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find Keyword "mouse embryonic fibroblasts" 1 results
  • All-trans retinoic acid and vascular endothelial growth factor induced the directional osteogenic differentiation of mouse embryonic fibroblasts

    ObjectiveTo investigate the effect of all-trans retinoic acid (ATRA) and vascular endothelial growth factor (VEGF) on the osteogenic differentiation of mouse embryonic fibroblasts (MEFs).MethodsThe fetal mice in the uterus of NIH pregnant mice (pregnancy 12-15 days) were collected, and the heads and hearts etc. were removed. Then MEFs were separated from the rest tissues of the fetal mice and cultured by trypsin digestion and adherent culture. HEK-293 cells were used to obtain recombinant adenovirus-red fluorescent protein (Ad-RFP) and Ad-VEGF by repeatedly freezing and thawing. Alkaline phosphatase (ALP) staining and quantitative detection were used to detect the changes of ALP activity in MEFs applied with ATRA or VEGF alone or combined use of ATRA and VEGF on the 3rd and 5th days. The cultured 3rd to 4th generation MEFs were divided into groups A, B, C, and D, and were cultured with DMSO plus Ad-RFP, ATRA, Ad-VEGF, ATRA plus Ad-VEGF, respectively. Real-time fluorescence quantitative PCR (qRT-PCR) was used to detect the mRNA expressions of osteogenic markers including ALP, collagen type Ⅰ, osteopontin (OPN), osteocalcin (OCN), and angiogenic markers including VEGF, angiopoietin 1 (ANGPT1), and endomucin (EMCN) on the 3rd and 7th days. Immunohistochemical staining was used to detect the protein expressions of OPN and VEGF on the 3rd, 5th, and 7th days in each group. Alizarin red staining was used to detect calcium salt deposition levels in each group at 14 and 21 days after osteogenic induction. Fifteen athymic female nude mice aged 4 to 6 weeks were randomly divided into 3 groups and 5 mice in each group. Then MEFs treated with ATRA, Ad-VEGF, and ATRA plus Ad-VEGF were injected subcutaneously into the dorsal and ventral sides, respectively. X-ray observation, gross observation, and histological staining (Masson, HE, and Safranin O-fast green stainings) were performed at 5 weeks after implantation to observe the ectopic bone formation in nude mice in each group.ResultsMEFs were successfully isolated and cultured. The acquired Ad-RFP and Ad-VEGF were successfully transfected into MEFs with approximately 50% and 20% transfection rates. ALP activity tests showed that ATRA or Ad-VEGF could enhance ALP activity in MEFs (P<0.05), and ATRA had a stronger effect than Ad-VEGF; and the combined use of ATRA and Ad-VEGF significantly enhanced the ALP activity in MEFs (P<0.05). qRT-PCR test showed that the combined use of ATRA and Ad-VEGF also increased the relative mRNA expressions of early-stage osteogenesis-related markers ALP, OPN, and collagen type I (P<0.05); the relative mRNA expressions of angiogenesis-related markers VEGF, EMCN, and ANGPT1 increased at 7 days (P<0.05). Immunohistochemical staining showed that ATRA combined with Ad-VEGF not only enhanced OPN protein expression, but also increased VEGF protein expression on 7th day. Alizarin red staining showed that the application of ATRA or Ad-VEGF induced weak calcium salt deposition, and the combined use of ATRA and Ad-VEGF significantly enhanced the effect of calcium salt deposition in MEFs. The results of implantation experiments in nude mice showed that X-ray films observation revealed obvious bone mass in the ATRA plus Ad-VEGF group, and the bone was larger than that in other groups. Histological staining showed a large amount of collagen and mature bone trabeculae, bone matrix formation, and gray-green collagen bone tissue, indicating that the combined use of ATRA and Ad-VEGF significantly enhanced the osteogenic effect of MEFs in vivo.ConclusionThe combined use of ATRA and VEGF can induce the osteogenic differentiation of MEFs.

    Release date:2020-02-20 05:18 Export PDF Favorites Scan
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