Scientific Program
Tissue and organ homeostasis
RESEARCH GROUP
Tetraspanin-enriched membrane microdomains in extracellular vesicles and cell adhesion and migration
María Yáñez-Mó
To understand cell communication, we study tetraspanin nanodomains on the plasma membrane and extracellular vesicles (EVs). Our approach integrates comprehensive cell biology investigations seeking to unravel the molecular mechanisms dictating EV functionality within biological systems with cutting-edge biotechnological innovations for personalized medicine and new therapies.
Research
Our research team is dedicated to advancing the understanding of tetraspanin-enriched nanodomains, specialized membrane structures crucial in cell adhesion and migration processes. In addition, tetraspanin proteins are highly prevalent on extracellular vesicles (EVs), shuttles for bioactive proteins, lipids, and RNAs, unveiling novel pathways for intercellular communication.
Our investigations aim to unravel the intricate mechanisms underlying EV biogenesis and their subsequent uptake by recipient cells. Within our group we also pioneer innovative approaches for EV isolation, detection and quantification for their use in liquid biopsy in personalized medicine. Moreover, we are at the forefront of engineering synthetic exosome mimetics, harnessing tetraspanin-based tools as therapeutic tools to replicate and enhance natural cellular processes.
Group members
María Yáñez Mo
Lab.: 412 Ext.: 4639
maria.yanez(at)cbm.csic.es
Soraya López Martín
Lab.: 412 Ext.: 4425
Joaquin Morales Bravo de Medina
Lab.: 412 Ext.: 4425
joaquin.morales(at)cbm.csic.es
Miguel Palma Cobo
Lab.: 412 Ext.: 4425
miguel.palma(at)cbm.csic.es
Selected publications
Tetraspanins interweave EV secretion, endosomal network dynamics and cellular metabolism
Víctor Toribio et al.
CD9 inhibition reveals a functional connection of extracellular vesicle secretion with mitophagy in melanoma cells
Henar Suárez et al.
Two Complementary Strategies to Quantitate Extracellular Vesicle Uptake Using Bioluminescence and Non-Lipidic Dyes
Víctor Toribio et al.
Optimization of extracellular vesicle isolation and their separation from lipoproteins by size exclusion chromatography
Beatriz Benayas et al.