Viral factories are complex structures in the infected cell where viruses compartmentalize their life cycle. Rubella virus (RUBV) assembles factories by recruitment of rough endoplasmic reticulum (RER), mitochondria and Golgi around modified lysosomes known as cytopathic vacuoles or CPVs. These organelles contain active replication complexes that transfer replicated RNA to assembly sites in Golgi membranes. We have studied the structure of RUBV factory in three dimensions by electron tomography and freeze-fracture. CPVs contain stacked membranes, rigid sheets, small vesicles and large vacuoles. These membranes are interconnected and in communication with the endocytic pathway since they incorporate endocytosed BSA-gold. RER and CPVs are coupled through protein bridges and closely apposed membranes. Golgi vesicles attach to the CPVs but no tight contacts with mitochondria were detected. Immunogold labelling confirmed that the mitochondrial protein p32 is an abundant component around and inside CPVs where it could play important roles in factory activities.
The subgenomic (SG) mRNA of rubella virus (RUB) contains the structural protein open reading frame (SP-ORF) that is translated to produce the three virion structural proteins: capsid (C) and glycoproteins E2 and E1. RUB expression vectors have been developed that express heterologous genes from the SG RNA, including replicons which replace the SP-ORF with a heterologous gene, and these expression vectors are candidate vaccine vectors. In the related alphaviruses, translational enhancing elements have been identified in both the 5' untranslated region (UTR) of the SG RNA and the N-terminal region of the C gene. To optimize expression from RUB vectors, both the 5'UTR of the SG RNA and the C gene were surveyed for translational enhancing elements using both plasmids and replicons expressing reporter genes from the SG RNA. In replicons, the entire 5'UTR was necessary for translation; interestingly, when plasmids were used the 5'UTR was dispensable for optimal translation. The RUB C gene contains a predicted long stem-loop starting 62 nts downstream from the initiation codon (SLL) that has a structure and stability similar to SL's found in the C genes of two alphaviruses, Sindbis virus (SIN) and Semliki Forest virus, that have been shown to enhance translation of the SG RNA in infected cells. However, a series of fusions of various lengths of the N-terminus of the RUB C protein with reporter genes showed that the SLL had an attenuating effect on translation that was overcome by mutagenesis that destabilized the SLL or by adding downstream sequences of the C gene to the fusion. Thus, for optimal expression efficiency from RUB expression vectors, only the 5'UTR of the SG RNA is required. Further investigation of the differing effects of the SLL on RUB and alphavirus SG RNA translation revealed that the SIN and RUB SLLs could enhance translation when expressed from a SIN cytopathic replicon, but not when expressed from a plasmid, a RUB replicon, or a SIN noncytopathic replicon. Thus, the SLL only functions in a "cytopathic environment" in which cell translation has been altered.
Although some adults infected with influenza 2009 A(H1N1)pdm09 viruses mounted high hemagglutination inhibition (HAI) antibody response, they still suffered from severe disease, or even death. Here, we analyzed antibody profiles in patients (n = 31, 17–65 years) admitted to intensive care units (ICUs) with lung failure and invasive mechanical ventilation use due to infection with A(H1N1)pdm09 viruses during 2009–2011. We performed a comprehensive analysis of the quality and quantity of antibody responses using HAI, virus neutralization, biolayer interferometry, enzyme-linked-lectin and enzyme-linked immunosorbent assays. At time of the ICU admission, 45% (14/31) of the patients had HAI antibody titers ≥ 80 in the first serum (S1), most (13/14) exhibited narrowly-focused HAI and/or anti-HA-head binding antibodies targeting single epitopes in or around the receptor binding site. In contrast, 42% (13/31) of the patients with HAI titers ≤ 10 in S1 had non-neutralizing anti-HA-stem antibodies against A(H1N1)pdm09 viruses. Only 19% (6/31) of the patients showed HA-specific IgG1-dominant antibody responses. Three of 5 fatal patients possessed highly focused cross-type HAI antibodies targeting the (K130 + Q223)-epitopes with extremely low avidity. Our findings suggest that narrowly-focused low-quality antibody responses targeting specific HA-epitopes may have contributed to severe infection of the lower respiratory tract.
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