|Cancer||Cell death||Cell cycle||Cytoskeleton||Exo/endocytosis||Differentiation||Division||Organelles||Signalling||Stem cells||Trafficking|
Cell Biology International (1996) 20, 501512 (Printed in Great Britain)
THREE-DIMENSIONAL STRUCTURE OF EXTRACELLULAR MATRIX REVERSIBLY REGULATES MORPHOLOGY, PROLIFERATION AND COLLAGEN METABOLISM OF PERISINUSOIDAL STELLATE CELLS (VITAMIN A-STORING CELLS)
HARUKI SENOOaf1, KATSUYUKI IMAIa, MITSURU SATOa, NAOSUKE KOJIMAa, MITSUTAKA MIURAa and RYU‑ICHIRO HATAb
aDepartment of Anatomy, Akita University School of Medicine, Hondo, Akita 010
bDivision of Adult Diseases, Medical Research Institute, Tokyo Medical and Dental University, Chiyoda-ku, Tokyo 101, Japan
The three-dimensional structure of the extracellular substratum was found to regulate reversibly the morphology, proliferation and collagen synthesis of perisinusoidal stellate cells (lipocytes, i.e. fat-storing ‘Ito’ cells). On non-coated polystyrene and type I collagen-coated culture dishes, the cells spread well and extended their cellular processes. On the surface of type I collagen gels, the cells gathered and formed a mesh-like structure. However, in type I collagen gel where the cells were surrounded by type I collagen three-dimensionally, the cells extended their fine cellular processes and resembled the star-shaped stellate cells seenin vivo. The cell proliferation was more prominent in culture dishes coated with type I collagen or in polystyrene culture dishes than on or in type I collagen gels. The collagen synthesis was affected in the same manner. These data indicate that the nature and the three-dimensional structure of the extracellular matrix (ECM) can regulate morphology, proliferation and functions of the perisinusoidal stellate cells. In order to examine the reversibility of these regulations, we liberated cultured cells with trypsin or with purified bacterial collagenase and re-seeded them onto or into each substratum. The cells changed their shape, rate of proliferation and collagen synthesis according to each new substratum. These results indicate that the three-dimensional structure of ECM reversibly regulates the morphology, proliferation rate and functions of the perisinusoidal stellate cells.
Key words: extracellular matrix, collagen, three-dimensional structure, perisinusoidal stellate cells.
f1To whom correspondence should be addressed.