCID mouse peritoneal wash cells on day 17 were not significantly changed from those derived from donor PBL at the time of injection. Relative to human CD4+ T cell recovery by peritoneal wash in control hu-PBL-SCID mice (CD4 = 19 +/- 2%; n = 40), severe CD4+ lymphocyte depletion (CD4 = 5 +/- 0.5%; n = 59; p < 0.001) was observed in untreated hu-HIV/PBL-SCID mice 18 to 25 days after engraftment. Treatment with 2'-beta-fluoro-2',3'-dideoxyadenosine, a nucleoside analogue, significantly reduced CD4+ T cell depletion (CD4 = 13 +/- 1; n = 59; p < 0.001) and the frequency of virus isolation (70%; p = 0.015) in the hu-HIV/PBL-SCID model. Boosting hu-Ig levels in the mice by injection of purified donor Ig with neutralizing activity did not affect the frequency of CD4+ lymphocyte recovery or virus isolation. The administration of a mAb to TNF had minimal effects. These studies demonstrate that PBL from HIV-infected donors can engraft SCID mice; that HIV can be detected in the spleen, peritoneal wash cells, and blood of these mice; that HIV infection within the model results in rapid CD4+ T cell depletion; and that anti-retroviral therapy is effective in improving CD4+ T cell recovery and reducing the frequency of virus isolation. The hu-HIV/PBL-SCID mouse model thus represents a potentially useful model in which to study HIV pathogenesis and therapy.
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PMID:The human HIV/peripheral blood lymphocyte (PBL)-SCID mouse. A modified human PBL-SCID model for the study of HIV pathogenesis and therapy. 775 95

HIV replication in vitro is regulated by many factors, including various exogeneous stimuli and proteins encoded by either virus or cellular genomes. During the asymptomatic period, cells latently or chronically infected with HIV gradually express virus, leading to immunosuppression and opportunistic infection. These conditions would result in the increased secretion of cytokines, especially TNF, from infected and uninfected cells, which can induce HIV and killing of infected cells. A vicious circle is then set in motion in which heterologous microbial infections directly or indirectly activate HIV and the production of cytokines, thereby accelerating lymphocyte depletion and immunodeficiency. AIDS is a disorder of the immune network caused by a unique retrovirus HIV. However, if the whole story described above is true, this disease can also be termed a "cytokine disease". Immunity resembles a "double-edged sword", with aspects not only protective, but also deleterious to the host. Therefore, it is essential to more extensively investigate the mechanism of cytokine regulation of HIV expression in vivo, not only to understand the complex pathophysiology of AIDS, but also to design a therapeutic strategy to halt this deadly disease.
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PMID:The role of cytokines in the acquired immunodeficiency syndrome. 778 7


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