Despite being tightly regulated, messenger RNA (mRNA) translation, a manner in which cells control expression of genes and rapidly respond to stimuli, is highly dysfunctional and plastic in pathologies including cancer. Conversely, the investigation of molecular mechanisms whereby mRNA translation becomes aberrant in cancer, as well as inhibition thereof, become critical in developing novel therapeutic approaches. More specifically, in malignancies such as chronic lymphocytic leukemia in which aberrant global and transcript specific translation has been linked with poorer patient outcomes, targeting translation is a relevant approach, with various translation inhibitors under development. Here we elaborate on a protein synthesis assay by flow cytometry, O-propargyl-puromycin, demonstrating global mRNA translation rate with a variety of different applications including cell lines, primary cells or co-culture systems in vitro. This method provides a comprehensive tool in quantifying the rate of global mRNA translation in cancer cells, as well as that of the tumor microenvironment cells, or in response to inhibitory therapeutic agents while offering the possibility to simultaneously assess other cellular markers.
Keywords: FL3; Flavagline; Immunotherapy; PBMC; mRNA translation inhibition.
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