BACKGROUND INFORMATION: The F-BAR {Fes/CIP4 [Cdc42 (cell division cycle 42)-interacting protein 4] homology and BAR (Bin/amphiphysin/Rvs)} proteins have emerged as important co-ordinators of signalling pathways that regulate actin assembly and membrane dynamics. The presence of the F-BAR domain is the hallmark of this family of proteins and the CIP4 (Cdc42-interacting protein 4) was one of the first identified vertebrate F-BAR proteins. There are three human CIP4 paralogues, namely CIP4, FBP17 (formin-binding protein 17) and Toca-1 (transducer of Cdc42-dependent actin assembly 1). The CIP4-like proteins have been implicated in Cdc42-dependent actin reorganization and in regulation of membrane deformation events visible as tubulation of lipid bilayers. RESULTS: We performed side-by-side analyses of the three CIP4 paralogues. We found that the three CIP4-like proteins vary in their effectiveness to catalyse membrane tubulation and actin reorganization. Moreover, we show that the CIP4-dependent membrane tubulation is enhanced in the presence of activated Cdc42. Some F-BAR members have been shown to have a role in the endocytosis of the EGF (epidermal growth factor) receptor and this prompted us to study the involvement of the CIP4-like proteins in signalling of the PDGFRbeta [PDGF (platelet-derived growth factor) beta-receptor]. We found that knock-down of CIP4-like proteins resulted in a prolonged formation of PDGF-induced dorsal ruffles, as well as an increased PDGF-dependent cell migration. This was most likely a consequence of a sustained PDGFRbeta activation caused by delayed internalization of the receptor in the cells treated with siRNA (small interfering RNA) specific for the CIP4-like proteins. CONCLUSIONS: Our findings show that CIP4-like proteins induced membrane tubulation downstream of Cdc42 and that they have important roles in PDGF-dependent actin reorganization and cell migration by regulating internalization and activity of the PDGFRbeta. Moreover, the results suggest an important role for the CIP4-like proteins in the regulation of the activity of the PDGFRbeta.
BACKGROUND INFORMATION: The F-BAR {Fes/CIP4 [Cdc42 (cell division cycle 42)-interacting protein 4] homology and BAR (Bin/amphiphysin/Rvs)} proteins have emerged as important co-ordinators of signalling pathways that regulate actin assembly and membrane dynamics. The presence of the F-BAR domain is the hallmark of this family of proteins and the CIP4 (Cdc42-interacting protein 4) was one of the first identified vertebrate F-BAR proteins. There are three humanCIP4 paralogues, namely CIP4, FBP17 (formin-binding protein 17) and Toca-1 (transducer of Cdc42-dependent actin assembly 1). The CIP4-like proteins have been implicated in Cdc42-dependent actin reorganization and in regulation of membrane deformation events visible as tubulation of lipid bilayers. RESULTS: We performed side-by-side analyses of the three CIP4 paralogues. We found that the three CIP4-like proteins vary in their effectiveness to catalyse membrane tubulation and actin reorganization. Moreover, we show that the CIP4-dependent membrane tubulation is enhanced in the presence of activated Cdc42. Some F-BAR members have been shown to have a role in the endocytosis of the EGF (epidermal growth factor) receptor and this prompted us to study the involvement of the CIP4-like proteins in signalling of the PDGFRbeta [PDGF (platelet-derived growth factor) beta-receptor]. We found that knock-down of CIP4-like proteins resulted in a prolonged formation of PDGF-induced dorsal ruffles, as well as an increased PDGF-dependent cell migration. This was most likely a consequence of a sustained PDGFRbeta activation caused by delayed internalization of the receptor in the cells treated with siRNA (small interfering RNA) specific for the CIP4-like proteins. CONCLUSIONS: Our findings show that CIP4-like proteins induced membrane tubulation downstream of Cdc42 and that they have important roles in PDGF-dependent actin reorganization and cell migration by regulating internalization and activity of the PDGFRbeta. Moreover, the results suggest an important role for the CIP4-like proteins in the regulation of the activity of the PDGFRbeta.
Authors: Christina S Pichot; Constadina Arvanitis; Sean M Hartig; Samuel A Jensen; John Bechill; Saad Marzouk; Jindan Yu; Jeffrey A Frost; Seth J Corey Journal: Cancer Res Date: 2010-10-12 Impact factor: 12.701