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W2023506783 endingPage "378" @default.
W2023506783 startingPage "369" @default.
W2023506783 abstract "Invadopodia are proteolytically active protrusions formed by invasive tumoral cells when grown on an extracellular matrix (ECM) substratum. Although many molecular components have been defined, less is known of the formation and regulation of invadopodia. The multidomain protein cortactin, which is involved in the regulation of actin polymerisation, is one such component, but how cortactin is modulated to control the formation of invadopodia has not been elucidated. Here, a new invadopodia synchronization protocol is used to show that the cortactin N-terminal acidic and SH3 domains, involved in Arp2/3 complex and N-WASP binding and activation, respectively, are both required for invadopodia biogenesis. In addition, through a combination of RNA interference and a wide array of cortactin phosphorylation mutants, we were able to show that three convergent regulatory inputs based on the regulation of cortactin phosphorylation by Src-family kinases, Erk1/Erk2 and PAK are necessary for invadopodia formation and extracellular matrix degradation. These findings suggest that cortactin is a scaffold protein bringing together the different components necessary for the formation of the invadopodia, and that a fine balance between different phosphorylation events induces subtle changes in structure to calibrate cortactin function." @default.
W2023506783 created "2016-06-24" @default.
W2023506783 creator A5005861199 @default.
W2023506783 creator A5017160524 @default.
W2023506783 creator A5023219638 @default.
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W2023506783 creator A5046167549 @default.
W2023506783 creator A5064540758 @default.
W2023506783 creator A5065144913 @default.
W2023506783 date "2008-02-01" @default.
W2023506783 modified "2023-10-16" @default.
W2023506783 title "Multiple regulatory inputs converge on cortactin to control invadopodia biogenesis and extracellular matrix degradation" @default.
W2023506783 cites W1519901358 @default.
W2023506783 cites W1557352635 @default.
W2023506783 cites W1654219198 @default.
W2023506783 cites W1826215572 @default.
W2023506783 cites W1855741646 @default.
W2023506783 cites W1929801845 @default.
W2023506783 cites W1964075433 @default.
W2023506783 cites W1965760822 @default.
W2023506783 cites W1965860054 @default.
W2023506783 cites W1968434256 @default.
W2023506783 cites W1968790559 @default.
W2023506783 cites W1974326245 @default.
W2023506783 cites W1975126814 @default.
W2023506783 cites W1982036031 @default.
W2023506783 cites W1982643313 @default.
W2023506783 cites W1984283577 @default.
W2023506783 cites W1984690136 @default.
W2023506783 cites W1984707983 @default.
W2023506783 cites W1990962345 @default.
W2023506783 cites W1999673185 @default.
W2023506783 cites W1999816397 @default.
W2023506783 cites W2004823364 @default.
W2023506783 cites W2007503777 @default.
W2023506783 cites W2009582035 @default.
W2023506783 cites W2010781630 @default.
W2023506783 cites W2013193930 @default.
W2023506783 cites W2022850508 @default.
W2023506783 cites W2024531257 @default.
W2023506783 cites W2030155978 @default.
W2023506783 cites W2034546318 @default.
W2023506783 cites W2039205173 @default.
W2023506783 cites W2039325880 @default.
W2023506783 cites W2041119659 @default.
W2023506783 cites W2049163106 @default.
W2023506783 cites W2051410189 @default.
W2023506783 cites W2051991584 @default.
W2023506783 cites W2053911894 @default.
W2023506783 cites W2056546350 @default.
W2023506783 cites W2063988619 @default.
W2023506783 cites W2064492584 @default.
W2023506783 cites W2067677546 @default.
W2023506783 cites W2076055521 @default.
W2023506783 cites W2081787725 @default.
W2023506783 cites W2084073099 @default.
W2023506783 cites W2086262311 @default.
W2023506783 cites W2088662752 @default.
W2023506783 cites W2089429654 @default.
W2023506783 cites W2090342862 @default.
W2023506783 cites W2092089306 @default.
W2023506783 cites W2092859934 @default.
W2023506783 cites W2095169768 @default.
W2023506783 cites W2097533133 @default.
W2023506783 cites W2097743822 @default.
W2023506783 cites W2113685782 @default.
W2023506783 cites W2117116688 @default.
W2023506783 cites W2123737279 @default.
W2023506783 cites W2125743967 @default.
W2023506783 cites W2126666513 @default.
W2023506783 cites W2129277563 @default.
W2023506783 cites W2136846409 @default.
W2023506783 cites W2139130671 @default.
W2023506783 cites W2162075350 @default.
W2023506783 cites W2166277020 @default.
W2023506783 cites W2166566864 @default.
W2023506783 cites W2181676094 @default.
W2023506783 cites W2324328780 @default.
W2023506783 cites W4213323281 @default.
W2023506783 cites W76693565 @default.
W2023506783 doi "https://doi.org/10.1242/jcs.008037" @default.
W2023506783 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18198194" @default.
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