Lena Sophie Tittel scite author profile

During translation, messenger RNAs (mRNAs) are decoded by ribosomes which can stall for various reasons. These include chemical damage, codon composition, starvation, or translation inhibition. Trailing ribosomes can collide with stalled ribosomes, potentially leading to dysfunctional or toxic proteins. Such aberrant proteins can form aggregates and favor diseases, especially neurodegeneration. To prevent this, both eukaryotes and bacteria have evolved different pathways to remove faulty nascent peptides, mRNAs and defective ribosomes from the collided complex. In eukaryotes, ubiquitin ligases play central roles in triggering downstream responses and several complexes have been characterized that split affected ribosomes and facilitate degradation of the various components. As collided ribosomes signal translation stress to affected cells, in eukaryotes additional stress response pathways are triggered when collisions are sensed. These pathways inhibit translation and modulate cell survival and immune responses. Here, we summarize the current state of knowledge about rescue and stress response pathways triggered by ribosome collisions.

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HSP70 binds to specific non-coding RNA and regulates human RNA Polymerase III

Leone

Srivastava

Hummel

et al. 2023

Preprint

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Molecular chaperones are critical for protein homeostasis and are implicated in several human pathologies such as neurodegeneration and cancer. While the binding of chaperones to nascent and misfolded proteins has been studied in great detail, the direct interaction between chaperones and RNA has not been systematically investigated. Here we provide the evidence for widespread interaction between chaperones and RNA in human cells. We show that the major chaperone Heat-Shock Protein 70 (HSP70) binds to non-coding RNA transcribed by RNA Polymerase III (Pol III) such as tRNA and 5S rRNA. Global chromatin profiling revealed that HSP70 binds genomic sites of transcription by Pol III. Detailed biochemical analyses showed that HSP70 facilitates transcription of its target non-coding RNA by binding to Pol III. Thus our study uncovers an unexpected role of HSP70-RNA interaction in the biogenesis of a specific class of non-coding RNA with wider implications in neurodegeneration and cancer.

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Lena Sophie Tittel

Molecular Highway Patrol for Ribosome Collisions

HSP70 binds to specific non-coding RNA and regulates human RNA Polymerase III

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