Interaction of two members of the heterogeneous nuclear ribonucleoprotein (hnRNP) family with the 3Јuntranslated region (UTR) of the murine inducible nitric-oxide synthase (iNOS) mRNA is demonstrated in this study. An iNOS RNA-protein complex is formed using protein extracts from untreated and septic shock treated mouse liver. UV cross-linking reveals that the complex consists of at least two proteins, with apparent molecular masses of 60 and 70 kDa, respectively. The 60-kDa protein binding site lies within a 112-nt pyrimidine-rich sequence, approximately 160 nt from the coding sequence, and the RNA-protein complex can be precipitated by a monoclonal antibody directed against hnRNP I [also named polypyrimidine tract binding protein (PTB)]. The 70-kDa protein binds a 43-nt sequence near the 3Јend of the 3ЈUTR and is immunoprecipitated by a monoclonal antibody against hnRNP L. A computersimulated conformation of the 3ЈUTR suggests that both binding sites reside in regions easily accessible for a protein.Supershifts of the native RNA-protein complex could only be achieved with anti-hnRNP L, suggesting that within this multiprotein RNA complex, only hnRNP L is exposed to the antibodies, whereas the hnRNP I/PTB is mainly responsible for its interaction with the mRNA. Up-regulation of iNOS by septic shock reduces the RNA-protein complex formation, thus showing that hnRNP I/PTB and hnRNP L binding to the iNOS mRNA is modulated by inflammation. This suggests a novel function for the two previously described proteins as regulators of the iNOS gene.
Site-directed mutagenesis is often a prerequisite for elucidation of the functional significance of cis- and trans-factors involved in gene regulation. The aim of this study was to delete the primary binding site for heterogeneous nuclear ribonucleoprotein I (hnRNPI) within the inducible nitric oxide synthase (iNOS) 3' untranslated region mRNA. The binding site consists of a 53-nucleotide CU-rich region within a long stretch of polypyrimidines. As a result of primer pair annealing, the repetitive sequence limited the use of several deletion methods based on polymerase chain reaction. Therefore, a megaprimer approach was chosen. The megaprimer was produced by a forward primer outside the polypyrimidine-rich region, and a mutagenic reverse primer annealing to flanking regions of the desired deletion, thereby looping out the target sequence. Subsequently, this megaprimer was used to create the final deletion recombinant. The deletion was verified by sequencing and by ultraviolet cross-linking mouse liver protein extracts with radiolabeled mutant and wild-type RNAs. In conclusion, the megaprimer method offers a solution for generating large internal deletions in repetitive sequences, which facilitates investigations on large repetitive DNA or RNA regions interacting with trans-factors.
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