REQUIREMENT OF VITAMIN-C FOR CARTILAGE CALCIFICATION IN A DIFFERENTIATING CHICK LIMB-BUD MESENCHYMAL CELL-CULTURE

被引：26

作者：

BOSKEY, AL ^{[1
]}

STINER, D ^{[1
]}

DOTY, SB ^{[1
]}

BINDERMAN, I ^{[1
]}

机构：

[1] CORNELL UNIV,MED CTR,COLL MED,DEPT BIOCHEM,NEW YORK,NY 10021

来源：

BONE | 1991年 / 12卷 / 04期

关键词：

CELL CULTURE; CHONDROCYTES; VITAMIN-C; ASCORBATE; MINERALIZATION;

D O I：

10.1016/8756-3282(91)90076-U

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

Mesenchymal cells isolated from stage 21-24 chick limb-buds plated in a micro-mass culture differentiate to form chondrocytes and synthesize a calcifiable matrix. In the presence of inorganic phosphate (4 mM), hydroxyapatite mineral deposits around cartilage nodules. Ascorbic acid is, in general, an essential co-factor for extracellular matrix synthesis in culture, since it is required for collagen synthesis. In this study we demonstrate that in the absence of ascorbic acid supplementation in the mesenchymal cell cultures, mineral deposition (indicated by X-ray diffraction, measurement of Ca:hydroxyproline ratio, and Ca-45 uptake) does not occur. Concentrations of 10-50-mu-g/ml ascorbate were compared to find the "optimal" concentration for cell mediated mineralization; 25-mu-g/ml was selected as optimal based on matrix appearance at the EM level and the rate of Ca-45 uptake. High concentrations of ascorbic acid (> 75-mu-g/ml), while increasing the amount of hydroxyproline in the matrix synthesized, caused some cell death and hence less cell-mediated mineralization. This study demonstrates both the need for viable cells and a proper matrix for in vitro cell-mediated mineralization, and shows that varying the concentration of L-ascorbate (vitamin C) in the medium can have a marked effect on mineralization in vitro.

引用

页码：277 / 282

页数：6

共 39 条

[1] STAGE-RELATED CAPACITY FOR LIMB CHONDROGENESIS IN CELL-CULTURE
AHRENS, PB
SOLURSH, M
REITER, RS
[J]. DEVELOPMENTAL BIOLOGY, 1977, 60 (01) : 69 - 82
[2] ION-TRANSPORTING ATPASES AND MATRIX MINERALIZATION IN CULTURED OSTEOBLASTLIKE CELLS
ANDERSON, RE
KEMP, JW
JEE, WSS
WOODBURY, DM
[J]. IN VITRO-JOURNAL OF THE TISSUE CULTURE ASSOCIATION, 1984, 20 (11): : 837 - 846
[3] MINERALIZED BONE NODULES FORMED INVITRO FROM ENZYMATICALLY RELEASED RAT CALVARIA CELL-POPULATIONS
BELLOWS, CG
AUBIN, JE
HEERSCHE, JNM
ANTOSZ, ME
[J]. CALCIFIED TISSUE INTERNATIONAL, 1986, 38 (03) : 143 - 154
[4] EXPRESSION OF THE CHONDROGENIC PHENOTYPE BY MINERALIZING CULTURES OF EMBRYONIC CHICK CALVARIAL BONE-CELLS
BERRY, L
SHUTTLEWORTH, CA
[J]. BONE AND MINERAL, 1989, 7 (01): : 31 - 45
[5] 24,25-DIHYDROXYCHOLECALCIFEROL INDUCES THE GROWTH OF CHICK CARTILAGE INVITRO
BINDERMAN, I
SOMJEN, D
[J]. ENDOCRINOLOGY, 1984, 115 (01) : 430 - 432
[6] CALCIFICATION OF DIFFERENTIATING SKELETAL MESENCHYME INVITRO
BINDERMAN, I
GREENE, RM
PENNYPACKER, JP
[J]. SCIENCE, 1979, 206 (4415) : 222 - 225
[7] BLANCK TJJ, 1975, ARCH BIOCHEM BIOPHYS, V171, P250
[8] SYNTHESIS OF CARTILAGE MATRIX BY MAMMALIAN CHONDROCYTES INVITRO .3. EFFECTS OF ASCORBATE
DANIEL, JC
PAULI, BU
KUETTNER, KE
[J]. JOURNAL OF CELL BIOLOGY, 1984, 99 (06) : 1960 - 1969
[9] OSTEOBLASTS ISOLATED FROM MOUSE CALVARIA INITIATE MATRIX MINERALIZATION IN CULTURE
ECAROTCHARRIER, B
GLORIEUX, FH
VANDERREST, M
PEREIRA, G
[J]. JOURNAL OF CELL BIOLOGY, 1983, 96 (03) : 639 - 643
[10] HABUCHI H, 1985, J BIOL CHEM, V260, P3029

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