<p>The Hedgehog (Hh) signaling pathway plays an essential role in tissue development and homeostasis.Glioma-associated oncogene homolog 1 (Gli1) functions as a key transcription factor in Hedgehog signaling and acts as a direct target gene within this pathway. Gli1-positive (Gli1<sup>+</sup>) cells functions as pivotal effector cells of the Hh pathway, and play complex and critical roles in oral tissue development, homeostasis, post-injury repair, and oral disease progression. Recent advances in lineage-tracing techniques and single-cell RNA sequencing have deepened our understanding of Gli1<sup>+</sup> cells, evolving from simple Hh pathway effectors to heterogeneous mesenchymal stem cell subsets, significantly enriching our knowledge of oral biology and pathology. This review systematically summarizes the fundamental characteristics of Gli1<sup>+</sup> cells and their function in oral tissues.Their contributions to the initiation and progression of oral diseases, and the latest advances in Gli1<sup>+</sup> cell-based tissue regeneration and disease treatment are also discussed. By integrating our findings on the biological properties of Gli1<sup>+</sup> cells into their immunomodulatory roles in disease and Gli1<sup>+</sup> cell-centered tissue regeneration strategies, we aim to provide a theoretical foundation for elucidating the cellular and molecular mechanisms that maintain oral tissue homeostasis. These insights pave the way for novel and precise therapeutic approaches in oral regenerative medicine.</p>

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Targeting Gli1+ Cells for Oral Tissue Regeneration and Disease Treatment

  • Li Xiao,
  • Mi Ai,
  • Laidi Wu,
  • Yilin Yu,
  • Yingguang Cao,
  • Ke Song

摘要

The Hedgehog (Hh) signaling pathway plays an essential role in tissue development and homeostasis.Glioma-associated oncogene homolog 1 (Gli1) functions as a key transcription factor in Hedgehog signaling and acts as a direct target gene within this pathway. Gli1-positive (Gli1+) cells functions as pivotal effector cells of the Hh pathway, and play complex and critical roles in oral tissue development, homeostasis, post-injury repair, and oral disease progression. Recent advances in lineage-tracing techniques and single-cell RNA sequencing have deepened our understanding of Gli1+ cells, evolving from simple Hh pathway effectors to heterogeneous mesenchymal stem cell subsets, significantly enriching our knowledge of oral biology and pathology. This review systematically summarizes the fundamental characteristics of Gli1+ cells and their function in oral tissues.Their contributions to the initiation and progression of oral diseases, and the latest advances in Gli1+ cell-based tissue regeneration and disease treatment are also discussed. By integrating our findings on the biological properties of Gli1+ cells into their immunomodulatory roles in disease and Gli1+ cell-centered tissue regeneration strategies, we aim to provide a theoretical foundation for elucidating the cellular and molecular mechanisms that maintain oral tissue homeostasis. These insights pave the way for novel and precise therapeutic approaches in oral regenerative medicine.