TY - JOUR
T1 - Rsu1 contributes to cell adhesion and spreading in MCF10A cells via effects on P38 map kinase signaling
AU - Kim, Yong Chul
AU - Gonzalez-Nieves, Reyda
AU - Cutler, Mary L.
N1 - Funding Information:
The following funding agencies provided support: Congressionally DirectedMedical Research Program grantW81XWH-09-2-0056 from the WoundHealing Program (to MLC), the MurthaCancer Center at Walter Reed NationalMilitary Medical Center through Uniformed Services University (to MLC) andW81XWH-10-1-0024 from the Congressionally Directed Medical Research Breast Cancer Program (predoctoral fellowship to RG-N).
Funding Information:
1Department of Pathology; F. Edward Hebert School of Medicine; Uniformed Services University of the Health Sciences; Bethesda, MD USA; 2Murtha Cancer Center; Walter Reed National Military Medical Center; Bethesda, MD USA; †Current address: Division of Molecular and Cellular Biosciences; Directorate for Biological Sciences, National Science Foundation; Arlington, VA
PY - 2015
Y1 - 2015
N2 - The ILK, PINCH, Parvin (IPP) complex regulates adhesion and migration via binding of ILK to β1 integrin and α-parvin thus linking focal adhesions to actin cytoskeleton. ILK also binds the adaptor protein PINCH which connects signaling proteins including Rsu1 to the complex. A recent study of Rsu1 and PINCH1 in non-transformed MCF10A human mammary epithelial cells revealed that the siRNA-mediated depletion of either Rsu1 or PINCH1 decreased the number of focal adhesions (FAs) and altered the distribution and localization of FA proteins. This correlated with reduced adhesion, failure to spread or migrate in response to EGF and a loss of actin stress fibers and caveolae. The depletion of Rsu1 caused significant reduction in PINCH1 implying that Rsu1 may function in part by regulating levels of PINCH1. However, Rsu1, but not PINCH1, was required for EGFinduced activation of p38 Map kinase and ATF2 phosphorylation, suggesting a Rsu1 function independent from the IPP complex. Reconstitution of Rsu1-depleted cells with a Rsu1 mutant (N92D) that does not bind to PINCH1 failed to restore FAs or migration but did promote IPP-independent spreading and constitutive as well as EGF-induced p38 activation. In this commentary we discuss p38 activity in adhesion and how Rsu1 expression may be linked to Map kinase kinase (MKK) activation and detachment-induced stress kinase signaling.
AB - The ILK, PINCH, Parvin (IPP) complex regulates adhesion and migration via binding of ILK to β1 integrin and α-parvin thus linking focal adhesions to actin cytoskeleton. ILK also binds the adaptor protein PINCH which connects signaling proteins including Rsu1 to the complex. A recent study of Rsu1 and PINCH1 in non-transformed MCF10A human mammary epithelial cells revealed that the siRNA-mediated depletion of either Rsu1 or PINCH1 decreased the number of focal adhesions (FAs) and altered the distribution and localization of FA proteins. This correlated with reduced adhesion, failure to spread or migrate in response to EGF and a loss of actin stress fibers and caveolae. The depletion of Rsu1 caused significant reduction in PINCH1 implying that Rsu1 may function in part by regulating levels of PINCH1. However, Rsu1, but not PINCH1, was required for EGFinduced activation of p38 Map kinase and ATF2 phosphorylation, suggesting a Rsu1 function independent from the IPP complex. Reconstitution of Rsu1-depleted cells with a Rsu1 mutant (N92D) that does not bind to PINCH1 failed to restore FAs or migration but did promote IPP-independent spreading and constitutive as well as EGF-induced p38 activation. In this commentary we discuss p38 activity in adhesion and how Rsu1 expression may be linked to Map kinase kinase (MKK) activation and detachment-induced stress kinase signaling.
UR - http://www.scopus.com/inward/record.url?scp=84954203725&partnerID=8YFLogxK
U2 - 10.4161/19336918.2014.972775
DO - 10.4161/19336918.2014.972775
M3 - Article
C2 - 25482629
AN - SCOPUS:84954203725
SN - 1933-6918
VL - 9
SP - 227
EP - 232
JO - Cell Adhesion and Migration
JF - Cell Adhesion and Migration
IS - 3
ER -