Scientific Reports (Dec 2023)

The Notch1 signaling pathway directly modulates the human RANKL-induced osteoclastogenesis

  • Costanzo Padovano,
  • Salvatore Daniele Bianco,
  • Francesca Sansico,
  • Elisabetta De Santis,
  • Francesco Tamiro,
  • Mattia Colucci,
  • Beatrice Totti,
  • Serena Di Iasio,
  • Gaja Bruno,
  • Patrizio Panelli,
  • Giuseppe Miscio,
  • Tommaso Mazza,
  • Vincenzo Giambra

DOI
https://doi.org/10.1038/s41598-023-48615-2
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract Notch signaling is an evolutionary conserved pathway with a key role in tissue homeostasis, differentiation and proliferation. It was reported that Notch1 receptor negatively regulates mouse osteoclast development and formation by inhibiting the expression of macrophage colony-stimulating factor in mesenchymal cells. Nonetheless, the involvement of Notch1 pathway in the generation of human osteoclasts is still controversial. Here, we report that the constitutive activation of Notch1 signaling induced a differentiation block in human mononuclear CD14+ cells directly isolated from peripheral blood mononuclear cells (PBMCs) upon in vitro stimulation to osteoclasts. Additionally, using a combined approach of single-cell RNA sequencing (scRNA-Seq) simultaneously with a panel of 31 oligo-conjugated antibodies against cell surface markers (AbSeq assay) as well as unsupervised learning methods, we detected four different cell stages of human RANKL-induced osteoclastogenesis after 5 days in which Notch1 signaling enforces the cell expansion of specific subsets. These cell populations were characterized by distinct gene expression and immunophenotypic profiles and active Notch1, JAK/STAT and WNT signaling pathways. Furthermore, cell–cell communication analyses revealed extrinsic modulators of osteoclast progenitors including the IL7/IL7R and WNT5a/RYK axes. Interestingly, we also report that Interleukin-7 receptor (IL7R) was a downstream effector of Notch1 pathway and that Notch1 and IL7R interplay promoted cell expansion of human RANKL-induced osteoclast progenitors. Taken together, these findings underline a novel cell pattern of human osteoclastogenesis, outlining the key role of Notch1 and IL-7R signaling pathways.