Scientific Reports (Jul 2024)

ActivinA modulates B-acute lymphoblastic leukaemia cell communication and survival by inducing extracellular vesicles production

  • Eugenia Licari,
  • Giulia Cricrì,
  • Mario Mauri,
  • Francesca Raimondo,
  • Laura Dioni,
  • Chiara Favero,
  • Alice Giussani,
  • Rita Starace,
  • Silvia Nucera,
  • Andrea Biondi,
  • Rocco Piazza,
  • Valentina Bollati,
  • Erica Dander,
  • Giovanna D’Amico

DOI
https://doi.org/10.1038/s41598-024-66779-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract Extracellular vesicles (EVs) are a new mechanism of cellular communication, by delivering their cargo into target cells to modulate molecular pathways. EV-mediated crosstalk contributes to tumor survival and resistance to cellular stress. However, the role of EVs in B-cell Acute Lymphoblastic Leukaemia (B-ALL) awaits to be thoroughly investigated. We recently published that ActivinA increases intracellular calcium levels and promotes actin polymerization in B-ALL cells. These biological processes guide cytoskeleton reorganization, which is a crucial event for EV secretion and internalization. Hence, we investigated the role of EVs in the context of B-ALL and the impact of ActivinA on this phenomenon. We demonstrated that leukemic cells release a higher number of EVs in response to ActivinA treatment, and they can actively uptake EVs released by other B-ALL cells. Under culture-induced stress conditions, EVs coculture promoted cell survival in B-ALL cells in a dose-dependent manner. Direct stimulation of B-ALL cells with ActivinA or with EVs isolated from ActivinA-stimulated cells was even more effective in preventing cell death. This effect can be possibly ascribed to the increase of vesiculation and modifications of EV-associated microRNAs induced by ActivinA. These data demonstrate that ActivinA boosts EV-mediated B-ALL crosstalk, improving leukemia survival in stress conditions.

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