For HPV16, the growth arrest functions of E4 contribute to amplif

For HPV16, the growth arrest functions of E4 contribute to amplification success. The completion of the HPV life cycle ultimately involves the expression of http://www.selleckchem.com/products/PLX-4032.html the minor coat protein (L2), the exit of the cell from the cell cycle, and the expression of the major coat protein L1 to allow genome packaging. This requires a change in splice site

usage rather than promoter activation, leading to transcripts initiated at P670 (in HPV16) that terminate at the late polyadenylation site rather than the early site [3], an event that is aided by high levels of E2 expression [156] and [157]. Interestingly, this results in a switch from the production of an E1∧E4, E5 message to an E1∧E4, L1 message, as genome amplification gives way to genome packaging [22], [157] and [158]. Genome encapsidation involves the recruitment of L2 to regions of replication via E2, prior to the expression of L1 and the assembly of the icosohedral capsid in the nucleus [159] and [160]. Virus maturation occurs in the most superficial, dying keratinocytes, which lose mitochondrial oxidative phosphorylation and convert from a reducing to an oxidizing environment just before virus Alpelisib cell line release. This enables the

progressive accumulation of disulphide bonds between the L1 proteins, leading to the production of extremely stable infectious virions [161] and [61]. Assembled particles contain 360 molecules of L1 arranged into 72 pentameric capsomeres, with a much smaller and variable number of L2 molecules, which can occupy capsomeres at the 5-fold axis of symmetry [60]. Although not precisely defined, the abundant E4 protein is thought tuclazepam to contribute to virion release and infectivity in the upper epithelial

layers, as it assembles into amyloid fibres that disrupt keratin structure and compromise the normal assembly of the cornified envelope [148], [150] and [162]. The ordered expression of viral gene products that leads to virus particle production is disrupted in HPV-associated neoplasia (Figure 6 and Figure 7). In cervical disease, where most research has been done, it is generally thought that the levels of E6 and E7 expression increase from cervical intraepithelial neoplasia grade 1 to 3 (CIN1 to CIN3), and that these changes in gene expression directly underlie the neoplastic phenotype. In this scheme, CIN1 lesions typically retain the ability to complete the HPV life cycle and produce virus particles and can in fact resemble flat warts, which have a lower level of cell proliferation in the basal and parabasal layers [29].

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