BACKGROUND: The goal in this study was to investigate the role of extracellular signal-related kinase (ERK) 1/2, a central regulator of mesenchymal stem cell differentiation, and its temporal relationship to bone morphogenetic protein (BMP) 2/4, a potent osteogenic growth factor, during live model distraction osteogenesis. METHODS: The authors examined histomorphometric expression through the early temporal sequence for both ERK 1/2 and BMP 2/4 during gradual distraction to 5.1 mm (n = 12 net). Comparison groups (group sizes, n = 12) included an acute critical-size defect of 5.1 mm and a subcritical-size defect of 2.1 mm. RESULTS: In the group gradually distracted to 5.1 mm, immunohistochemical analysis demonstrated significant intranuclear expression of ERK 1/2 within mesenchymal precursor cells at the osteotomy edges early in distraction (postoperative days 6 and 9). ERK 1/2 became increasingly localized to hypertrophic chondrocytes within the distraction regenerate during the later stages of distraction (postoperative day 16). Adjacent sections examined for BMP 2/4 expression established a close temporal and spatial correlation with ERK 1/2. BMP 2/4 expression was initially present in the regions surrounding mesenchymal precursor cells expressing ERK 1/2, but then developed most prominently within the cytoplasm of hypertrophic chondrocytes expressing ERK 1/2 late in distraction. Comparison groups consistently demonstrated either fibrous nonunion or bony union typical in fracture healing, depending on defect size. However, even specimens with subcritical-size defects and complete bony union were consistently found to have minimal ERK 1/2 expression. CONCLUSIONS: These data provide evidence that ERK 1/2 expression is present within mesenchymal precursor cells during distraction osteogenesis and that ERK expression correlates closely with BMP 2/4 expression. The presence of ERK 1/2 expression only during gradual distraction strongly implicates the concept that mechanical strain appears to be the key upregulating factor for ERK 1/2 expression, based on comparison with fracture-healing and critical-size defect specimens.
BACKGROUND: The goal in this study was to investigate the role of extracellular signal-related kinase (ERK) 1/2, a central regulator of mesenchymal stem cell differentiation, and its temporal relationship to bone morphogenetic protein (BMP) 2/4, a potent osteogenic growth factor, during live model distraction osteogenesis. METHODS: The authors examined histomorphometric expression through the early temporal sequence for both ERK 1/2 and BMP 2/4 during gradual distraction to 5.1 mm (n = 12 net). Comparison groups (group sizes, n = 12) included an acute critical-size defect of 5.1 mm and a subcritical-size defect of 2.1 mm. RESULTS: In the group gradually distracted to 5.1 mm, immunohistochemical analysis demonstrated significant intranuclear expression of ERK 1/2 within mesenchymal precursor cells at the osteotomy edges early in distraction (postoperative days 6 and 9). ERK 1/2 became increasingly localized to hypertrophic chondrocytes within the distraction regenerate during the later stages of distraction (postoperative day 16). Adjacent sections examined for BMP 2/4 expression established a close temporal and spatial correlation with ERK 1/2. BMP 2/4 expression was initially present in the regions surrounding mesenchymal precursor cells expressing ERK 1/2, but then developed most prominently within the cytoplasm of hypertrophic chondrocytes expressing ERK 1/2 late in distraction. Comparison groups consistently demonstrated either fibrous nonunion or bony union typical in fracture healing, depending on defect size. However, even specimens with subcritical-size defects and complete bony union were consistently found to have minimal ERK 1/2 expression. CONCLUSIONS: These data provide evidence that ERK 1/2 expression is present within mesenchymal precursor cells during distraction osteogenesis and that ERK expression correlates closely with BMP 2/4 expression. The presence of ERK 1/2 expression only during gradual distraction strongly implicates the concept that mechanical strain appears to be the key upregulating factor for ERK 1/2 expression, based on comparison with fracture-healing and critical-size defect specimens.
Authors: Daniel A Schwarz; Krikor G Arman; Mehreen S Kakwan; Ameen M Jamali; Ayman A Elmeligy; Steven R Buchman Journal: Plast Reconstr Surg Date: 2010-09 Impact factor: 4.730
Authors: Sagar S Deshpande; Alexis Donneys; Stephen Y Kang; Erin E Page; Peter A Felice; Lauren Kiryakoza; Noah S Nelson; Jose Rodriguez; Samir S Deshpande; Steven R Buchman Journal: Microvasc Res Date: 2014-08-27 Impact factor: 3.514
Authors: Mohammad M Alzahrani; Emad A Anam; Asim M Makhdom; Isabelle Villemure; Reggie Charles Hamdy Journal: Front Endocrinol (Lausanne) Date: 2014-12-10 Impact factor: 5.555