Principles of Virology. Jane Flint

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Название Principles of Virology
Автор произведения Jane Flint
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781683673583



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envelope glycoprotein, which mediates receptor binding and fusion. The monomers of the spike protein are synthesized as heavily glycosylated precursors that are cleaved by a cellular protease to form SU and TM (Fig. 5.8A). The latter is anchored in the envelope by a single membrane-spanning domain and remains bound to SU by numerous noncovalent bonds.

      The primary cell receptor for human immunodeficiency virus type 1 is CD4, a 55-kDa rod-like protein that is a member of the Ig superfamily and has four Ig-like domains (Fig. 5.3). A variety of techniques have been used to identify the site of interaction with human immunodeficiency virus type 1, including site-directed mutagenesis and X-ray crystallographic studies of CD4 bound to the viral attachment subunit SU (Fig. 5.8B). The CD4-binding site in SU is a deep cavity, and the opening of this cavity is occupied by CD4 amino acid Phe43, which is critical for SU binding. This Phe43 is in a region analogous to a Phe127 in CD155 that binds to poliovirus. Remarkably, two viruses with entirely different architectures bind to analogous surfaces of these Ig-like domains. Comparison of the structure of SU in the presence and absence of CD4 indicates that receptor binding induces conformational changes in SU. These changes expose binding sites on SU for the chemokine receptors, which are required for fusion of viral and cellular membranes (see Box. 5.1 and “Membrane Fusion” below).

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       Cell Surface Lectins and Spread of Infection

      Virus particle attachment to certain cell surface proteins may not mediate entry into that particular cell but might facilitate dissemination within a host. An example is the lectin DC-SIGN (dendritic cell-specific intercellular adhesion molecule-3-grabbing non-integrin), a tetrameric lectin present on the surface of dendritic cells (Fig. 5.3). This lectin binds high-mannose, N-linked glycans, such as those produced in insect cells. Viruses that reproduce in insects are delivered to the human skin via a bite and may bind and sometimes infect dendritic cells. These cells then carry the viruses to other parts of the body, particularly lymph nodes. However, not all viruses that bind DC-SIGN replicate in insect cells. In humans, DC-SIGN on the surface of dendritic cells binds human immunodeficiency virus type 1 virus particles, but cell entry does not take place. In cells in culture, dendritic cells can store and release infectious virus. Therefore, while the interaction of human immunodeficiency virus type 1 with DC-SIGN is nonproductive, it may lead to viral dissemination in the host when dendritic cells migrate to lymph nodes rich in the virus target, CD4+ T cells (see Chapter 13).

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      Binding of virus particles to cell receptors not only concentrates the particles on the cell surface, but also activates signaling pathways that facilitate virus entry and movement within the cell or produce cellular responses that enhance virus propagation and/or affect pathogenesis. Binding of virus particles may lead to activation of protein kinases that trigger cascades of responses at the plasma membrane, cytoplasm, and nucleus (Chapter 14). Second messengers that participate in signaling include phosphatidylinositides, diacylglycerides, and calcium. Regulators of membrane trafficking and actin dynamics also contribute to signaling. Additionally, virus-receptor interactions can stimulate antiviral