Electron microscopic study of measles virus infection: cell fusion and hemadsorption.

Virus-induced cell fusion has been studied after infection of Vero cells with measles virus. Scanning and transmission electron microscopy were combined with immunoperoxidase labeling of measles antigens to correlate viral production and distribution of virus-induced erythrocyte binding sites with progress of fusion. Release of infectious virus started before syncytia were detected and decreased while the number and size of syncytia were increasing. Most virions were seen budding from mononucleated cells or from the periphery of syncytia where cells were being recruited. Moving inward, the surfaces of syncytia where cells were being recruited. Moving inward, the surfaces of syncytia were covered with numerous ridges containing viral antigen, but few viral buds were seen, suggesting that syncytia might be sites of defective viral formation. Hemadsorption occurred predominantly within the confines of syncytia. Erythrocytes were scattered sparsely over immature syncytia but were densely packed in the center of mature syncytia. Active binding sites for erythrocytes were located on cell villi and ridges covered with measles antigens. Hemadsorption was completely inhibited in measles virus-infected cultures pretreated with virus-specific immunoglobulin G for 1 h at 4 degrees C. However, when these cultures were shifted to 37 degrees C, hemadsorbing sites were recovered at the periphery of enlarging syncytia. Virus-induced sites for erythrocyte adsorption were found to move centripetally on syncytium membranes as fusion progressed.     

Immunocytochemistry of Clostridium novyi antigens. Electron microscopic research

The dynamics of the synthesis, transfer and excretion of toxin in C. novyi, growing in a liquid culture medium, have been studied on the level of bacterial ultrastructure by means of immunoferritin techniques modified by the authors. As revealed in this study, the basic mechanism of toxin excretion is realized by the active transfer of toxin through the enveloping structures after its accumulation in the periplasmatic space. In ageing cultures toxin may also be released in the process of bacteriolysis with the degradation of bacterial structures.     

Electron microscopic study of experimental infection. II. A study of the dynamics of Shigella infection]

The dynamics of experimental Shigella infection of chick embryo fibroblasts was studied with the use of electron microscopy. The antibiotic-resistant forms of Sh. sonnei 1,188 was found to be incapable of invasion into the fibroblast cytoplasm and intracellular proliferation. The destruction of fibroblasts observed during the infection was seemingly caused by the action of bacterial endotoxins.     

Electron microscopic study of experimental infection. 1. A study of the dynamics of staphylococcal infection]

The dynamics of staphylococcus infection was studied in experimental infection of chick embryo fibroblasts with electron microscopy. It was shown that the antibiotic-resistant forms of staphylococci (strain 79) were capable of invading the fibroblast cytoplasm inducing its gradual vacuolization up to complete destruction.     

Electron microscopic study of alpha-actinin.

Electron microscopic studies of the structure of purified α-actinin alone and in complex with F-actin have determined the molecular shape and size of this protein. α-Actinin molecules represent rods of about 300 Å in length and about 20 Å in diameter.     

Establishment of a persistent measles virus infection in HEp-2 cells.

A productive measles virus persistent infection has been established in HEp-2 cells. Greater than 90% of the persistently infected HEp-2 cells (H2MV) exhibited measles specific immunofluorescence and haemadsorption. Although most of the H2MV cells contained measles specific antigens, only a small percentage (less than 1%) actually produced infectious measles virus as determined by infectious centre assays. The measles virus produced by H2MV cells exhibited properties different from the initiating parent Edmonston strain virus, being reduced in virulence and also temperature sensitive for replication at 39 degrees C. The role of these altered virus properties in the establishment of persistence is considered.     

Electron microscopic study of endopolyploid nuclei in rat trophoblast giant cells. IV. Changes in nucleolar ultrastructure during cell differentiation

The ultrastructure of the nucleolus of highly differentiated trophoblast giant cells has been studied on the 17th day of the foetus development. Changes in its morphology have been followed in relation to the degree of nuclear chromatin condensation and to the cell differentiation level. The nucleoli have a reticular structure in the nuclei with dispersed and condensed chromatin. In both the cases the nucleoli involve the four components: fibro-granular, fibrillar (of moderate and normal density) and lacunar regions; fibrillar centres are distinguished within the regions. In the nucleoli with condensed chromatin, unlike those with dispersed chromatin, the perinuclear chromatin is clearly seen, and the penetration of nucleolus-organizer threads along lacunae and deep into the nucleolus can be easily followed. The fibrillar centres are more obvious. With the run of a progressive differentiation of the trophoblast cells, the number of granules is reduced; first, the fibro-granular component covers a significant part of the nucleolus, then granules become visible only in the cortical zone of the nucleolus; in the nuclei with strongly condensed chromatin no granules are seen in the nucleolus.     

Role of virus variants and cells in maintenance of persistent infection by measles virus.

Hamster embryo fibroblasts persistently infected with a derivative of the Schwarz vaccine strain of measles virus spontaneously released virus particles with an average buoyant density considerably lower than that of the parental virus. The released virus contained all of the measles virus structural proteins and interfered with replication of standard virus. All of the virus structural proteins were associated with a membrane-free cytoplasmic extract from the persistently infected cells. Membrane-free cytoplasmic extracts prepared from Vero cells lytically infected with Schwarz strain measles contained little or no virus envelope structural protein. Maintenance of persistent infection may involve both the presence of virus variants and a defect in the ability of the infected cell to replicate the virus efficiently.