RNA-Binding Proteins Tia-1 and Tiar Link the Phosphorylation of Eif-2α to the Assembly of Mammalian Stress Granules

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Abstract

In response to environmental stress, the related RNA-binding proteins TIA-1 and TIAR colocalize with poly(A) ⁺ RNA at cytoplasmic foci that resemble the stress granules (SGs) that harbor untranslated mRNAs in heat shocked plant cells ( Nover et al. 1989; Nover et al. 1983; Scharf et al. 1998). The accumulation of untranslated mRNA at SGs is reversible in cells that recover from a sublethal stress, but irreversible in cells subjected to a lethal stress. We have found that the assembly of TIA-1/R ⁺ SGs is initiated by the phosphorylation of eIF-2α. A phosphomimetic eIF-2α mutant (S51D) induces the assembly of SGs, whereas a nonphosphorylatable eIF-2α mutant (S51A) prevents the assembly of SGs. The ability of a TIA-1 mutant lacking its RNA-binding domains to function as a transdominant inhibitor of SG formation suggests that this RNA-binding protein acts downstream of the phosphorylation of eIF-2α to promote the sequestration of untranslated mRNAs at SGs. The assembly and disassembly of SGs could regulate the duration of stress- induced translational arrest in cells recovering from environmental stress.

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Transgenetic studies implicate interactions between homologous PrP isoforms in scrapie prion replication.

Stanley Prusiner, Michael F Scott, Dallas Foster … (1990)

Transgenic (Tg) mice expressing both Syrian hamster (Ha) and mouse (Mo) prion protein (PrP) genes were used to probe the mechanism of scrapie prion replication. Four Tg lines expressing HaPrP exhibited distinct incubation times ranging from 48 to 277 days, which correlated inversely with HaPrP mRNA and HaPrPC. Bioassays of Tg brain extracts showed that the prion inoculum dictates which prions are synthesized de novo. Tg mice inoculated with Ha prions had approximately 10(9) ID50 units of Ha prions per gram of brain and less than 10 units of Mo prions. Conversely, Tg mice inoculated with Mo prions synthesized Mo prions but not Ha prions. Similarly, Tg mice inoculated with Ha prions exhibited neuropathologic changes characteristic of hamsters with scrapie, while Mo prions produced changes similar to those in non-Tg mice. Our results argue that species specificity of scrapie prions resides in the PrP sequence and prion synthesis is initiated by a species-specific interaction between PrPSc in the inoculum and homologous PrPC.

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Shuttling of pre-mRNA binding proteins between nucleus and cytoplasm.

Paula Magda S. Roma, G Dreyfuss (1992)

RNA polymerase II transcripts, heterogeneous nuclear RNAs (hnRNAs), associate in the nucleus with specific proteins that bind premessenger RNA (hnRNP proteins) and with small nuclear ribonucleoprotein particles (snRNPs). These hnRNA-hnRNP-snRNP complexes assemble on nascent transcripts and hnRNA is processed to mRNA in them. HnRNP proteins have been localized to the nucleoplasm and their functions were presumed to be limited to nuclear events in mRNA biogenesis. It was proposed that an exchange of hnRNP for mRNA-binding proteins accompanies transport of mRNA from the nucleus to the cytoplasm. We show here that several of the abundant hnRNP proteins, including A1, shuttle between the nucleus and the cytoplasm. HnRNP proteins may thus also have cytoplasmic functions. Furthermore, when in the cytoplasm, A1 is bound to mRNA and RNA polymerase II transcription is necessary before it can return to the nucleus. We propose that the cytoplasmic ribonucleoprotein complex of mRNA with hnRNP proteins is the substrate of nuclear-cytoplasmic transport of mRNA.