细胞共培养及其应用的研究进展.pdf

1、8 VS “50 S0 CN 34-1206 R, ISSN 1009-2501E-mail:2009 Jul;14(7):827-8322009-06-17收稿 2009-07-23修回国家自然科学基金资助项目(30572356);高等学校博士学科点专项科研基金(20060366003);安徽省研究实验基地优秀中青年科研带头人基金(200622805);安徽医科大学青年科研基金项目(2008kj13)常艳,女,硕士,助教,研究方向:抗炎免疫药理学。E-mail:魏伟,通信作者,男,教授,博士生导师,研究方向:临床药理学。E-mail:.细胞共培养及其应用的研究进展常艳,魏伟安徽医科大学临床药

2、理研究所,抗炎免疫药理学省部共建教育部重点实验室,合肥230032,安徽K1 体外细胞共培养(cell co-culture)技术能模拟体内生成的微环境,便于更好地观察细胞与细胞、细胞与培养环境之间的相互作用以及探讨药物的作用机制和可能作用的靶点,填补了单层细胞培养和整体动物实验的鸿沟。本文重点阐述了该技术在医学领域的发展和广泛运用,介绍了细胞共培养的应用研究进展。1oM 共培养;细胞培养;相互作用ms |:R73-35+1DS M :AcI|:1009-2501(2009)07-0827-068% ! |%、F、 2l8 |, E8 = 3 Hq, )8! 3i 3, $、0 7? 301o

3、B。11885 MV s % nQy 8% !,% !/ X M N。y !e、 T、n、 Vv ,$ 3+,7C8T8 =T LT, % !V,C 8% s ,i OHq/s Ms 。yN7y8 = 3, P%9、s#C 8 =F ? 8% !?Z t 。% ! +,YVBt+ y !/ y8 !ZE。y 8% !8“, HKv E8 =、8 =,4%WMT,%hs00? 1il。1 % ! !8“ | %( V 1BF,9 V 1F) !,V7 P B% ?Vr,i HW1 。 “ -1 #/+Z :(1)%W(、T, (i 3%(ECM), cW、8 、#T s,V7 E 8 =M ,%

4、8#% ?;(2)%WMT,4% ! ?、 3M, B%s 6B%yVrY,%W“”;(3)0% 、 ?Y#M1,0?41/ 。N V827n,% !A U ; ? =8 =%#$, ?ZC% !4#Hq V e , H y 0 r, v , 。2 % !/ ZE2.1 % !E 1( Td( T !。( T ! aHq/,| %vB1 B ! !(m1)2 。d( T ! :(1)B% ! bA(c 3y0) 6B% !3 ;(2)|j (I ) ) !%B ,B1 b %A ! !(m2) 4 ;(3)Millicell T% ! ( Transwelll i)(m3)5 。Tr-answ

5、elll i B Yi ,0bBfYi ,B (polycarbonate membrane), dvl0.1 12.0 m。|Transwelll ib !,%A i =,/%B !As VY i =%,V7 V%Bs 3%A 3、Y。 “ ,t !ZE9 ,1 ! % 3 a、 1i、 a、 dvl、!#Hq V e,#% 4 HW 。2.2 % !(threedimensional cellculture,TDCC)6 “F(tissue engineering)?Z,TDCC/ 97 3。TDCC | 8 %8 !, P% ?s 3BF+s, %8。O 9V 3s08O?ZC8 =EC

6、M“, C(matrigel), BVl ?F4 |。TDCC ?Kv E8 =,; ? 3., ?s 3F, ( Td( T% !1ZEB。m1 %A%B !m2 %A%BW !m3 Transwelll i828 Chin J Clin Pharmacol Ther 2009 Jul;14(7)3 % !3.1 %Z %(stem cell)8+ !Hq/ V$s 8%V%。“ YV !Hq8sZE, 8% !“ V%_s,ZE F 5B7?Z -/ 。 /%W% ! Vs %7 ; W % !, W % V_%s,vVC=7 l 8 ; j C% j % !,B% i/, j C% Vs

7、VC j *%V9 ; % !,?C % Vs %。 H, XV %(embryonicstem cell, ESC) *%、%、%、%、O s %。Hubner| %8s 3“d x %10 。 L iVl ESC8s 3 S 3%,s x %V? 5 , O_=8 11 。%T0%F?1T。YV%s B、_s、y#M、v 9y, V8 、 、 、 、 、 *、5、 、 #/ fF, F 29 1T Y。3.2 ? 3Z 2F ? Vr% 3y0、ECM# s8、% As, A%MT 。% !/ ? L 、 ? S、M 、 ?5!、8 =yVr EZ 1il。 “ -, ?M?“ ?%|,9

8、 ? 14(7)W。 a y15? 3 A1 3y0%。FMT4 U %W“”d1。KV 25 ,| C%(human osteoprogeni-tors, HOPs)HUVECs !,4HUVECs ?“HOPsM, + y5。 !8“HOPs VEGF(165)yVr ,HU-VECs Flt-1 and KDRyVr9 , H)5 %s。 “%(human osteoblasts, HOB)HUVECs !,?CPGI2 、6-keto-PGF1PGE2 iG 9FHOBs VEGF db,7HUVECs C f ;VEGF VHUVECs ERK1 2,COX-2Vr,6-keto-P

9、GF1 db 26 。V F !“d%WMQ A1,9| F4N。3.4 5Z “ F F, F !vls5。 “M5 9hM5| 5vl 。20 W90 M,S L i7 S k% !ZE %WMTyF5(tissue engineering bloodvessel) 27-29 。Wallace30, % !5 = %“ ? 3M, = %5 31yVr9 M。 8“%5 = % !,?C8“% V5 = % 31-32 。|W %(mesenchymal stemcell, MSC) = % !,?C = %(MSCs Vr9F33 。 “-% !5Z 1“F5y(constructio

10、n of tissue engineeringblood vessel) 。 L,4 -8%T !0% ,BF5y M,)%s、% ?M,|5%h, .F 2M/ ;。3.5 * fZ *% *%*% %MT “ - 34-35 , *% f%MT, *、%h、e01fE_BMSCsVr *+sS:- *+s? (neuron-specific enolase, NSE),7vFiVrNSE39-40 。4 l8 B%yF ( M,7 2F V ?,%、# +yVr#%“ Es1Y。YV !8“, Vd8 =/4%WMT, S L=Z d -。% !/ # i/5:(1)8 =Y,i ? Q8

11、 =M;(2) !8“HqiBt5, !ApH、% ! HW 1 ;(3)F 2 c%, T4 - %WMT,|nv HW、 n。yN, % !/ ,| S/TB1 。 “% 3 3/ ?Z,% ! / | t 。 ID 1 Nakazawa K, Kalassy M, Sahuc F, et al.Pigmented hu-man skin equivalent-as a model of the mechanismsof con-trol of cell-cell and cell-matrix interactions J .Med BiolEng Comput, 1998,36(6):

12、813-820. 2 Bhandari RN, Riccalton LA, Lewis AL, et al.Liver tis-sue engineering:a role for co-culture systems inmodifyinghepatocyte function and viability J .Tissue Eng, 2001,7(3):345-357. 3 Zhu L, Wei W, Zheng YQ, et al.Effects and mecha-nisms of total glucosides of paeony on joint damage in ratcol

13、lagen-induced arthritis J .Inflamm Res, 2005, 54(5):211-220. 4 Yassini PR, Stickler DL, Bloomfield SM et al.Glioma-830 Chin J Clin Pharmacol Ther 2009 Jul;14(7)stimulated chemoattraction of endothelial cells and fibro-blasts in vitro:a model for the study of glioma-inducedangiogenesis J .Metab Brain

14、 Dis, 1994, 9(4):391 -399. 5 Lincoln DW 2nd, PhillipsPG, Bove K.Estrogen-inducedEts-1 promotes capillary formation in an in vitro tumor an-giogenesis model J .Breast Cancer Res Treat, 2003, 78(2):167-178. 6 Alavi A, Stupack DG.Cell survival ina three-dimensionalmatrix J .Methods Enzymol, 2007,426:85

15、-101. 7 Nagai H, Terada K, Watanabe G, et al.Differentiationofliver epithelial (stem-like)cells into hepatocytes inducedby coculture with hepatic stellate cells J .Biochem Bio-phys Res Commun, 2002, 293(5):1420-1425. 8 Kato T, Heike T, Okawa K, et al.A neurosphere-derivedfactor, cystatin C, supports

16、 differentiation of ES cells intoneural stem cells J .Proc NatlAcad Sci USA, 2006,103(15):6019-6024. 9 Kamolz LP, Kolbus A, Wick N, et al.Cultured humanepithelium:human umbilical cord blood stem cells differ-entiate into keratinocytes under in vitro conditions J .Burns, 2006,32(1):16-19. 10 Ubels JL

17、, HoffmanHM, Srikanth S, et al.Gene expres-sion in rat lacrimal gland duct cells collected using lasercapture microdissection:evidence for K+ secretion by ductcells J .Invest Ophthalmol Vis Sci, 2006, 47(5):1876-1885. 11 Seam N, Gonzales DA, Kern SJ, et al.Quality control ofserum albumin depletion f

18、or proteomic analysis J .ClinChem, 2007,53(11):1915-1920. 12 Chen Y, WeiT , Yan L, et al.Developing and applying agene functional association network for anti-angiogenic ki-nase inhibitor activity assessment in an angiogenesis co-culture model J .BMC Genomics, 2008,9:264. 13 Folkman J, Haudenschild

19、CC, Zetter BR.Long-term cul-ture of capillary endothelial cells J .Proc Natl Acad SciUSA, 1979,76(10):5217-5221. 14 Darland DC,D Amore PA.Blood vessel maturation:vas-cular development comes of age J .J Clin Invest, 1999,103(2):157-158. 15 Yassini PR, Stickler DL, Bloomfield SM, et al.Glioma-stimulat

20、ed chemoattraction of endothelial cells and fibro-blast in vitro:a model for the study of glioma-induced an-giogenesis J .Metab Brain Dis, 1994,9(4):391-399. 16 Khodarev NN, Yu J, Labay E, et al.Tumor-endotheliuminteractions in co-culture:coordinated changes of gene ex-pression profiles and phenotyp

21、ie properties of endothelialcells J .J Cell Sci, 2003,116(Pt6):1013-1022. 17 Zhang L, Yang N, Park JW, et al.Tumor-derived vascu-lar endothelial growth factor up-regulates angiopoietin-2 inhost endothelium and destabilizes host vasculature, sup-porting angiogenesis in ovarian cancer J .Cancer Res,20

22、03, 63(12):3403-3412. 18 Takayama G , Taniguchi A, Okano T.Identification of dif-ferentially expressed genes in hepatocyte endothelial cellco-culture system J .Tissue Eng, 2007, 13(1):159 -166. 19 Meury T, Verrier S, AliniM .Human endothelial cells in-hibit BMSC differentiation into mature osteoblas

23、ts in vitroby interfering with osterix expression J .J Cell Biochem,2006, 98(4):992-1006. 20 Finkenzeller G, Arabatzis G , Geyer M, et al.Gene ex-pression profiling reveals platelet-derived growth factor re-ceptor alpha as a target of cell contact-dependent gene reg-ulation in an endothelial cell-os

24、teoblast co-culture model J .Tissue Eng , 2006, 12(10):2889-2903. 21 Guillotin B, Bareille R, Bourget C, et al.Interaction be-tween human umbilical vein endothelial cells and humanosteoprogenitors triggers pleiotropic effect that may supportosteoblastic function J .Bone, 2008, 42(6):1080 -1091. 22 H

25、ofmannA, Ritz U, Verrier S, et al.The effect of humanosteoblasts on proliferation and neo-vessel formation of hu-man umbilical vein endothelial cells in a long-term 3D co-culture on polyurethane scaffolds J .Biomaterials, 2008,29(31):4217-4226. 23 Spalazzi JP, Doty SB, Moffat KL, et al.Development o

26、fcontrolled matrix heterogeneity on a triphasic scaffold fororthopedic interface tissue engineering J .Tissue Eng,2006, 12(12):3497-3508. 24 Jiang J, Nicoll SB, Lu HH.Coculture of osteoblasts andchondrocytes modulates cellular differentiation in vitro J .Biochem Biophys Res Commun, 2005, 338(2):762

27、-770. 25 Grellier M, Ferreira-Tojais N, Bourget C, et al.Role ofvascular endothelialgrowthfactor in the communication be-tween human osteoprogenitors and endothelial cells J .JCell Biochem, 2009,106(3):390-398. 26 Clarkin CE, Emery RJ, Pitsillides AA , et al.Evaluationof VEGF-mediated signaling in p

28、rimary human cells revealsa paracrine action for VEGF in osteoblast-mediatedcrosstalk to endothelial cells J .J Cell Physiol, 2008,214(2):537-544. 27 Chiu JJ, Chen LJ, Chen CN, et al.A model for studying831S “50 2009 Jul;14(7)the effect of shear stress on interactions between vascularendothelial eel

29、Is and smooth muscle ceils J .J Biomech,2004, 37(4):531-539. 28 Niwa K, Kado T, Sakai J, et al.The cffects of shear flowonthe uptake of LDL and acetylated LDL by an EC mo-noculture and an EC-SMC coculture J .Ann BiomedEng, 2004,32(4):537-543. 29 Rainger GE, Stone P, Morland CM , et al.A novel system

30、for investigating the ability of smooth muscle cells and fi-broblasts to regulate adhesion of flowing leukocytes to en-dothelial cells J .J lmmunol Methods, 2001, 255(1 2):73-82. 30 Wallace CS, Champion JC, Truskey GA.Adhesion andfunotion of human endothelial cells co-cultured on smootllmuscle ceHs

31、J .Ann Biomed Eng , 2007,35(31):375-386. 31 Sorrell JM, Baber MA, Caplan AI.Human dermal fibro-blast subpopulations;differential interactions with vascularendothelial cells in coculture:nonsoluble factors in the ex-tracellular matrix influence interactions J .Wound RepairRegen, 2008,16(2):300-309. 3

32、2 Sorrell JM , Baber MA, Caplan AI.A self-assembled fi-broblast-endothelial cell co-culture system that supports invitro vasculogenesis by both human umbilical veinendothe-lial cells and human dermal microvascular endothelial cells J .Cells Tissues Organs, 2007,186(3):157-168. 33 Peichev M , Naiyer

33、AJ, Pereira D, et a1.Expression ofVEGFR-2 and AC 133 by circulating human CD34(+)cells identifies a population of functional endothelial pre-cursors J .Blood,95(3):952-958. 34 Fex SvenningsenA , Shan WS, Colman DR, et al.Rapidmethod for culturing embryonic neuron-glial cell cocultures J .J Neurosci

34、Res, 2003,72(5):565-573. 35 RauchMF, MichaudM , Xu H, et al.Co-culture of pri-mary neural progenitor and endothelial cells in a macro-porous gel promotes stable vascular networks invivo J .JBiomater Sci Polym Ed, 2008,19(11):1469-1485. 36 Yue F, Cui L, Johkura K, et al.Induction of midbraindopaminergic neurons from primate embryonic stem cellsby coculture with sertoli cells J .Stem Cells, 2006, 24(7):1695-1706. 37 Morizane A, Takahashi J, Shi