中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
50期
8647-8653
,共7页
闫虎%苏友新%林学义%陈宝军%周必洪%张庆
閆虎%囌友新%林學義%陳寶軍%週必洪%張慶
염호%소우신%림학의%진보군%주필홍%장경
组织构建%软骨组织构建%软骨细胞%体外培养%Ⅱ型胶原酶%骨关节炎%退变%表型%软骨%国家自然科学基金
組織構建%軟骨組織構建%軟骨細胞%體外培養%Ⅱ型膠原酶%骨關節炎%退變%錶型%軟骨%國傢自然科學基金
조직구건%연골조직구건%연골세포%체외배양%Ⅱ형효원매%골관절염%퇴변%표형%연골%국가자연과학기금
背景:目前关节软骨细胞的分离培养技术已经比较成熟,但是研究中发现通过目前技术培养的软骨细胞生长周期慢,容易出现退变现象,不利于后续试验的进行。<br> 目的:改进并探讨4周龄新西兰大白兔膝关节软骨细胞的分离与培养的方法。<br> 方法:无菌条件下取4周龄新西兰大白兔双侧膝关节软骨,采用Ⅱ型胶原酶消化并机械吹打的方法,分离关节软骨细胞并进行原代、传代培养;采用形态学观察,甲苯胺蓝染色以及Ⅱ型胶原免疫组织化学方法对关节软骨细胞进行鉴定;MTT法检测关节软骨细胞增殖情况。<br> 结果与结论:倒置显微镜下见膝关节软骨分离的原代软骨细胞6 h后开始贴壁,72 h可形成单层,96 h即可传代;前3代软骨细胞表型稳定,增殖力良好;第4,5代软骨细胞增殖能力减弱,绝大部分细胞变为长梭形和不规则形状。甲苯胺蓝染色显示培养的软骨细胞细胞质染成浅蓝色,细胞核染成深蓝色;免疫组织化学显示软骨细胞Ⅱ型胶原呈黄褐色阳性表达;MTT法检测表明前3代软骨细胞增殖差异无显著性意义(P>0.05),且第1-3代与4代软骨细胞在培养第4-7天时,吸光度值差异有显著性意义(P<0.05),与第5代软骨细胞在培养1-7天时,吸光度值差异有显著性意义(P<0.05)。提示采用Ⅱ型胶原酶消化并机械吹打的方法能够获得大量生长速度快且不宜退变的新西兰大白兔膝关节软骨细胞,且培养的前3代新西兰兔膝关节软骨细胞最为适宜。
揹景:目前關節軟骨細胞的分離培養技術已經比較成熟,但是研究中髮現通過目前技術培養的軟骨細胞生長週期慢,容易齣現退變現象,不利于後續試驗的進行。<br> 目的:改進併探討4週齡新西蘭大白兔膝關節軟骨細胞的分離與培養的方法。<br> 方法:無菌條件下取4週齡新西蘭大白兔雙側膝關節軟骨,採用Ⅱ型膠原酶消化併機械吹打的方法,分離關節軟骨細胞併進行原代、傳代培養;採用形態學觀察,甲苯胺藍染色以及Ⅱ型膠原免疫組織化學方法對關節軟骨細胞進行鑒定;MTT法檢測關節軟骨細胞增殖情況。<br> 結果與結論:倒置顯微鏡下見膝關節軟骨分離的原代軟骨細胞6 h後開始貼壁,72 h可形成單層,96 h即可傳代;前3代軟骨細胞錶型穩定,增殖力良好;第4,5代軟骨細胞增殖能力減弱,絕大部分細胞變為長梭形和不規則形狀。甲苯胺藍染色顯示培養的軟骨細胞細胞質染成淺藍色,細胞覈染成深藍色;免疫組織化學顯示軟骨細胞Ⅱ型膠原呈黃褐色暘性錶達;MTT法檢測錶明前3代軟骨細胞增殖差異無顯著性意義(P>0.05),且第1-3代與4代軟骨細胞在培養第4-7天時,吸光度值差異有顯著性意義(P<0.05),與第5代軟骨細胞在培養1-7天時,吸光度值差異有顯著性意義(P<0.05)。提示採用Ⅱ型膠原酶消化併機械吹打的方法能夠穫得大量生長速度快且不宜退變的新西蘭大白兔膝關節軟骨細胞,且培養的前3代新西蘭兔膝關節軟骨細胞最為適宜。
배경:목전관절연골세포적분리배양기술이경비교성숙,단시연구중발현통과목전기술배양적연골세포생장주기만,용역출현퇴변현상,불리우후속시험적진행。<br> 목적:개진병탐토4주령신서란대백토슬관절연골세포적분리여배양적방법。<br> 방법:무균조건하취4주령신서란대백토쌍측슬관절연골,채용Ⅱ형효원매소화병궤계취타적방법,분리관절연골세포병진행원대、전대배양;채용형태학관찰,갑분알람염색이급Ⅱ형효원면역조직화학방법대관절연골세포진행감정;MTT법검측관절연골세포증식정황。<br> 결과여결론:도치현미경하견슬관절연골분리적원대연골세포6 h후개시첩벽,72 h가형성단층,96 h즉가전대;전3대연골세포표형은정,증식력량호;제4,5대연골세포증식능력감약,절대부분세포변위장사형화불규칙형상。갑분알람염색현시배양적연골세포세포질염성천람색,세포핵염성심람색;면역조직화학현시연골세포Ⅱ형효원정황갈색양성표체;MTT법검측표명전3대연골세포증식차이무현저성의의(P>0.05),차제1-3대여4대연골세포재배양제4-7천시,흡광도치차이유현저성의의(P<0.05),여제5대연골세포재배양1-7천시,흡광도치차이유현저성의의(P<0.05)。제시채용Ⅱ형효원매소화병궤계취타적방법능구획득대량생장속도쾌차불의퇴변적신서란대백토슬관절연골세포,차배양적전3대신서란토슬관절연골세포최위괄의。
BACKGROUND:At present, the separation and culture technique of chondrocytes has been mature, but the chondrocytes grow slowly which are prone to degenerate using the present technique. It is not conducive to the fol ow-up test. <br> OBJECTIVE:To investigate and improve the separation and culture method of articular chondrocytes of New Zealand rats at 4 weeks of age. <br> METHODS:New Zealand rats aged 4 weeks were selected to take cartilage tissues from the bilateral knees that were resected under aseptic condition. Chondrocytes were isolated by type Ⅱ col agenase enzyme digestion and mechanical isolation method. The cells were cultured and passaged, and then identified by morphologic observation, toluidine blue staining and type Ⅱ col agen enzyme immunohistochemical methods. Growth curve was pictured by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide method. <br> RESULTS AND CONCLUSION:Inverted microscope observation showed that the primary cultured chondrocytes adhered at 6 hours after cultivation. The monolayer formation occurred at 72 hours after cultivation, and the cells were ready to be passaged at 96 hours after cultivation. In the fourth generation, some cells represented a spindle-like appearance. In the fifth generation, most cells turned into irregular shape appearance, and cellproliferation capacity diminished. Toluidine blue staining showed that the nuclei of cultured chondrocytes were blue and cytoplasm was pale blue. Immunofluorescent staining showed that cultured chondrocytes had a positive expression of col agen type Ⅱ and the color was tawny. Proliferative rate of chondrocytes in the first to third generations had no differences (P<0.05), while differences were found compared with the fourth generation in 4-7 days (P<0.05) and the fifth generation in 1-7 days (P<0.05). The results indicate that type Ⅱ col agenase enzyme digestion and mechanical isolation method is successful for isolating, cultivating New Zealand rat articular chondrocytes in vitro, and the first to third generations can be the best choice for the experiments of knee osteoarthritis.