mRNA stability: in trans-it.

The regulation of mRNA stability is an important step in the control of gene expression. Characterization of the mechanisms involved in the turnover of individual mRNAs has identified a requirement for specific cis-acting sequences and trans-acting factors, as well as an involvement of the translation apparatus. In the past year, significant progress has been made in the identification of trans-acting factors by both biochemical and genetic approaches. This review summarizes that progress and promotes the notion that the ribosome itself should also be considered as a trans-acting component of the mRNA decay machinery.     

Destroy this (RNA) message after reading it!

Traditionally, mRNA decay was considered a simple destruction step of mRNA. This view has been challenged in the past years and mRNA decay now appears as an essential step in the regulation of gene expression. We first present a short review of the different reactions involved in mRNA decay, as well as some indications on their cellular location. Then, we describe two processes in which mRNA decay plays an essential role: (1) the mRNA quality control mechanisms that get rid of aberrant mRNAs (nonsensE-mediated decay, non-stop decay, no-go decay); (2) the regulation of mRNA stability through the targeting of specific factors to the mRNA (proteins or small non-coding RNAs).     

Regulation of cytoplasmic mRNA decay

Discoveries made over the past 20 years highlight the importance of mRNA decay as a means of modulating gene expression and thereby protein production. Up until recently, studies largely focused on identifying cis-acting sequences that serve as mRNA stability or instability elements, the proteins that bind these elements, how the process of translation influences mRNA decay and the ribonucleases that catalyse decay. Now, current studies have begun to elucidate how the decay process is regulated. This Review examines our current understanding of how mammalian cell mRNA decay is controlled by different signalling pathways and lays out a framework for future research.