Knockdown of the Ribosomal Protein eL38 in HEK293 Cells Changes the Translational Efficiency of Specific Genes.

Alexander V Gopanenko,Alexey E Tupikin,Marsel R Kabilov,Galina G Karpova,Alena V Kolobova,Alexey A Malygin

doi:10.3390/ijms22094531

Abstract

The protein eL38 is one of the smallest proteins of the mammalian ribosome, which is a component of its large (60S) subunit. The haploinsufficiency of eL38 in mice leads to the Tail-short mutant phenotype characterized by defects in the development of the axial skeleton caused by the poor translation of mRNA subsets of Hox genes. Using the ribosome profiling assay applied to HEK293 cells knocked down of eL38, we examined the effects of the lack of eL38 in 60S subunits on gene expression at the level of translation. A four-fold decrease in the cell content of eL38 was shown to result in significant changes in the translational efficiencies of 150 genes. Among the genes, whose expression at the level of translation was enhanced, there were mainly those associated with basic metabolic processes; namely, translation, protein folding, chromosome organization, splicing, and others. The set of genes with reduced translation efficiencies contained those that are mostly involved in the processes related to the regulation of transcription, including the activation of Hox genes. Thus, we demonstrated that eL38 insufficiency significantly affects the expression of certain genes at the translational level. Our findings facilitate understanding the possible causes of some anomalies in eL38-deficient animals.

Highlights

Cells were transfected with specific siRNAs targeting the coding sequence (CDS) of eL38 mRNA, utilizing cells transfected with non-targeting siRNA as a control
TheThe analysis of Ribo-seq data data obtained on HEK293 cells, cells, wherewhere the content of ribosoanalysis of Ribo-seq obtained on HEK293 the content of ribomalsomal proteinprotein eL38 was reduced by interference, revealed significant changes in gene in eL38 was reduced by RNA interference, revealed significant changes expression at the translational level compared to cells with normal content
Activation was found to occur for 84 representative genes associated with the main cellular metabolic processes, such as translation, protein folding, mRNA processing and splicing, and others; many of these genes turned out to be implicated in several such processes

Summary

Introduction

There are several observations that in mammalian ribosomes the levels of some proteins are significantly reduced compared to those of all other ribosomal proteins [4,5]. This means that mammalian cells contain subpopulations of active ribosomes, heterogeneous in protein composition, which, according to the concept of specialized ribosomes [6] arising from the ribosome filter hypothesis [7], can preferentially translate different subsets of mRNAs

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