Frontiers in Cell and Developmental Biology (May 2024)

Involvement of N4BP2L1, PLEKHA4, and BEGAIN genes in breast cancer and muscle cell development

  • Hassan Dastsooz,
  • Hassan Dastsooz,
  • Hassan Dastsooz,
  • Francesca Anselmi,
  • Andrea Lauria,
  • Chiara Cicconetti,
  • Valentina Proserpio,
  • Elham Mohammadisoleimani,
  • Zahra Firoozi,
  • Yaser Mansoori,
  • Yaser Mansoori,
  • Hamed Haghi-Aminjan,
  • Livia Caizzi,
  • Salvatore Oliviero,
  • Salvatore Oliviero,
  • Salvatore Oliviero

DOI
https://doi.org/10.3389/fcell.2024.1295403
Journal volume & issue
Vol. 12

Abstract

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Patients with breast cancer show altered expression of genes within the pectoralis major skeletal muscle cells of the breast. Through analyses of The Cancer Genome Atlas (TCGA)-breast cancer (BRCA), we identified three previously uncharacterized putative novel tumor suppressor genes expressed in normal muscle cells, whose expression was downregulated in breast tumors. We found that NEDD4 binding protein 2-like 1 (N4BP2L1), pleckstrin homology domain-containing family A member 4 (PLEKHA4), and brain-enriched guanylate kinase-associated protein (BEGAIN) that are normally highly expressed in breast myoepithelial cells and smooth muscle cells were significantly downregulated in breast tumor tissues of a cohort of 50 patients with this cancer. Our data revealed that the low expression of PLEKHA4 in patients with menopause below 50 years correlated with a higher risk of breast cancer. Moreover, we identified N4BP2L1 and BEGAIN as potential biomarkers of HER2-positive breast cancer. Furthermore, low BEGAIN expression in breast cancer patients with blood fat, heart problems, and diabetes correlated with a higher risk of this cancer. In addition, protein and RNA expression analysis of TCGA-BRCA revealed N4BP2L1 as a promising diagnostic protein biomarker in breast cancer. In addition, the in silico data of scRNA-seq showed high expression of these genes in several cell types of normal breast tissue, including breast myoepithelial cells and smooth muscle cells. Thus, our results suggest their possible tumor-suppressive function in breast cancer and muscle development.

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