Marco Tripodi

Pubblicazioni

Titolo Pubblicato in Anno
The Snail repressor recruits EZH2 to specific genomic sites through the enrollment of the lncRNA HOTAIR in epithelial-to-mesenchymal transition ONCOGENE 2017
Modulating the Substrate Stiffness to Manipulate Differentiation of Resident Liver Stem Cells and to Improve the Differentiation State of Hepatocytes STEM CELLS INTERNATIONAL 2016
Extracellular matrix molecular remodeling in human liver fibrosis evolution PLOS ONE 2016
Molecular Mechanisms Underlying Peritoneal EMT and Fibrosis STEM CELLS INTERNATIONAL 2016
Hepatitis C virus relies on lipoproteins for its life cycle WORLD JOURNAL OF GASTROENTEROLOGY 2016
The lncRNA HOTAIR links the repressor Snail to epigenetic modifications of specific genomic sites in Epithelial-to-Mesenchymal Transition FISV - Federazione Italiana Scienze della Vita Program and Abstracts of the XIV FISV CONGRESS 2016
The RNA binding protein SYNCRIP controls microRNAs sorting in exosomes FISV - Federazione Italiana Scienze della Vita Program and Abstracts of the XIV FISV CONGRESS 2016
TGFbeta induces binucleation/polyploidization in hepatocytes through a src-Dependent cytokinesis failure PLOS ONE 2016
MiR675-5p acts on HIF-1α to sustain hypoxic responses: A new therapeutic strategy for glioma THERANOSTICS 2016
The RNA-Binding Protein SYNCRIP Is a Component of the Hepatocyte Exosomal Machinery Controlling MicroRNA Sorting CELL REPORTS 2016
SETDB1 is a new promising target in HCC therapy CHINESE CLINICAL ONCOLOGY 2016
Molecular mechanisms controlling the phenotype and the EMT/MET dynamics of hepatocyte LIVER INTERNATIONAL 2015
eIF6 over-expression increases the motility and invasiveness of cancer cells by modulating the expression of a critical subset of membrane-bound proteins BMC CANCER 2015
Epigenetic control of EMT/MET dynamics: HNF4α impacts DNMT3s through miRs-29 BIOCHIMICA ET BIOPHYSICA ACTA. GENE REGULATORY MECHANISMS 2015
New Tools for Molecular Therapy of Hepatocellular Carcinoma DISEASES 2015
Autophagy regulates hepatocyte identity and epithelial-to-mesenchymal and mesenchymal-to-epithelial transitions promoting Snail degradation CELL DEATH & DISEASE 2015
A lncRNA-mediated interaction between Snail and Ezh2 governs epigenetic modifications causal to EMT of the hepatocyte 2015
A lncRNA-mediated interaction between Snail and Ezh2 governs epigenetic modifications causal to EMT of the hepatocyte ABCD congress 2015, The biennial congress of italian association of cell biology and differentiation 2015
A lncRNA-mediated interaction between Snail and Ezh2 governs epigenetic modifications causal to EMT of the hepatocyte 2015
CD90+ liver cancer cells modulate endothelial cell phenotype through the release of exosomes containing H19 lncRNA MOLECULAR CANCER 2015

ERC

  • LS1
  • LS1_1
  • LS1_3
  • LS2_3
  • LS2_4
  • LS2_8
  • LS3_5
  • LS4_12

KET

  • Life-science technologies & biotechnologies

Interessi di ricerca

molecular mechanisms controlling cell plasticity. In particular focused  on mechanisms controlling cell differentiation, epithelial-to-mesenchymal transition and tumour onset and dissemination.  In three recent studies, we unveiled  the role and regulation of a lncRNA, HOTAIR, in the progression of epithelial-to-mesenchymal transition. Specifically, we found that  this lncRNA binds to the chromatin, together with the transcriptional factor Snail, in order to recruit chromatin modifiers on the promoters of epithelial genes. With respect to its transcriptional regulation, we demonstrated that is mainly mediated by the  transcriptional factor, HNF4a, that binds to its promoter and enhancer and modifies a higher-order chromatin structure promoting HOTAIR transcription. More recently we developed  a strategy to counteract HOTAIR function in epithelial-to-mesenchymal transition through an RNA-based approach counteracting HOTAIR-Snail interaction and chromatin modifications on the promoter regions of Snail-target epithelial genes.

In parallel , weare involved in a  project related to the identification of RNA-binding proteins interacting with microRNAs and responsible for microRNAs loading inside extracellular vesicles, specifically into exosomes. 

 

Keywords

EMT Epithelial-Mesenchymal Transition
long non-coding RNA (lncRNA)
miRNA
RNA-protein interactions
epigenetic

Progetti di Ricerca

© Università degli Studi di Roma "La Sapienza" - Piazzale Aldo Moro 5, 00185 Roma