Epigenetic regulation of early osteogenesis and mineralized tissue formation by a HOXA10-PBX1-associated complex

Jonathan A.R. Gordon, Mohammad Q. Hassan, Matthew Koss, Martin Montecino, Licia Selleri, Andre J. Van Wijnen, Janet L. Stein, Gary S. Stein, Jane B. Lian

Research output: Contribution to journalArticlepeer-review

37 Scopus citations

Abstract

Homeodomain-containing (HOX) factors such as the abdominal class homeodomain protein HOXA10 and the TALE-family protein PBX1 form coregulatory complexes and are potent transcriptional and epigenetic regulators of tissue morphogenesis. We have identified that HOXA10 and PBX1 are expressed in osteoprogenitors; however, their role in osteogenesis has not been established. To determine the mechanism of HOXA10-PBX-mediated regulation of osteoblast commitment and the related gene expression, PBX1 or HOX10 were depleted (shRNA or genetic deletion, respectively) or exogenously expressed in C3H10T1/2, bone marrow stromal progenitors, and MC3T3-E1 (preosteoblast) cells. Overexpression of HOXA10 increased the expression of osteoblast-related genes, osteoblast differentiation and mineralization; expression of PBX1 impaired osteogenic commitment of pluripotent cells and the differentiation of osteoblasts. In contrast, the targeted depletion of PBX1 by shRNA increased the expression of bone marker genes (osterix, alkaline phosphatase, BSP, and osteocalcin). Chromatin-associated PBX1 and HOXA10 were present at osteoblast-related gene promoters preceding gene expression, but PBX1 was absent from promoters during the transcription of bone-related genes, including osterix (Osx). Further, PBX1 complexes were associated with histone deacetylases normally linked with chromatin inactivation. Loss of PBX1 but not of HOXA10 from the Osx promoter was associated with increases in the recruitment of histone acetylases (p300), as well as decreased H3K9 methylation, reflecting transcriptional activation. We propose PBX1 plays a central role in attenuating the activity of HOXA10 as an activator of osteoblast-related genes and functions to establish the proper timing of gene expression during osteogenesis, resulting in proper matrix maturation and mineral deposition in differentiated osteoblasts.

Original languageEnglish (US)
Pages (from-to)146-150
Number of pages5
JournalCells Tissues Organs
Volume194
Issue number2-4
DOIs
StatePublished - Aug 2011

Keywords

  • Chromatin remodeling during osteogenesis
  • Osterix histone acetylation
  • Pbx inhibition of osteoblastogenesis

ASJC Scopus subject areas

  • Anatomy
  • Histology

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