Maps_Modules
HMC:ACTIVATING_INVASION_AND_METASTASIS
EMT Senescence / CYTOSKELETON_POLARITY
References
em_re1432( EMT Senescence ):
PMID:25234227
Dynamin 2 act on the actin cytoskeleton by:
- Promoting membrane remodeling and endocytosis of cell receptor thanks to NDPKA (NME1) and NDPKB (NME2)
DNM2 induces E-cadherin internalisation
em_re1453( EMT Senescence ):
PMID??:10402472
We conclude that a pool of surface E-cadherin is constantly trafficked through an endocytic, recycling pathway and that this may provide a mechanism for regulating the availability of E-cadherin for junction formation in development, tissue remodeling, and tumorigenesis.
em_re1454( EMT Senescence ):
PMID:22674073
Clathrin-mediated endocytosis appears to be responsible for two types of growth factor-induced cadherin internalization, FGF-mediated internalization of E-cadherin () and VEGF-mediated internalization of VE-cadherin.
em_re1458( EMT Senescence ):
Cadherin internalization can occur through either clathrin-mediated, caveolin-mediated, or macropinocytosis-like pathways. Internalized cadherin is then sorted either for lysosomal degradation or recycling back to the plasma membrane.
em_re1494( EMT Senescence ):
PMID:24970086
Knockdown of NM23-H1 and -H2 (fig. S1, A to E) reduced clathrin-dependent endocytosis of the transferrin (Tf) and epidermal growth factor (EGF) receptors
em_re1504( EMT Senescence ):
Desclozeaux and colleagues also found that cadherin recycling is necessary for maintaining adherens junctions.
→ Clathrin dependent endosomal pathway@Clathrin coated vesicle
→ Endosomal trafficking@Endosome
→ Adherens junctions@Cytosol
→ _alpha_-Catenin*@Clathrin coated vesicle
→ E-Cadherin*@Clathrin coated vesicle
→ _beta_-Catenin*@Clathrin coated vesicle
→ p120*@Clathrin coated vesicle
→ E-Cadherin*|Y_pho@Clathrin coated vesicle
→ EGFR family*@Clathrin coated vesicle
→ degraded