TY - JOUR
T1 - Fibulin-5/DANCE is essential for elastogenesis in vivo
AU - Nakamura, Tomoyuki
AU - Lozano, Pilar Ruiz
AU - Ikeda, Yasuhiro
AU - Iwanaga, Yoshitaka
AU - Hinek, Aleksander
AU - Minamisawa, Susumu
AU - Cheng, Ching Feng
AU - Kobuke, Kazuhiro
AU - Dalton, Nancy
AU - Takada, Yoshikazu
AU - Tashiro, Kei
AU - Ross, John
AU - Honjo, Tasuku
AU - Chien, Kenneth R.
PY - 2002
Y1 - 2002
N2 - The elastic fibre system has a principal role in the structure and function of various types of organs that require elasticity, such as large arteries, lung and skin1, 2. Although elastic fibres are known to be composed of microfibril proteins (for example, fibrillins and latent transforming growth factor (0TGF)-β-binding proteins) and polymerized elastin, the mechanism of their assembly and development is not well understood. Here we report that fibulin-5 (also known as DANCE), a recently discovered integrin ligand3, is an essential determinant of elastic fibre organization. fibulin-5−/− mice generated by gene targeting exhibit a severely disorganized elastic fibre system throughout the body. fibulin-5−/− mice survive to adulthood, but have a tortuous aorta with loss of compliance, severe emphysema, and loose skin (cutis laxa). These tissues contain fragmented elastin without an increase of elastase activity, indicating defective development of elastic fibres. Fibulin-5 interacts directly with elastic fibres in vitro, and serves as a ligand for cell surface integrins αvβ3, αvβ5 and α9β1 through its amino-terminal domain. Thus, fibulin-5 may provide anchorage of elastic fibres to cells, thereby acting to stabilize and organize elastic fibres in the skin, lung and vasculature.
AB - The elastic fibre system has a principal role in the structure and function of various types of organs that require elasticity, such as large arteries, lung and skin1, 2. Although elastic fibres are known to be composed of microfibril proteins (for example, fibrillins and latent transforming growth factor (0TGF)-β-binding proteins) and polymerized elastin, the mechanism of their assembly and development is not well understood. Here we report that fibulin-5 (also known as DANCE), a recently discovered integrin ligand3, is an essential determinant of elastic fibre organization. fibulin-5−/− mice generated by gene targeting exhibit a severely disorganized elastic fibre system throughout the body. fibulin-5−/− mice survive to adulthood, but have a tortuous aorta with loss of compliance, severe emphysema, and loose skin (cutis laxa). These tissues contain fragmented elastin without an increase of elastase activity, indicating defective development of elastic fibres. Fibulin-5 interacts directly with elastic fibres in vitro, and serves as a ligand for cell surface integrins αvβ3, αvβ5 and α9β1 through its amino-terminal domain. Thus, fibulin-5 may provide anchorage of elastic fibres to cells, thereby acting to stabilize and organize elastic fibres in the skin, lung and vasculature.
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U2 - 10.1038/415171a
DO - 10.1038/415171a
M3 - Letter
C2 - 11805835
AN - SCOPUS:0037050030
SN - 0028-0836
VL - 415
SP - 171
EP - 175
JO - Nature
JF - Nature
IS - 6868
ER -