Scientific Reports (Dec 2023)

Hsa-microRNA-1249-3p/Homeobox A13 axis modulates the expression of β-catenin gene in human epithelial cells

  • Chiara Mazziotta,
  • Maria Rosa Iaquinta,
  • Maria Letizia Tramarin,
  • Giada Badiale,
  • Christian Felice Cervellera,
  • Giulia Tonnini,
  • Simone Patergnani,
  • Paolo Pinton,
  • Giovanni Lanza,
  • Roberta Gafà,
  • Mauro Tognon,
  • Fernanda Martini,
  • Monica De Mattei,
  • John Charles Rotondo

DOI
https://doi.org/10.1038/s41598-023-49837-0
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract Intercellular adhesion is a key function for epithelial cells. The fundamental mechanisms relying on epithelial cell adhesion have been partially uncovered. Hsa-microRNA-1249-3p (hsa-miR-1249-3p) plays a role in the epithelial mesenchymal transition in carcinoma cells, but its physiological function in epithelial cells is unknown. We aimed to investigate the role and molecular mechanisms of hsa-miR-1249-3p on epithelial cell functions. Hsa-miR-1249-3p was overexpressed in human epithelial cells and uterine cervical tissues, compared to cervical carcinoma cells and precancerous tissues, respectively. Hsa-miR-1249-3p was analyzed to verify its regulatory function on Homeobox A13 (HOXA13) target gene and its downstream cell adhesion gene β-catenin. Functional experiments indicated that hsa-miR-1249-3p inhibition prompted the mRNA and protein overexpression of HOXA13 which, in turn, led to the β-catenin protein expression. Moreover, hsa-miR-1249-3p inhibition induced a strong colony forming ability in epithelial cells, suggesting the miR involvement in cell adhesion machinery. These data indicate that hsa-miR-1249-3p regulates the expression of HOXA13 and its downstream cell adhesion gene β-catenin, possible resulting in cell adhesion modification in epithelial cells. This study will allow the set-up of further investigations aimed at exploring the relationship between the hsa-miR-1249-3p/HOXA13 axis and downstream cell adhesion genes.