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Noncoding and Translational Modulation of Gene Expression and Epigenetic Changes

Project
Gene expression studies rely on high throughput techniques, which do not take in account conceptual limits. I will overcome this situation by exploiting two biological facts. First, RNAs that are important in tissue function are a subset of the global mass, but are always associated with the ribosomal machinery and as such should be identified. Second, gene expression is the outcome of dynamic fluctuations that with time create a unique expression pattern. We need to dynamically label cell populations that undergo stress and follow them to generate a gene expression signature. To achieve my goal, I will consider: 1. Translational stress generated by viral infection or accumulation of misfolded proteins; 2. human CD4+ T lymphocyte subsets which are key to orchestrate immune responses; 3. EIF6 model of metabolic reprogramming.
1. Activation of eIF2alpha phosphorylation by viral infection generates a translational response in which silent mRNAs containing upstream ORFs (uORF) are translated. I will exploit this observation to construct the first in vivo reporter model of translational stress. We will label genetically cells that have translational stress, to identify all the changes that a single cell undergoes after viral infection/accumulation of undegraded proteins.
2. I will selectively sequence for the first time mRNAs and ncRNAs associated with the ribosomal machinery in human cells with a defined functional status.
3. Spectacular data have shown that translation factor eIF6 regulates tumorigenesis by inducing a profound metabolic reprogramming. This observation suggests that, in vivo, translation acts upstream of transcription. We will model how a short translational input results in a complex epigenetic change.
Significance: a revolution in finding biomarkers/drug targets. Generate a map of predictors of the process from stress to disease. Dscriminate biologically active sequences from background. Define how transient translation reshapes gene expression.
  • Overview
  • Publications

Overview

Contributors

BIFFO STEFANO   Scientific Manager  

Departments involved

Dipartimento di Bioscienze   Principale  

Type

7PQ_ERC - 7 Programma Quadro_European Research Coucil

Funder

EUROPEAN COMMISSION
External Organization Funding Organization

Date/time interval

May 1, 2014 - April 30, 2019

Project duration

60 months

Publications

Outputs (6)

Targeting of eIF6-driven translation induces a metabolic rewiring that reduces NAFLD and the consequent evolution to hepatocellular carcinoma 
NATURE COMMUNICATIONS
NATURE RESEARCH
2021
Academic Article
Open Access
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Ribosome profiling unveils translational regulation of metabolic enzymes in primary CD4+ Th1 cells 
DEVELOPMENTAL AND COMPARATIVE IMMUNOLOGY
ELSEVIER
2020
Academic Article
Open Access
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Modulating eIF6 levels unveils the role of translation in ecdysone biosynthesis during Drosophila development 
DEVELOPMENTAL BIOLOGY
ELSEVIER
2019
Academic Article
Partially Open Access
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Rack1 specifically regulates translation through its binding to ribosomes 
MOLECULAR AND CELLULAR BIOLOGY
AMERICAN SOCIETY FOR MICROBIOLOGY
2018
Academic Article
Open Access
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The Translational Machinery of Human CD4+ T Cells Is Poised for Activation and Controls the Switch from Quiescence to Metabolic Remodeling 
CELL METABOLISM
CELL PRESS
2018
Academic Article
Open Access
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The Role of Eif6 in Skeletal Muscle Homeostasis Revealed by Endurance Training Co-expression Networks 
CELL REPORTS
2017
Academic Article
Open Access
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