Literature DB >> 33525475

Angiogenin (ANG)-Ribonuclease Inhibitor (RNH1) System in Protein Synthesis and Disease.

Mayuresh Anant Sarangdhar1,2, Ramanjaneyulu Allam1,2.   

Abstract

Protein synthesis is a highly complex process executed by well-organized translation machinery. Ribosomes, tRNAs and mRNAs are the principal components of this machinery whereas RNA binding proteins and ribosome interacting partners act as accessory factors. Angiogenin (ANG)-Ribonuclease inhibitor (RNH1) system is one such accessory part of the translation machinery that came into focus afresh due to its unconventional role in the translation. ANG is conventionally known for its ability to induce blood vessel formation and RNH1 as a "sentry" to protect RNAs from extracellular RNases. However, recent studies suggest them to be important in translation regulation. During cell homeostasis, ANG in the nucleus promotes rRNA transcription. While under stress, ANG translocates to the cytosol and cleaves tRNA into fragments which inhibit ribosome biogenesis and protein synthesis. RNH1, which intimately interacts with ANG to inhibit its ribonucleolytic activity, can also bind to the 40S ribosomes and control translation by yet to be known mechanisms. Here, we review recent advancement in the knowledge of translation regulation by the ANG-RNH1 system. We also gather information about this system in cell homeostasis as well as in pathological conditions such as cancer and ribosomopathies. Additionally, we discuss the future research directions and therapeutic potential of this system.

Entities:  

Keywords:  Angiogenin (ANG); RNases; Ribonuclease inhibitor (RNH1); mRNA translation regulation; ribosomal heterogeneity; transcript-specific translation and ribosomopathies

Year:  2021        PMID: 33525475      PMCID: PMC7866052          DOI: 10.3390/ijms22031287

Source DB:  PubMed          Journal:  Int J Mol Sci        ISSN: 1422-0067            Impact factor:   5.923


  68 in total

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4.  Selective Cleavage at CCA Ends and Anticodon Loops of tRNAs by Stress-Induced RNases.

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5.  Selective cleavage of ncRNA and antiviral activity by RNase2/EDN in THP1-induced macrophages.

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