Stem Cell Reports (Jun 2016)

Loss of Asxl1 Alters Self-Renewal and Cell Fate of Bone Marrow Stromal Cells, Leading to Bohring-Opitz-like Syndrome in Mice

  • Peng Zhang,
  • Caihong Xing,
  • Steven D. Rhodes,
  • Yongzheng He,
  • Kai Deng,
  • Zhaomin Li,
  • Fuhong He,
  • Caiying Zhu,
  • Lihn Nguyen,
  • Yuan Zhou,
  • Shi Chen,
  • Khalid S. Mohammad,
  • Theresa A. Guise,
  • Omar Abdel-Wahab,
  • Mingjiang Xu,
  • Qian-Fei Wang,
  • Feng-Chun Yang

Journal volume & issue
Vol. 6, no. 6
pp. 914 – 925

Abstract

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Summary: De novo ASXL1 mutations are found in patients with Bohring-Opitz syndrome, a disease with severe developmental defects and early childhood mortality. The underlying pathologic mechanisms remain largely unknown. Using Asxl1-targeted murine models, we found that Asxl1 global loss as well as conditional deletion in osteoblasts and their progenitors led to significant bone loss and a markedly decreased number of bone marrow stromal cells (BMSCs) compared with wild-type littermates. Asxl1−/− BMSCs displayed impaired self-renewal and skewed differentiation, away from osteoblasts and favoring adipocytes. RNA-sequencing analysis revealed altered expression of genes involved in cell proliferation, skeletal development, and morphogenesis. Furthermore, gene set enrichment analysis showed decreased expression of stem cell self-renewal gene signature, suggesting a role of Asxl1 in regulating the stemness of BMSCs. Importantly, re-introduction of Asxl1 normalized NANOG and OCT4 expression and restored the self-renewal capacity of Asxl1−/− BMSCs. Our study unveils a pivotal role of ASXL1 in the maintenance of BMSC functions and skeletal development. : In this article, Yang, Wang, and colleagues show that loss of Asxl1 led to multiple skeletal developmental defects, closely reminiscent of Bohring-Opitz syndrome. They identified that the skeletal defects were associated with an impaired self-renewal and skewed lineage commitment of bone marrow stromal cells (BMSCs). These findings indicate a pivotal role of ASXL1 in the maintenance of BMSC functions and skeletal development. Keywords: Bohring-Opitz syndrome, ASXL1 mutation, bone marrow stromal cell, self-renewal and differentiation, skeletal development