Analysis of Translational Control in the Integrated Stress Response by Polysome Profiling.

Abstract

Translational control provides a strategy for rapid optimization of gene expression and restoration of protein homeostasis in response to cellular stresses. An important mechanism for translational control involves phosphorylation of eIF2, which invokes the integrated stress response (ISR). In the ISR, initiation of bulk protein synthesis is lowered coincident with enhanced translation efficiency of select gene transcripts that serve critical functions in stress adaptation. In this chapter, we focus on polysome profiling as a tool for establishing and characterizing translation control induced by eIF2 phosphorylation during environmental stresses. We describe in detail the experimental strategies of polysome profiling for detecting bulk repression of the translational machinery and quantifying translational control of key stress-induced gene transcripts. These experimental strategies can be adjusted to measure individual gene transcripts or genome-wide analyses and can be adapted to measure changes in the levels of ribosome subunits and associated factors invoked by various cellular cues in the ISR.