Transcription Factor CHF1/Hey2 Regulates Neointimal Formation In Vivo and Vascular Smooth Muscle Proliferation and Migration In Vitro

doi:10.1161/01.ATV.0000143936.77094.a4

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Arteriosclerosis, Thrombosis, and Vascular Biology. 2004;24:2069-2074
Published online before print September 2, 2004, doi: 10.1161/01.ATV.0000143936.77094.a4

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Vascular Biology

Transcription Factor CHF1/Hey2 Regulates Neointimal Formation In Vivo and Vascular Smooth Muscle Proliferation and Migration In Vitro

Yasuhiko Sakata; Fan Xiang; Zhiping Chen; Yoriko Kiriyama; Caramai N. Kamei; Daniel I. Simon; Michael T. Chin

From Vascular Medicine Research, Brigham & Women’s Hospital and Harvard Medical School, Cambridge, Mass.

Correspondence to Michael T. Chin, Vascular Medicine Research, Brigham and Women’s Hospital, 65 Landsdowne Street, Room 277, Cambridge, MA 02139. E-mail mchin{at}rics.bwh.harvard.edu

Objective— To determine the role of the cardiovascular-restricted,hairy-related bHLH transcription factor, CHF1/Hey2, in the biologicalresponse to vascular injury.

Methods and Results— We investigated the response of CHF1/Hey2-deficientmice to vascular injury in vivo and the response of primarycultured vascular smooth muscle cells (VSMCs) from these miceto growth factors in vitro. Neointima formation after arterialwire injury is decreased in knockout (KO) compared with wild-type(WT) mice (0.025±0.011 mm² in WT [n=13]) versus 0.016±0.008mm² in KO (n=12; P<0.05) and is accompanied by reduced cellularproliferation. CHF1/Hey2-deficient VSMCs proliferate slowlycompared with WT VSMCs and also show decreased migration inresponse to platelet-derived growth factor (PDGF) (62.6±10.3CPF versus 37.2±13.5 CPF; P<0.01) and heparin-bindingepidermal growth factor-like growth factor (HB-EGF) (27.4±7.7CPF versus 6.4±3.7 CPF, P<0.05). Furthermore, lamellipodiaformation and membrane ruffling induced by these chemoattractantsare diminished in KO VSMCs, which is correlated with decreasedactivation of the small GTPase Rac1. Although total Rac1 proteinwas not changed in KO VSMCs, the level of the Rac guanine exchangefactor (GEF), Sos1, was decreased.

Conclusions— CHF1/Hey2 is an important regulator of vascularsmooth muscle cell (VSMC) accumulation during vascular remodelingand responsiveness to growth factors in vitro.

CHF1/Hey2-deficient mice show decreased neointima formationafter vascular injury. VSMCs from these mice show decreasedproliferation, migration, cytoskeletal rearrangement, activationof the small GTPase Rac1, and expression of the Rac guanineexchange factor (GEF), Sos1. CHF1/Hey2 is an important regulatorof vascular remodeling and growth factor responsiveness in VSMCs.

Key Words: genetically altered mice • growth factors • vascular biology • vascular muscle

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