口腔材料器械杂志
口腔材料器械雜誌
구강재료기계잡지
CHINESE JOURNAL OF DENTAL MATERIALS AND DEVICES
2015年
1期
23-27
,共5页
水解鱼胶原%骨髓间充质干细胞%成骨分化%ERK1/2通路
水解魚膠原%骨髓間充質榦細胞%成骨分化%ERK1/2通路
수해어효원%골수간충질간세포%성골분화%ERK1/2통로
Hydrolyzed fish collagen%BMSCs%Osteogenic differentiation%ERK1/2 signal pathway
目的:探讨水解鱼胶原诱导大鼠骨髓间充质干细胞(rBMSCs)成骨分化的潜能。方法制备获得水解鱼胶原,对其分子量,氨基酸成分和接触角进行表征,利用MTT试验和Real-Time PCR 试验分别研究水解鱼胶原对rBMSCs细胞活力及成骨分化相关基因ALP,OCN和RUNX2的影响,利用western blot技术探讨水解鱼胶原对ERK1/2信号通路的影响。结果水解鱼胶原的分子量为700-1300 Da,接触角约为26度,主要含甘氨酸,脯氨酸和羟脯氨酸。水解鱼胶原能提高rBMSCs细胞的活力,促进成骨分化相关基因ALP,OCN和RUNX2的表达,Western Blot结果显示水解鱼胶原可激活ERK1/2信号通路,进而促进RUNX2蛋白表达上调。结论水解鱼胶原具有诱导大鼠骨髓间充质干细胞成骨分化的潜能。
目的:探討水解魚膠原誘導大鼠骨髓間充質榦細胞(rBMSCs)成骨分化的潛能。方法製備穫得水解魚膠原,對其分子量,氨基痠成分和接觸角進行錶徵,利用MTT試驗和Real-Time PCR 試驗分彆研究水解魚膠原對rBMSCs細胞活力及成骨分化相關基因ALP,OCN和RUNX2的影響,利用western blot技術探討水解魚膠原對ERK1/2信號通路的影響。結果水解魚膠原的分子量為700-1300 Da,接觸角約為26度,主要含甘氨痠,脯氨痠和羥脯氨痠。水解魚膠原能提高rBMSCs細胞的活力,促進成骨分化相關基因ALP,OCN和RUNX2的錶達,Western Blot結果顯示水解魚膠原可激活ERK1/2信號通路,進而促進RUNX2蛋白錶達上調。結論水解魚膠原具有誘導大鼠骨髓間充質榦細胞成骨分化的潛能。
목적:탐토수해어효원유도대서골수간충질간세포(rBMSCs)성골분화적잠능。방법제비획득수해어효원,대기분자량,안기산성분화접촉각진행표정,이용MTT시험화Real-Time PCR 시험분별연구수해어효원대rBMSCs세포활력급성골분화상관기인ALP,OCN화RUNX2적영향,이용western blot기술탐토수해어효원대ERK1/2신호통로적영향。결과수해어효원적분자량위700-1300 Da,접촉각약위26도,주요함감안산,포안산화간포안산。수해어효원능제고rBMSCs세포적활력,촉진성골분화상관기인ALP,OCN화RUNX2적표체,Western Blot결과현시수해어효원가격활ERK1/2신호통로,진이촉진RUNX2단백표체상조。결론수해어효원구유유도대서골수간충질간세포성골분화적잠능。
Objective The aims of this study were to investigate the influence of hydrolyzed fish collagen (HFC) on osteogenic differentiation of rat bone marrow mesenchymal stem cells (rBMSCs). Methods In this study, the hydrolyzed fish collagen were extracted from the fish scale. The molecular weight, amino acid compo-sition, and contact angle of HFC were measured. The influence of HFC on cell viability were assessed by MTT, the expression of osteogenic genes ALP, OCN and RUNX2 was investigated by Real Time-PCR. Western blotting were used to examine the role of ERK1/2 signaling pathway. Results The molecular weight of HFC ranged from 700 to 1300 Da, the contact angle of HFC was approximately 26°, and HFC was found to be composed of various amino acids, including glycine, proline, and hydroxyproline. The results showed that HFC was favorable for cell growth. The expression of the osteogenic gene marker, ALP, OCN, and RUNX2 was enhanced by HFC treatment. HFC could activate the ERK1/2 signaling pathway and then increase the protein level of RUNX2. Conclusion HFC has the ability to actively promote osteogenic differentiation of rBMSCs.
