Background-Quadrivalent human papillomavirus vaccine (QHPV) is >95% effective in preventing infection with vaccine-type human papillomavirus. The safety and immunogenicity of QHPV are unknown in HIV-infected children.
In addition to being the respiratory organ in fish, the gills form a barrier against the external milieu. Innate and adaptive immune system components have been detected in the gills, but lymphoid cell accumulations similar to that seen in the mammalian mucosa have not been described. The present investigations revealed cell accumulations on the caudal edge of interbranchial septum at the base of the gill filaments in the Atlantic salmon. Cytokeratin immunohistochemical staining and identification of a basal membrane and desmosome cell junctions by electron microscopy showed that the cell accumulation was located intraepithelially. Major histocompatibility complex (MHC) class II + cells were detected by immunohistochemistry, and laser capture micro-dissection and subsequentRT-PCR analysis revealed expression of T-cell receptor transcripts in the investigated tissue, suggesting the presence of T cells. The intraepithelial tissue reported here may be a suitable location for immune surveillance of gill infections, as well as a target site for new vaccine approaches and investigations of epithelial immunity. This is the first description of a lymphocyte cell aggregation within a teleostian gill epithelium network, illustrating a phylogenetically early form of leukocyte accumulations in a respiratory organ.
Subclasses of simian virus 40 large T antigen in simian virus 40-transformed and -infected cells separated by zone velocity sedimentation in sucrose density gradients have been characterized. Three forms of large T antigen were distinguished: a 5 to 6S form, a 14 to 16S form, and a 23 to 25S form. These forms appeared to differ biochemically and biologically. Differential labeling experiments suggested that the 5 to 6S form was less highly phosphorylated than the faster-sedimenting forms. The 23 to 25S form which was complexed with one or more host phosphoproteins, as reported recently (D. P. Lane and L. V. Crawford Nature [London] 268:261-263, 1979; F. McCormick and E. Harlow, J. Virol. 34: 213-224, 1980), was prominent in extracts of transformed cells, but was also detected in productively infected cells. Pulse-chase experiments suggested that the 5 to 6S large T antigen is a precursor of the more stable, faster-sedimenting forms of T antigen. Monkey cells infected with a tsA mutant of simian virus 40 at 41 degrees C contained only 5 to 6S large T antigen, implying that this form is not active in the initiation of simian virus 40 DNA replication. In pulse-chase, shift-down experiments, DNA replication resumed, and the 5 to 6S large T antigen which had accumulated at 41 degrees C was partially converted at 33 degrees C to a fast-sedimenting form. However, shift-up experiments demonstrated that the fast-sedimenting large T antigen, once formed, remained stable at 41 degrees C, although it was unable to function in initiation. These experiments suggest that different biological functions of large T antigen may be carried out by different subclasses of this protein.
Polyadenylated RNA was isolated from fibroblast cultures infected with human cytomegalovirus (HCMV) strain AD169 during the late phase of viral replication. The RNA was selected by hybridization to a series of cosmid clones containing the entire viral genome in partially overlapping segments. Translation of this RNA in a reticulocyte cell-free system allowed the mapping of virus specific polypeptides. Nine polypeptides synthesized in vitro comigrated with major virion structural proteins. An in vitro-translated protein of 71 kDa was precipitated by a monoclonal antibody directed against the phosphorylated internal envelope protein of 71 kDa. The map coordinates of viral DNA coding for this phosphoprotein were localized by hybrid selection with subcloned DNA fragments, and the direction of transcription was determined by hybrid selection with single-stranded DNA cloned in bacteriophage vector M13mp9. An in vitro translation with size-fractionated RNA, combined with immunoprecipitation and Northern blot analyses, indicated that an mRNA of 4 kb encodes the 71-kDa phosphoprotein. An mRNA of the same size, map coordinates, and orientation was translated into an abundant 65-kDa polypeptide which had the same size as the major structural phosphoprotein of HCMV.
The recent description of Neoparamoeba perurans as an aetiological agent of amoebic gill disease (AGD) advanced our understanding of the condition and has forced a re-evaluation of methods used for the diagnosis of AGD. Currently, there are no tools available that are both specific for N. perurans and suitable for a routine diagnostic procedure. Therefore, in this study we describe an assay to detect N. perurans. The assay, which utilizes PCR to amplify the N. perurans 18S rRNA gene, was shown to be specific and highly sensitive. Neoparamoeba perurans was detected in both gill samples and primary isolates of non-cultured gill-derived amoebae obtained during necropsy or biopsy from AGD-affected Atlantic salmon, Salmo salar L. The PCR-based assay provides a simple, flexible tool that will be a useful addition to the diagnostic repertoire for AGD. It may also be used for the genotypic screening of trophozoites during culture and could facilitate further epidemiological and ecological studies of AGD.
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