[Assessment of the expression profile during the entochondrostosis of vascular endothelial growth factor in bone morphogenetic protein 2 induced osteogenesis].

OBJECTIVES: To examine the gene expression profile of bone morphogenetic protein 2 (BMP-2) and vascular endothelial growth factor (VEGF) during entochondrostosis of mice and explore the expression rules and effects between BMP-2 and VEGF, and to detect the expression of VEGF in BMP-2 induced entochondrostosis in vivo. METHODS: cDNA microarray technique with 34,000 genes was used to analyze the gene expression profiles during entochondrostosis in the limbs of mice embryo from E10 to E14. Pathway analysis of BMP-2 and VEGF was performed with GCOS1.2 software. An experimental model of femoral muscular pouch in 20 mice was adopted. The expression of VEGF was examined by in situ hybridization method and immunohistochemical method in BMP-2 induced entochondrostosis in vivo. RESULTS: The expression signals of VEGF mRNA and VEGF appeared in cytoplasm during condensation of mesenchymal cell. As the mesenchymal cells differentiated into precartilage, the expression signals decreased in mesenchymal cells, but increased in chondrocytes and kept getting denser in the process of cartilage maturity. The peak expression of VEGF mRNA and VEGF in the experimental group appeared on the 14th day, accompanied by numerous hypertrophic chondrocytes. When mature cartilage calcified and new bone trabecula formed, the expression of VEGF mRNA and VEGF decreased in chondrocytes, but still expressed moderately in the osteoblasts and osteocytes. CONCLUSIONS: The finding reveals a complex pattern of gene coexpression of BMP-2 and VEGF during the critical period of entochondrostosis. It's feasible for the clinical application of BMP-2 in orthopedics.

Vertebral plate regeneration induced by radiation-sterilized allogeneic bone sheets in sheep.

OBJECTIVE: To evaluate the effects and mechanism of radiation-sterilized allogeneic bone sheets in inducing vertebral plate regeneration after laminectomy in sheep. METHODS: Twelve adult male sheep (aged 1.5 years and weighing 27 kg on average) provided by China Institute for Radiation Protection underwent L3-4 and L4-5 laminectomy. Then they were randomly divided into two groups: Group A (n=6) and Group B (n=6). The operated sites of L4-5 in Group A and L3-4 in Group B were covered by "H-shaped" freeze-drying and radiation-sterilized allogeneic bone sheets (the experimental segments), while the operated sites of L3-4 in Group A and L4-5 in Group B were uncovered as the self controls (the control segments). The regeneration process of the vertebral plate and the adhesion degree of the dura were observed at 4, 8, 12, 16, 20 and 24 weeks after operation. X-ray and CT scan were performed in both segments of L3-4 and L4-5 at 4 and 24 weeks after operation. RESULTS: In the experimental segments, the bone sheets were located in the anatomical site of vertebral plate, and no lumbar spinal stenosis or compression of the dura was observed. The bone sheets were absorbed gradually and fused well with the regenerated vertebral plate. While in the control segments, the regeneration of vertebral plate was not completed yet, the scar was inserted into the spinal canal, compressing the dura and the spinal cord, and the epidural area almost disappeared. Compared with the control segments, the dura adhesion degree in the experimental regenerated segments was much milder (P less than 0.01), the internal volume of the vertebral canal had no obvious change and the shape of the dura sack remained well without obvious compression. CONCLUSIONS: Freeze-drying and radiation-sterilized allogeneic bone sheets are ideal materials for extradural laminoplasty due to their good biocompatibility, biomechanical characteristics and osteogenic ability. They can effectively reduce formation of post-laminectomy scars, prevent recurrence of post-laminectomy spinal stenosis, and induce regeneration of vertebral plates.

[Effect of caffeine on camptothecin-induced apoptosis of Molt-4 cells].

BACKGROUND & OBJECTIVE: Caffeine could act on cell cycle checkpoints and affect the progression of cell cycle, but its impact on apoptosis of tumor cells is in debate. This study was carried out to investigate the effects of caffeine on camptothecin-induced apoptosis and cell cycle checkpoints of leukemia cell line Molt-4. METHODS: The cell apoptosis was induced by camptothecin, and caffeine was used to interfere with cell cycle checkpoints. The apoptosis rate and cell cycle during apoptosis were analyzed using sub-G1 method and Annexin V-propidium iodide (Annexin V/PI) staining. RESULTS: Caffeine (2.0-20.0 mmon/L) had no effect on proliferation of Molt-4 cells in exponentially growth phase. Camptothecin selectively induced apoptosis of Molt-4 cells in S phase; when induced with camptothecin (0.15 micromol/L) for 4 or 6 h, the apoptosis rates were (23.69+/-2.26)% and (36.99+/-1.42)%. This cell cycle-specific apoptosis were inhibited obviously by caffeine with the apoptosis rates of (4.79+/-0.64)% and (2.69+/-0.56)%. When caffeine was removed, the apoptosis rates increased obviously to (46.23+/-0.21)% and (55.81+/-0.41)%, and still mainly happened in S phase. CONCLUSIONS: Caffeine could inhibit camptothecin-induced apoptosis of Molt-4 cells. As a drug acting on cell cycle checkpoints, caffeine could transiently shield the surveillance of checkpoints to damaged cells and inhibit cell apoptosis. The effect may be reversed when caffeine is removed away.