SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2065961692> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2065961692 endingPage "270" @default.
W2065961692 startingPage "257" @default.
W2065961692 abstract "The Ras-related GTPase Rap1 promotes cell adhesion and migration. Although the significance of Rap1 contribution to cell migration is increasingly being recognized, little is known about the biochemical mechanisms driving this process. In the present study, we discovered a previously unidentified regulatory role of insulin-like growth factor type I (IGF-I) receptor (IGF-IR) in CRK Src homology 3 (SH3)-binding guanine-nucleotide-releasing protein (C3G)–Rap1–fascin–actin axis promoting cell movement. We demonstrate that a burst of Rap1 activity, rather than presumed hyperactivation, is imperative for the onset of cell movement. We show that while autophosphorylated IGF-IR signals to C3G to activate Rap1, subsequent IGF-IR internalization promotes gradual inactivation of Rap1 by putative Rap1 GTPase-activating protein (GAP). Additionally, IGF-IR signalling recruits active Rap1 at sites of cell motile protrusions. C3G depletion prevents IGF-I-induced fascin accumulation at actin microspikes and blocks protrusions. In the absence of IGF-IR activity, the wild-type (WT) Rap1 and the constitutively active V12Rap1 mutant remain in cell–cell contacts. Forced inactivation of Rap1 signalling by overexpressing dominant negative N17Rap1, Rap1GAP or by silencing C3G has a detrimental effect on filamentous (F)-actin and cell adhesion irrespective of IGF-IR signalling. We conclude that the basal levels of Rap1 activity holds up cell adhesion, whereas sequential regulation of C3G and GAP by IGF-IR reverses the labile Rap1 function from supporting adhesion to promoting migration." @default.
W2065961692 created "2016-06-24" @default.
W2065961692 creator A5003634546 @default.
W2065961692 creator A5012485042 @default.
W2065961692 creator A5026150833 @default.
W2065961692 creator A5031892200 @default.
W2065961692 creator A5045302579 @default.
W2065961692 creator A5058831788 @default.
W2065961692 creator A5059358067 @default.
W2065961692 date "2014-09-22" @default.
W2065961692 modified "2023-09-27" @default.
W2065961692 title "The small GTPase Rap1 promotes cell movement rather than stabilizes adhesion in epithelial cells responding to insulin-like growth factor I" @default.
W2065961692 cites W1494692540 @default.
W2065961692 cites W1525183361 @default.
W2065961692 cites W1623614426 @default.
W2065961692 cites W1966386737 @default.
W2065961692 cites W1971931044 @default.
W2065961692 cites W1973568352 @default.
W2065961692 cites W1973815004 @default.
W2065961692 cites W1975067782 @default.
W2065961692 cites W1975345515 @default.
W2065961692 cites W1975889812 @default.
W2065961692 cites W1976194946 @default.
W2065961692 cites W1979485370 @default.
W2065961692 cites W1980000777 @default.
W2065961692 cites W1983790767 @default.
W2065961692 cites W1984653721 @default.
W2065961692 cites W1991781057 @default.
W2065961692 cites W1993735775 @default.
W2065961692 cites W1995003524 @default.
W2065961692 cites W1999657364 @default.
W2065961692 cites W2001751915 @default.
W2065961692 cites W2002612012 @default.
W2065961692 cites W2005007296 @default.
W2065961692 cites W2009080196 @default.
W2065961692 cites W2010296481 @default.
W2065961692 cites W2012806962 @default.
W2065961692 cites W2013282575 @default.
W2065961692 cites W2013549218 @default.
W2065961692 cites W2014733700 @default.
W2065961692 cites W2016095963 @default.
W2065961692 cites W2024460610 @default.
W2065961692 cites W2026620194 @default.
W2065961692 cites W2026769136 @default.
W2065961692 cites W2033924774 @default.
W2065961692 cites W2035038953 @default.
W2065961692 cites W2039038314 @default.
W2065961692 cites W2040961694 @default.
W2065961692 cites W2045296177 @default.
W2065961692 cites W2045641731 @default.
W2065961692 cites W2047922419 @default.
W2065961692 cites W2050222084 @default.
W2065961692 cites W2052746404 @default.
W2065961692 cites W2055237105 @default.
W2065961692 cites W2057571761 @default.
W2065961692 cites W2062292251 @default.
W2065961692 cites W2067400935 @default.
W2065961692 cites W2068140427 @default.
W2065961692 cites W2069280199 @default.
W2065961692 cites W2071551486 @default.
W2065961692 cites W2072202257 @default.
W2065961692 cites W2073196507 @default.
W2065961692 cites W2077624416 @default.
W2065961692 cites W2079541312 @default.
W2065961692 cites W2080182516 @default.
W2065961692 cites W2083063047 @default.
W2065961692 cites W2085243689 @default.
W2065961692 cites W2095035711 @default.
W2065961692 cites W2096913544 @default.
W2065961692 cites W2098996804 @default.
W2065961692 cites W2101774617 @default.
W2065961692 cites W2104310645 @default.
W2065961692 cites W2110416410 @default.
W2065961692 cites W2110870557 @default.
W2065961692 cites W2112032807 @default.
W2065961692 cites W2112281734 @default.
W2065961692 cites W2114682483 @default.
W2065961692 cites W2121328410 @default.
W2065961692 cites W2122829982 @default.
W2065961692 cites W2132793070 @default.
W2065961692 cites W2142203996 @default.
W2065961692 cites W2147875815 @default.
W2065961692 cites W2149334247 @default.
W2065961692 cites W2149688672 @default.
W2065961692 cites W2154477609 @default.
W2065961692 cites W2156925139 @default.
W2065961692 cites W2158678196 @default.
W2065961692 cites W2161632564 @default.
W2065961692 cites W2170631525 @default.
W2065961692 cites W4244833609 @default.
W2065961692 doi "https://doi.org/10.1042/bj20131638" @default.
W2065961692 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25028810" @default.
W2065961692 hasPublicationYear "2014" @default.
W2065961692 type Work @default.
W2065961692 sameAs 2065961692 @default.
W2065961692 citedByCount "12" @default.
W2065961692 countsByYear W20659616922014 @default.
W2065961692 countsByYear W20659616922015 @default.