Margaret Sharp scite author profile

Healthy young children who acquire CMV have prolonged viral shedding into the urine and saliva, but whether this is attributable to limitations in viral-specific immune responses has not been explored. In this study, we found that otherwise immunocompetent young children after recent primary CMV infection accumulated markedly fewer CMV-specific CD4+ T cells that produced IFN-γ than did adults. These differences in CD4+ T cell function persisted for more than 1 year after viral acquisition, and did not apply to CMV-specific IFN-γ production by CD8+ T cells. The IFN-γ-producing CD4+ T cells of children or adults that were reactive with CMV Ags were mainly the CCR7low cell subset of memory (CD45R0highCD45RAlow) cells. The decreased IFN-γ response to CMV in children was selective, because their CCR7low memory CD4+ T cells and those of adults produced similar levels of this cytokine after stimulation with staphylococcal enterotoxin B superantigen. CD4+ T cells from children also had reduced CMV-specific IL-2 and CD154 (CD40 ligand) expression, suggesting an early blockade in the differentiation of viral-specific CD4+ T cells. Following CMV acquisition, children, but not adults, persistently shed virus in urine, and this was observable for at least 29 mo postinfection. Thus, CD4+ T cell-mediated immunity to CMV in humans is generated in an age-dependent manner, and may have a substantial role in controlling renal viral replication and urinary shedding.

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Frequencies of Memory T Cells Specific for Varicella‐Zoster Virus, Herpes Simplex Virus, and Cytomegalovirus by Intracellular Detection of Cytokine Expression

Asanuma

et al. 2000

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Memory T cells specific for varicella-zoster virus (VZV), herpes simplex virus (HSV), and human cytomegalovirus (HCMV) were compared in immune adults by intracellular cytokine (ICC) detection. The mean percentages of CD4+ T cells were 0.11% for VZV and 0.22% for HSV by interferon (IFN)-gamma production; the frequency for HCMV was significantly higher at 1.21%. Percentages of VZV-, HSV-, and HCMV-specific CD4+ T cells were similar by use of tumor necrosis factor (TNF)-alpha. HCMV-stimulated CD8+ T cells produced IFN-gamma (1.11%) and TNF-alpha (1.71%); VZV- and HSV-specific CD8+ T cells were not detectable. VZV CD4+ T cell numbers were similar in young adults with natural or vaccine-induced immunity. VZV CD4+ T cells were significantly less frequent in older adults. Secondary varicella immunization did not increase VZV-specific CD4+ T cell frequencies by ICC assay. Numbers of memory T cells specific for herpesviruses may vary with sites of viral latency and with host age.

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Subclinical Varicella-Zoster Virus Viremia, Herpes Zoster, and T Lymphocyte Immunity to Varicella-Zoster Viral Antigens after Bone Marrow Transplantation

Wilson

Sharp

Koropchak

et al. 1992

Journal of Infectious Diseases

183

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Bone marrow transplant (BMT) recipients were evaluated for subclinical varicella-zoster virus (VZV) viremia and symptoms of herpes zoster after transplantation. Viremia was demonstrated by testing peripheral blood mononuclear cells using polymerase chain reaction and was documented in 19% of 37 patients. When reactivation was defined as herpes zoster and/or subclinical VZV viremia, 41% of VZV-seropositive BMT recipients experienced VZV reactivation. None of 12 patients tested before VZV reactivation had T lymphocyte proliferation to VZV antigen (mean stimulation index, 1.0 +/- 0.42 [SD] at less than 100 days; 12.0 +/- 6.03 at greater than 100 days [P = .003]). Among patients tested at greater than 100 days, 5 (63%) of 8 with detectable T cell proliferation had subclinical or clinical VZV reactivation compared with none of 6 who lacked VZV T cell responses. Recovery of VZV-specific cytotoxic T lymphocyte function was observed in 50% of BMT patients, but BMT recipients had significantly fewer circulating cytotoxic T lymphocytes that recognized VZV immediate early protein (P = .03) or glycoprotein I (P = .004) than did healthy VZV immune subjects. In vivo reexposure to VZV antigens due to subclinical VZV viremia or symptomatic VZV reactivation may explain the recovery of virus-specific T cell immunity after BMT.

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A comparison of haemagglutination, haemagglutination inhibition and PCR for the detection of psittacine beak and feather disease virus infection and a comparison of isolates obtained from loriids

Khalesi

Bonne

Stewart

et al. 2005

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Psittacine beak and feather disease (PBFD) is recognized as a threat for endangered psittacine birds in Australia, New Zealand and South Africa. Several diagnostic methods for the detection of beak and feather disease virus (BFDV) infection have been developed but there are few studies comparing the relative merits or sensitivity and specificity of each diagnostic test. In this report, the results of PCR, haemagglutination (HA) and haemagglutination inhibition (HI) testing of diagnostic samples collected from 679 samples from a range of psittacine bird species suspected of being infected with BFDV are summarized and compared. There was a strong agreement (kappa = 0?757; P<0?0001) between PCR and HA testing of feather samples and PCR-negative birds were 12?7 times more likely to have HI antibody than PCR-positive birds. False-positive HA results with titres up to 1 : 320 were identified in six feather samples that were PCR negative; the haemagglutination detected in these samples was not inhibited by anti-BFDV antisera and was removed by filtration through a 0?22 mm filter. Similarly, one false-negative PCR result was detected in a feather sample that had a high HA titre (>1 : 40 960) and four false-positive PCR results were detected in a batch of four feather samples. Of 143 birds that were feather PCR positive, only two had detectable HI antibody, and these birds were also feather HA negative, suggesting that they were developing immunity to recent infection. All birds with HI antibody were negative on feather HA testing. The assays confirmed BFDV infection in two endangered swift parrots (Lathamus discolor) and phylogenetic analysis of the sequence data generated from ORF V1 of these isolates provide further evidence of BFDV genotypes clustering in parallel with the Loriidae, Cacatuidae and Psittacidae.

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Margaret Sharp

Use of an Inactivated Varicella Vaccine in Recipients of Hematopoietic-Cell Transplants

Persistent and Selective Deficiency of CD4+ T Cell Immunity to Cytomegalovirus in Immunocompetent Young Children

Frequencies of Memory T Cells Specific for Varicella‐Zoster Virus, Herpes Simplex Virus, and Cytomegalovirus by Intracellular Detection of Cytokine Expression

Subclinical Varicella-Zoster Virus Viremia, Herpes Zoster, and T Lymphocyte Immunity to Varicella-Zoster Viral Antigens after Bone Marrow Transplantation

A comparison of haemagglutination, haemagglutination inhibition and PCR for the detection of psittacine beak and feather disease virus infection and a comparison of isolates obtained from loriids

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