. Remarkably, even homopolymeric poly(A) was moderately active, whereas a poly(G) homopolymer was not active. Furthermore, a database search for existing PARS sequences in 5-untranslated regions (5UTR) of genes in tobacco genome allowed the easy identification of a number of IRES candidates, in particular in the 5UTR of the gene encoding Nicotiana tabacum heat-shock factor 1 (NtHSF1). Consistent with our prediction, the 5UTR of NtHSF1 turned out to be an IRES element active in vitro, in plant protoplasts and HeLa cells. We predict that PARS elements, when found in other mRNAs, will show a similar activity.
Most eukaryotic mRNAs are translated by a "scanning ribosome" mechanism. We have found that unlike the type member of the genus Tobamovirus, translation of the 3'-proximal coat protein (CP) gene of a crucifer infecting tobamovirus (crTMV) (Dorokhov et al., 1993; 1994) occurred in vitro by an internal ribosome entry mechanism. Three types of synthetic dicistronic RNA transcripts were constructed and translated in vitro: (i) "MP-CP-3'NTR" transcripts contained movement protein (MP) gene, CP gene and the 3'-nontranslated region of crTMV RNA. These constructs were structurally equivalent to dicistronic subgenomic RNAs produced by tobamoviruses in vivo. (ii) "deltaNPT-CP" transcripts contained partially truncated neomycin phosphotransferase I gene and CP gene. (iii) "CP-GUS" transcripts contained the first CP gene and the gene of Escherichia coli beta-glucuronidase (GUS) at the 3'-proximal position. The results indicated that the 148-nt region upstream of the CP gene of crTMV RNA contained an internal ribosome entry site (IRES(CP)) promoting internal initiation of translation in vitro. Dicistronic IRES(CP), containing chimeric mRNAs with the 5'-terminal stem-loop structure preventing translation of the first gene (MP, deltaNPT, or CP), expressed the CP or GUS genes despite their 3'-proximal localization. The capacity of crTMV IRES(CP) for mediating internal translation distinguishes this CP tobamovirus from the well-known-type member of the genus, TMV UI. The equivalent 148-nt sequence from TMV RNA was incapable of mediating internal translation. Two mutants were used to study structural elements of IRES(CP). It was concluded that integrity of IRES(CP) was essential for internal initiation. The crTMV provides a new example of internal initiation of translation, which is markedly distinct from IRESs shown for picornaviruses and other viral and eukaryotic mRNAs.
A new approach for super-expression of the influenza virus epitope M2e in plants has been developed on the basis of a recombinant Tobacco mosaic virus (TMV, strain U1) genome designed for Agrobacterium-mediated delivery into the plant cell nucleus. The TMV coat protein (CP) served as a carrier and three versions of the M2e sequence were inserted into the surface loop between amino acid residues 155 and 156. Cysteine residues in the heterologous peptide were thought likely to impede efficient assembly of chimeric particles. Therefore, viral vectors TMV-M2e-ala and TMV-M2e-ser were constructed in which cysteine codons 17 and 19 of the M2e epitope were substituted by codons for serine or alanine. Agroinfiltration experiments proved that the chimeric viruses were capable of systemically infecting Nicotiana benthamiana plants. Antisera raised against TMV-M2e-ala virions appear to contain far more antibodies specific to influenza virus M2e than those specific to TMV carrier particle (ratio 5:1). Immunogold electron microscopy showed that the 2-epitopes were uniformly distributed and tightly packed on the surface of the chimeric TMV virions. Apparently, the majority of the TMV CP-specific epitopes in the chimeric TMV-M2e particles are hidden from the immune system by the M2e epitopes exposed on the particle surface. The profile of IgG subclasses after immunization of mice with TMV-M2e-ser and TMV-M2e-ala was evaluated. Immunization with TMV-M2e-ala induced a significant difference between the levels of IgG1 and IgG2a (IgG1/IgG2a=3.2). Mice immunized with the chimeric viruses were resistant to five lethal doses (LD50) of the homologous influenza virus strain, A/PR/8/34 (H1N1) and TMV-M2e-ala also gave partial protection (5LD50, 70% of survival rate) against a heterologous strain influenza A/California/04/2009 (H1N1) (4 amino acid changes in M2e). These results indicate that a new generation candidate universal nanovaccine against influenza based on a recombinant TMV construct has been obtained.
Previously we reported that, unlike RNA of typical tobamoviruses, the translation of the coat protein (CP) gene of a crucifer-infecting tobamovirus (crTMV) in vitro occurred by an internal ribosome entry mechanism mediated by the 148-nt region that contained an internal ribosome entry site (IRES(CP,148)(CR)). The equivalent 148-nt sequence from TMV U1 RNA (U1(CP,148)(SP)) was incapable of promoting internal initiation. In the present work, we have found that the 228-nt region upstream of the movement protein (MP) gene of crTMV RNA (IRES(MP,228)(CR)) contained an IRES element that directed in vitro translation of the 3'-proximal reporter genes from chimeric dicistronic transcripts. Surprisingly, the equivalent 228-nt sequence upstream from the MP gene of TMV U1 directed translation of the downstream gene of a dicistronic transcripts as well. Consequently this sequence was termed IRES(MP,228)(U1). It was shown that IRES(MP,228)(CR), IRES(MP,228)(U1), and IRES(CP,148)(CR) could mediate expression of the 3'-proximal GUS gene from dicistronic 35S promoter-based constructs in vivo in experiments on transfection of tobacco protoplasts and particle bombardment of Nicotiana benthamiana leaves. The results indicated that an IRES element was located within the 75-nt region upstream of MP gene (IRES(MP,75)), which corresponded closely to the length of the 5'UTR of TMV subgenomic RNA (sgRNA) I(2). The RNA transcripts structurally equivalent to I(2) sgRNAs of TMV U1 and crTMV, but containing a hairpin structure (H) immediately upstream of IRES(MP,75) (HIRES(MP), (75)(CR)-MP-CP-3'UTR; HIRES(MP,75)(U1)-MP-CP-3'UTR), were able to express the MP gene in vitro. The capacity of HIRES(MP,75)(CR) sequence for mediating internal translation of the 3'-proximal GUS gene in vivo, in tobacco protoplasts, was demonstrated. We suggested that expression of the MP gene from I(2) sgRNAs might proceed via internal ribosome entry pathway mediated by IRES(MP) element contained in the 75-nt 5'UTR. Our results admit that a ribosome scanning mechanism of the MP gene expression from I(2) sgRNA operates concurrently.
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