EFFECT OF FETAL BOVINE SERUM ON OSTEOGENIC GROWTH PEPTIDE PROMOTING BONE MARROW MESENCHYMAL STEM CELLS PROLIFERATION AND DIFFERENTIATION_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

BIANSishan ^1,2 , SUQinghong ³ , XIAOYi ² ,  XUZhanwang ²

1. Department of Orthopaedics, Bengbu Third People's Hospital, Bengbu Anhui, 233000, P. R. China;
2. Department of Orthopaedics, the Second Affiliated Hospital of Bengbu Medical College;
3. Anhui Key Laboratory of Tissue Transplantation;
1. Department of Orthopaedics, the First Affiliated Hospital of Bengbu Medical College;

Corresponding?author：

XUZhanwang, Email: xzw6001@163.com

Keywords：

Fetal bovine serum; Osteogenic growth peptide; Bone marrow mesenchymal stem cells; Proliferation and differentiation

DOI：

10.7507/1002-1892.20150047

Video：

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Objective To explore the effect of fetal bovine serum (FBS) of different concentrations in the culture medium on osteogenic growth peptide (OGP) promoting bone marrow mesenchymal stem cells (BMSCs) proliferation and differentiation. Methods BMSCs were separated from limb bones of 8 Sprague Dawley rats (5 weeks old) and purified by adherence method, and BMSCs at passage 3 were divided into 4 groups according to OGP concentration: OGP 1×10^-10 mol/L group, OGP 1×10^-9mol/L group, OGP 1×10^-8 mol/L group, and control group without OGP; and 0, 2%, 5%, 8%, and 10%FBS concentration gradient was used in each group. The cell proliferation rate was detected by MTT method at 1, 3, 5, 7, 9, and 12 days after culture, and the activity of intracellular alkaline phosphatase (ALP) was determined by the method of p-nitrophenyl phosphate disodium at 9 days after culture. Results BMSCs showed adherent growth, rapid proliferation, long fiber vortex, and typical morphology. MTT analysis showed that cells could not sustain proliferation when FBS concentration was less than 5% in each group; when FBS concentration was above 8%, cells proliferated continually. Proliferation promoting effect of OGP 1×10^-8 mol/L and 1×10^-9 mol/L groups was significantly higher than that of the control group in all serum concentrations (P<0.05); when FBS concentration was lower than 10%, the proliferation promoting effect of OGP 1×10^-8 mol/L group was significantly higher than that of the other 2 OGP groups (P<0.05), but when FBS concentration was 10%, OGP 1×10^-8 mol/L group had no advantage of promoting proliferation. ALP test results showed that as the FBS concentration increased, ALP activity of all groups also significantly increased (P<0.05). Under the condition of 5%FBS and 8%FBS, the ALP activity of each OGP group was significantly greater than that of the control group, and it was the highest in OGP 1×10^-8 mol/L group (P<0.05). Under the condition of 10%FBS, the ALP activity of each OGP group was still greater than that of the control group (P<0.05), but no significant difference was found between the OGP 1×10^-8 mol/L group and OGP 1×10^-9 mol/L group (P>0.05). Conclusion The concentration of 8%FBS is the best concentration of serum for OGP promoting the proliferation and differentiation of BMSCs, and the most suitable concentration of promoting the proliferation and differentiation of BMSCs is OGP 1×10^-8 mol/L.

Citation： BIANSishan, SUQinghong, XIAOYi, XUZhanwang. EFFECT OF FETAL BOVINE SERUM ON OSTEOGENIC GROWTH PEPTIDE PROMOTING BONE MARROW MESENCHYMAL STEM CELLS PROLIFERATION AND DIFFERENTIATION. Chinese Journal of Reparative and Reconstructive Surgery, 2015, 29(2): 221-226. doi: 10.7507/1002-1892.20150047 Copy

1.	Shuqiang M, Kunzheng W, Xiaoqiang D, et al. Osteogenic growth peptide incorporated into PLGA scaffolds accelerates healing of segmental long bone defects in rabbits. J Plast Reconstr Aesthet Surg, 2008, 61(12):1558-1560.
2.	Zhao ZY, Shao L, Zhao HM, et al. Osteogenic growth peptide accelerates bone healing during distraction osteogenesis in rabbit tibia. J Int Med Res, 2011, 39(2):456-463.
3.	An G, Xue Z, Zhang B, et al. Expressing osteogenic growth peptide in the rabbit bone mesenchymal stem cells increased alkaline phosphatase activity and enhanced the collagen accumulation. Eur Rev Med Pharmacol Sci, 2014, 18(11):1618-1624.
4.	王璐, 徐凌, 梁星, 等. 成骨生長肽對大鼠骨髓基質細胞增殖分化的影響. 第三軍醫大學學報, 2007, 29(18):1783-1786.
5.	徐楊, 施德源, 陳統一, 等. 合成成骨生長肽對大鼠骨髓基質干細胞的促成骨作用. 復旦學報:醫學版, 2006, 33(3):309-314.
6.	肖毅, 王建國, 白增亮. 成骨生長肽對大鼠骨髓基質細胞增殖和成骨分化的作用. 中國骨傷, 2008, 21(11):843-845.
7.	Wu M, Han ZB, Liu JF, et al. Serum-free media and the immunoregulatory properties of mesenchymal stem cells in vivo and in vitro. Cell Physiol Biochem, 2014, 33(3):569-580.
8.	Hassan WU, Greiser U, Wang W. Role of adipose-derived stem cells in wound healing. Wound Repair Regen, 2014, 22(3):313-325.
9.	Wu H, Mahato RI. Mesenchymal stem cell-based therapy for type 1 diabetes. Discov Med, 2014, 17(93):139-143.
10.	周思郎, 張積仁, 屈艷妮, 等. 細胞因子與接種密度對間充質干細胞擴增的影響. 中國臨床康復, 2005, 9(14):61-63.
11.	Barry FP, Murphy JM. Mesenchymal stem cells:clinical applications and biological characterization. Int J Biochem Cell Biol, 2004, 36(4):568-584.
12.	董關木. 細胞培養用牛血清現狀與進展. 中國生物制品學雜志, 2007, 20(9):697-700.
13.	張樹威, 陳安民, 宋登新, 等. 不同濃度血清對大鼠骨骺干細胞向軟骨細胞分化的誘導效果比較. 中國組織工程研究與臨床康復, 2008, 12(34):6617-6620.
14.	彭濤, 黃姣, 徐凌. 成骨生長肽促進鈦表面大鼠成骨細胞的增殖分化. 中國組織工程研究, 2012, 16(34):6271-6275.
15.	孫蕾, 朱慧勇. 間充質干細胞非分化性增殖的研究進展. 國際口腔醫學雜志, 2009, 36(2):235-238.
16.	崔猛, 陳建庭. 血小板衍生生長因子促進鼠骨早期修復中增殖細胞核抗原與c-Jun蛋白的表達. 中國臨床康復, 2006, 10(41):53-55.
17.	Xue P, Wu X, Zhou L, et al. IGF1 promotes osteogenic differentiation of mesenchymal stem cells derived from rat bone marrow by increasing TAZ expression. Biochem Biophys Res Commun, 2013, 433(2):226-231.
18.	Binder BY, Sagun JE, Leach JK. Reduced serum and hypoxic culture conditions enhance the osteogenic potential of human mesenchymal stem cells. Stem Cell Rev, 2014.[Epub ahead of print].

1. Shuqiang M, Kunzheng W, Xiaoqiang D, et al. Osteogenic growth peptide incorporated into PLGA scaffolds accelerates healing of segmental long bone defects in rabbits. J Plast Reconstr Aesthet Surg, 2008, 61(12):1558-1560.
2. Zhao ZY, Shao L, Zhao HM, et al. Osteogenic growth peptide accelerates bone healing during distraction osteogenesis in rabbit tibia. J Int Med Res, 2011, 39(2):456-463.
3. An G, Xue Z, Zhang B, et al. Expressing osteogenic growth peptide in the rabbit bone mesenchymal stem cells increased alkaline phosphatase activity and enhanced the collagen accumulation. Eur Rev Med Pharmacol Sci, 2014, 18(11):1618-1624.
4. 王璐, 徐凌, 梁星, 等. 成骨生長肽對大鼠骨髓基質細胞增殖分化的影響. 第三軍醫大學學報, 2007, 29(18):1783-1786.
5. 徐楊, 施德源, 陳統一, 等. 合成成骨生長肽對大鼠骨髓基質干細胞的促成骨作用. 復旦學報:醫學版, 2006, 33(3):309-314.
6. 肖毅, 王建國, 白增亮. 成骨生長肽對大鼠骨髓基質細胞增殖和成骨分化的作用. 中國骨傷, 2008, 21(11):843-845.
7. Wu M, Han ZB, Liu JF, et al. Serum-free media and the immunoregulatory properties of mesenchymal stem cells in vivo and in vitro. Cell Physiol Biochem, 2014, 33(3):569-580.
8. Hassan WU, Greiser U, Wang W. Role of adipose-derived stem cells in wound healing. Wound Repair Regen, 2014, 22(3):313-325.
9. Wu H, Mahato RI. Mesenchymal stem cell-based therapy for type 1 diabetes. Discov Med, 2014, 17(93):139-143.
10. 周思郎, 張積仁, 屈艷妮, 等. 細胞因子與接種密度對間充質干細胞擴增的影響. 中國臨床康復, 2005, 9(14):61-63.
11. Barry FP, Murphy JM. Mesenchymal stem cells:clinical applications and biological characterization. Int J Biochem Cell Biol, 2004, 36(4):568-584.
12. 董關木. 細胞培養用牛血清現狀與進展. 中國生物制品學雜志, 2007, 20(9):697-700.
13. 張樹威, 陳安民, 宋登新, 等. 不同濃度血清對大鼠骨骺干細胞向軟骨細胞分化的誘導效果比較. 中國組織工程研究與臨床康復, 2008, 12(34):6617-6620.
14. 彭濤, 黃姣, 徐凌. 成骨生長肽促進鈦表面大鼠成骨細胞的增殖分化. 中國組織工程研究, 2012, 16(34):6271-6275.
15. 孫蕾, 朱慧勇. 間充質干細胞非分化性增殖的研究進展. 國際口腔醫學雜志, 2009, 36(2):235-238.
16. 崔猛, 陳建庭. 血小板衍生生長因子促進鼠骨早期修復中增殖細胞核抗原與c-Jun蛋白的表達. 中國臨床康復, 2006, 10(41):53-55.
17. Xue P, Wu X, Zhou L, et al. IGF1 promotes osteogenic differentiation of mesenchymal stem cells derived from rat bone marrow by increasing TAZ expression. Biochem Biophys Res Commun, 2013, 433(2):226-231.
18. Binder BY, Sagun JE, Leach JK. Reduced serum and hypoxic culture conditions enhance the osteogenic potential of human mesenchymal stem cells. Stem Cell Rev, 2014.[Epub ahead of print].

Chinese Journal of Reparative and Reconstructive Surgery

EFFECT OF FETAL BOVINE SERUM ON OSTEOGENIC GROWTH PEPTIDE PROMOTING BONE MARROW MESENCHYMAL STEM CELLS PROLIFERATION AND DIFFERENTIATION

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