Fibrillar Collagen Specifically Regulates Human Vascular Smooth Muscle Cell Genes Involved in Cellular Responses and the Pericellular Matrix Environment

ABSTRACT—Proliferation and αvβ3 integrin-dependent migration of vascular smooth muscle cells are suppressed on polymerized type I collagen. To identify genes specifically regulated in human smooth muscle cells by polymerized collagen, we used the suppressive subtraction hybridization technique. Comp...

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Bibliographic Details
Published in:Circulation research 2001-03, Vol.88 (5), p.460-467
Main Authors: Ichii, Takuya, Koyama, Hidenori, Tanaka, Shinji, Kim, Shokei, Shioi, Atsushi, Okuno, Yasuhisa, Raines, Elaine W, Iwao, Hiroshi, Otani, Shuzo, Nishizawa, Yoshiki
Format: Article
Language:English
Subjects:
Actinin - drug effects
Actinin - metabolism
Animals
Blotting, Northern
Carotid Arteries - drug effects
Carotid Arteries - metabolism
Carotid Arteries - pathology
Carotid Artery Injuries - etiology
Carotid Artery Injuries - genetics
Catheterization
Cell Movement - drug effects
Cells, Cultured
Chemotaxis - drug effects
Collagen - chemistry
Collagen - pharmacology
Disease Models, Animal
DNA, Complementary - genetics
Extracellular Matrix Proteins - drug effects
Extracellular Matrix Proteins - genetics
Extracellular Matrix Proteins - metabolism
Gene Expression Regulation - drug effects
Growth Substances - pharmacology
Humans
Integrins - physiology
Kinetics
Male
Microscopy, Confocal
Muscle, Smooth, Vascular - cytology
Muscle, Smooth, Vascular - drug effects
Muscle, Smooth, Vascular - metabolism
Nucleic Acid Hybridization - methods
Polymers
Rats
Rats, Sprague-Dawley
RNA, Messenger - drug effects
RNA, Messenger - genetics
RNA, Messenger - metabolism
Thrombospondin 1 - genetics
Thrombospondin 1 - metabolism
Thrombospondin 1 - pharmacology
Vitronectin - pharmacology
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Summary:ABSTRACT—Proliferation and αvβ3 integrin-dependent migration of vascular smooth muscle cells are suppressed on polymerized type I collagen. To identify genes specifically regulated in human smooth muscle cells by polymerized collagen, we used the suppressive subtraction hybridization technique. Compared with smooth muscle cells cultured on monomer collagen, polymerized collagen suppresses the following(1) a number of other extracellular matrix proteins, including fibronectin, thrombospondin-1, tenascin-C, and cysteine-rich protein 61; (2) actin binding proteins including α-actinin; (3) signaling molecules; (4) protein synthesis-associated proteins; and (5) genes with unknown functions. Some of the identified genes, including cysteine-rich protein 61, show unique kinetics of mRNA regulation by monomer or polymerized collagen distinct from growth factors, suggesting extracellular matrix-specific gene modulation. Moreover, in vivo balloon catheter-mediated injury to the rat carotid artery induces many of the genes that are suppressed by polymerized collagen. Protein levels of thrombospondin-1 and fibronectin are also suppressed by polymerized collagen. Thrombospondin-1-mediated smooth muscle cell migration on vitronectin is significantly inhibited after culture on polymerized collagen for 24 hours, which is associated with decreased α-actinin accumulation at focal adhesions. Thus, polymerized type I collagen dynamically regulates gene expression, pericellular accumulation of extracellular matrix molecules, and the response to a given matrix molecule.
ISSN:0009-7330
1524-4571
DOI:10.1161/01.RES.88.5.460