UMLS:C0019693 - FACTA Search

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

The objective of this study was to determine whether granzyme B-expressing cells, which identify activated cytotoxic lymphocytes, are present in the small intestinal mucosa of human immunodeficiency virus (HIV)-infected patients with and without diarrhea. Therefore, duodenal biopsy specimens from 29 HIV-infected patients (11 with diarrhea and 18 without diarrhea) and 15 control patients were stained for the presence of granzyme B expressing cells. In HIV-infected patients, a significantly increased expression of granzyme B in the lamina propria was observed (p = 0.00001): In 22 of 29 patients, at least 5-10 cells per high-power field were counted. In contrast, in 13 of 15 control patients, granzyme B was not expressed or minimally so, and in two others a maximum of five granzyme-B-expressing cells could be detected per high-power field. No significant difference was found between the HIV-infected patients with and without diarrhea. Double staining revealed that the granzyme-B-expressing cells were mainly CD3 positive. These data show that activated cytotoxic T lymphocytes (CTLs) are present in the duodenal mucosa of HIV-infected patients. No relation between the number of CTLs and the presence of diarrhea was demonstrated. CTLs are known to be involved in the pathogenesis of HIV infection and in the production of tissue injury, but their functional role in intestinal HIV-related pathology has yet to be elucidated.
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PMID:Increased numbers of granzyme-B-expressing cytotoxic T-lymphocytes in the small intestine of HIV-infected patients. 867 31

During HIV infection the architecture of secondary lymphoid tissues is severely disrupted. In particular the germinal centers, which play a key role in the orchestration of the secondary immune response, undergo gross phenotypic alterations, leading to a complete destruction of the germinal center microenvironment. The precise mechanisms responsible for the lymphoid tissue destruction in HIV infection are still unknown. However, the large influx of CD8+ T lymphocytes suggests an important role for T cell-mediated cytotoxicity. To establish whether the infiltrating CD8+ T lymphocytes are killing competent, we investigated the expression of granzyme B, which is known to be present in the cytotoxic granules of NK cells and "activated" CTLs with cytolytic potential. We observed a 20-fold increase in the percentage of granzyme B-expressing CD8+ T cells in both the germinal center and the interfollicular areas in HIV patients relative to HIV-negative controls. This increase was present in patients with early-stage disease (i.e., absolute CD4+ T cell count > 500/microliters) as well as in patients with intermediate and late-stage disease. Thus, from relatively early stages of HIV infection onward large numbers of killing competent T lymphocytes are present in the lymphoid tissues, a finding that supports the notion that CTL act as mediators of destruction of immune function during HIV infection.
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PMID:Expression of granzyme B by cytotoxic T lymphocytes in the lymph nodes of HIV-infected patients. 911 9

Activated CTLs and NK cells induce apoptosis via multiple mechanisms, including that termed granule exocytosis. The latter pathway consists of vectorial secretion of perforin and a family of granule-associated serine proteases (granzymes) to the target cell. To establish whether granzymes are released extracellularly during cytolytic reactions in vivo, ELISAs that measure the native enzymes were developed and were found to specifically detect granzyme A (GrA) and granzyme B (GrB) at picogram concentrations. Low levels of GrA and GrB were present in plasma of healthy individuals (GrA, 33.5 pg/ml (median); GrB, 11.5 pg/ml (median)), whereas significantly higher levels were present in patients with ongoing CTL response, i.e., patients suffering from infections by EBV or HIV type 1. Markedly elevated levels were also noted in synovial fluid of patients with active rheumatoid arthritis. The measurement of soluble granzymes should be useful to assess clinical disorders associated with activated CTL and NK cells. Furthermore, these results suggest that granzymes mediate biologic effects beyond their described role in apoptotic cell death.
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PMID:Extracellular granzymes A and B in humans: detection of native species during CTL responses in vitro and in vivo. 953 25

Lymphoid tissues are the focus of critical events in HIV pathogenesis. Persistent and high levels of virus production, extensive trapping of virus particles in germinal centers, and progressive degenerative changes in lymph node architecture are characteristics of progressive HIV-1 infection. Infiltrates of granzyme B- and TIA-expressing CD8+ "cytotoxic" T lymphocytes (CTLs) precede involution of germinal centers in humans who develop AIDS. Similar to humans, HIV-1 infection in chimpanzees is active and persistent. However, in contrast to humans, they remain relatively resistant to AIDS. Lymph node biopsies from chimpanzees infected with HIV-1 or a related chimpanzee lentivirus were studied for the level and pattern of virus expression, changes in lymphoid architecture, CD8+ T cell infiltrates and the presence or absence of CTL markers. In stark contrast to HIV-1-infected humans, lymph nodes from infected chimpanzees had little virus deposition in germinal centers and a paucity of virus-expressing cells. Although some of the lymph nodes examined from infected animals had moderate follicular hyperplasia with infiltrating CD8+ T cells, none had evidence of follicular fragmentation. Most importantly, in marked contrast to infected humans, CD8+ T cells infiltrating the germinal center were negative for the CTL marker granzyme B. This evidence suggests that the infiltration of CD8+ CTLs into the germinal centers of lymph nodes may be a key determinant in AIDS pathogenesis.
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PMID:The relative resistance of HIV type 1-infected chimpanzees to AIDS correlates with the maintenance of follicular architecture and the absence of infiltration by CD8+ cytotoxic T lymphocytes. 1008 20

CD8+ T lymphocytes play a key role in the control of HIV infection, through both cytotoxic and noncytotoxic mechanisms. To study in vivo effects of interleukin-2 (IL-2) treatment on this cell compartment, the level of activation of CD8+ T lymphocytes was evaluated before and just after 5-day administration of IL-2 in 16 HIV-infected patients. The serum level of soluble CD25 and of soluble CD8 significantly increased following IL-2 administration. The number of mRNA molecules coding for perforin and granzyme B, two enzymes that are contained in granules of cytotoxic cells, also significantly increased in peripheral blood mononuclear cells and in purified CD8+ cells (p < .001). Variations of plasma HIV viremia and perforin gene expression following IL-2 administration were inversely correlated (p = .023), suggesting that IL-2-induced activation of CD8+ T lymphocytes contributes to limit HIV replication in vivo. In contrast to perforin and granzyme B gene expression, IL-2 administration did not increase the expression of macrophage inhibitory protein-1alpha (MIP-1alpha), MIP-1beta, and regulated-on-activation normal T-expressed and secreted (RANTES) genes. These findings indicate that CD8+ T lymphocytes in HIV-infected patients are acutely activated by IL-2 treatment, which may improve long-term control of HIV infection.
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PMID:Acute activation of CD8+ T lymphocytes in interleukin-2-treated HIV-infected patients. ANRS-048 IL-2 Study Group. Agence Nationale de Recherches sur le SIDA. 1053 44

Granzymes are a family of serine proteinases commonly found in the granules of CD8+ T cells. In HIV infection, CD8+ cells show cytotoxic and noncytotoxic antiviral activities. The latter is mediated, at least in part, by a secreted CD8+ cell antiviral factor, CAF. Because of the antiviral nature of CD8+ cells, we examined the potential anti-HIV activity of free granzymes that can be found in CD8+ cell culture fluids. Pretreatment of CD4+ T cells with granzyme A or granzyme B had no effect on their susceptibility to infection with HIV, nor did incubation of the granzymes with HIV virions alter their infectivity. Continuous culture of acutely infected CD4+ T cells with granzyme A or B showed no effect on cell viability or the replication of HIV. The findings of this study suggest that free granzymes do not control HIV infection and spread in CD4+ T cells.
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PMID:HIV virions and HIV infection in vitro are unaffected by human granzymes A and B. 1071 74

A major goal in immunodiagnostics has been the development of assay systems that can measure CD8(+) T cell immunity in humans, directly ex vivo, at high resolution, and with high throughput. We established granzyme B (grB) enzyme-linked immunospot assay (ELISPOT) in conjunction with image analysis to this end. Using grB transfected and untransfected Chinese hamster ovary (CHO) cells and T cell lines, we show that the antibody pair utilized was grB-specific and that only activated T cells secrete grB. GrB release began within 4 h after antigen stimulation and stopped within 40 h. Side-by-side comparison showed grB ELISPOT assays to have a higher resolution than classic chromium-release assays in terms of signal-to-noise ratio. The linearity of the relation of the number of CD8(+) effector T cells plated to grB spots detected suggests that grB ELISPOT assays measure the frequencies of grB-secreting cells directly. Reactivity to HIV peptides was seen in grB ELISPOT assays of freshly isolated PBMC from HIV patients, consistent with the detection of peptide-specific memory cells. The higher resolution and lower labor and material investment should make grB ELISPOT assays an attractive alternative to chromium-release assays in monitoring the clonal sizes of specific CD8 memory cells in vivo.
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PMID:Granzyme B ELISPOT assay for ex vivo measurements of T cell immunity. 1085 9

We have reported previously that the cytolytic activity of murine CD8(+) cytotoxic T lymphocytes (CTL) specific for HIV-1 gp160 envelope glycoprotein was markedly inhibited by brief exposure to the free minimal antigenic peptide (I-10: 10mer peptide from gp160) by direct binding to class I MHC molecules of specific CTL in the absence of antigen-presenting cells (APC). Here, we show that treatment of such CTL with the peptide induced not only the inhibition of cytolytic activity but also IL-2Rbeta down-modulation, followed by the inhibition of IL-2-dependent growth. The peptide-mediated inhibition and restoration of expression of IL-2Rbeta were well correlated with changes in both cytolytic activity and IL-2-dependent growth of the CTL. Since enzymatic activity of granzyme B, and mRNA expression of granzyme B and perforin were significantly reduced in peptide-treated CTL, the inhibition of cytolytic activity was mainly caused by the exhaustion of cytolytic molecules. Moreover, treatment of the CTL with the epitopic peptide resulted in production of high levels of IL-2, IFN-gamma, tumor necrosis factor-alpha and MIP-1beta in the culture supernatant. Maximum amounts of cytokines were obtained in the culture supernatant when the level of cytolytic activity was the lowest. Thus, although the CTL temporarily lost their cytolytic activities, they simultaneously gained the abilities to produce cytokines for activation of various cell populations. These changes induced by free antigenic peptide in CD8(+) CTL reveal an interesting counter-regulation between their cytolytic activities and cytokine production.
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PMID:Counter-regulation of cytolytic activity and cytokine production in HIV-1-specific murine CD8+ cytotoxic T lymphocytes by free antigenic peptide. 1113 33

Lymph nodes constitute the major site of HIV replication and of immunological response to HIV. To study the role of cytotoxic and mitotic active CD8(+) lymphocytes in lymph nodes during HIV infection we examined 28 formalin-fixed, paraffin-embedded lymph nodes sampled from 1984 to 1986 from 21 HIV-seropositive patients and seven HIV-negative patients. Eleven of the HIV-positive patients died within 78 months of biopsy time and 10 patients were alive on July 1, 1998. Double immunohistochemical staining procedures were developed to identify CD8(+) cells expressing CD45R0, granzyme B, and Ki-67. A stereological method was used to count the different cell types in the lymph nodes. There were no significant differences in the total cell (nucleated) and CD3(+) cell concentrations between the three groups. However, there were significantly higher concentrations of CD3(+)CD8(+), CD8(+)CD45R0(+), and CD8(+)Ki-67(+) lymphocytes in the HIV patients compared with the control group. Furthermore, there was a tendency for the HIV-deceased group to have lower levels of CD8(+)granzyme B(+) and CD8(+)Ki-67(+) lymphocyte concentrations compared with the HIV-alive group. Three HIV patients, who progressed to death within 49 months of biopsy time, were among the patients with the lowest concentrations of CD8(+)granzyme B(+) and CD8(+)Ki-67(+) lymphocytes. This finding allowed us to conclude that CD8(+) lymphocytes expressing high levels of CD45R0, granzyme B, and Ki-67 in lymph nodes of HIV patients are not related to increased mortality, whereas low concentrations of CD8(+) granzyme B(+) and CD8(+)Ki-67(+) lymphocytes may be associated with poor prognosis.
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PMID:High levels of CD8-positive lymphocytes expressing CD45R0, granzyme B, and Ki-67 in lymph nodes of HIV-infected individuals are not associated with increased mortality. 1124 16

HIV-1 infected persons develop a robust CTL response to HIV antigens, yet HIV-1 is able to evade this host response and successfully replicate. The mechanism(s) of evasion is not completely defined but has been suggested to include resistance of infected cells to CTL-mediated apoptosis. The HIV-1 Vpr protein induces G2 arrest by indirectly inhibiting activation of cyclin B/p34cdc2 kinase. Granzyme B, the principle mediator of CTL-induced apoptosis, prematurely activates this same kinase complex. Therefore, we assessed the susceptibility of HIV-1 infected cells to CTL-mediated apoptosis to determine whether the expression of Vpr protected the infected cells from CTL-induced apoptosis. Antigen-specific CD8(+) CTL were able to induce apoptosis in HIV-1 infected cells and cells labeled with peptide corresponding to the CTL epitope with equivalent efficiency. This demonstrates that neither HIV-1 Vpr nor any other HIV protein directly inhibits CTL effector functions. Furthermore, we confirm that HIV-1 Nef is able to provide partial protection from CTL recognition of infected cells. Thus, the inability of CTL to control HIV-1 infection is likely not due to direct inhibition of CTL-mediated apoptosis.
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PMID:HIV-1 Vpr does not inhibit CTL-mediated apoptosis of HIV-1 infected cells. 1188 61

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