Ribosomal scanning on the highly structured insulin-like growth factor II-leader 1.

The complex architecture of human insulin-like growth factor (IGF) II-leader 1 of 592 nucleotides (nt), with one open reading frame (ORF), and the potential to fold into stable structures makes efficient linear ribosomal scanning difficult to comprehend. Indeed, leader 1-driven reporter expression is low in rabbit reticulocyte lysate. Contrarily, leader 1 is very efficient in cells. Therefore, we tested whether this 5'UTR uses an alternative mechanism for translation initiation in vivo, internal entry or ribosomal shunting. Internal initiation was tested by introducing leader 1 into the intercistronic region of a bicistronic vector. Second cistron expression, driven by leader 1, was lower than by the intercistronic beta-globin 5'UTR, indicating that leader 1 does not contain an internal ribosomal entry site (IRES). Shunting was tested by inserting hairpin (HP) structures, capable of blocking ribosomal scanning, at eight positions in leader 1. After transfection, these mutant 5'UTRs were incapable of directing reporter expression. Less stable HPs at the same positions increased the activity to 50% of wild-type activity, indicating that insertions at these positions are not disastrous for initiation. These data indicate that the translational machinery encounters major parts of leader 1. As scanning seems unlikely, and internal entry and shunting were shown not to occur, we discuss a modified scanning mechanism for architecturally complex 5'UTRs.

Role of the 3' untranslated region of baculovirus p10 mRNA in high-level expression of foreign genes.

The p10 gene of Autographa californica nucleopolyhedrovirus has two putative AATAAA polyadenylation signals. The downstream signal is used predominantly, as was determined by analysing 3' cDNA ends. This downstream motif is followed by a GT-rich sequence, known to be important for efficient polyadenylation in mammalian systems. To analyse the importance of polyadenylation for p10 gene expression, recombinant viruses with altered 3' untranslated regions (UTRs) were tested using chloramphenicol acetyltransferase (CAT) as a reporter. Surprisingly, after inactivation of the downstream AATAAA motif, CAT expression remained at the same high level as observed with a wild-type 3' UTR. Polyadenylation occurred 24-28 nucleotides further downstream, probably due to an ATTAAA sequence motif. Replacing the p 10 3' UTR with the SV40 early terminator sequence as part of an hsp70-lacZ-SV40 gene cassette, which is commonly used in baculovirus expression vectors, resulted in a reduction in reporter gene expression. Polyadenylation occurred far more efficiently in the original p10 3' UTR than in the SV40 terminator sequence, as was shown by testing the SV40 terminator separately. These results indicate that in order to obtain high levels of foreign gene expression, vectors that provide a wild-type p10 3' UTR are to be preferred over those containing the hsp70-lacZ-SV40 gene cassette. Comparison of the p10 genes of various baculoviruses showed the presence of at least one AATAAA or ATTAAA motif in combination with a GT-rich sequence in the 3' UTR, suggesting an evolutionary conservation of these two elements, thereby maintaining the high level of p10 gene expression.