3.0
Integrin Signaling
Pathway ID: SIGNOR-IS
Description: (from Wikipedia) Integrins play an important role in cell signaling by modulating the cell signaling pathways of transmembrane protein kinases such as receptor tyrosine kinases (RTK). While the interaction between integrin and receptor tyrosine kinases originally was thought of as uni-directional and supportive, recent studies indicate that integrins have additional, multi-faceted roles in cell signaling. Integrins can regulate the receptor tyrosine kinase signaling by recruiting specific adaptors to the plasma membrane. For example, β1c integrin recruits Gab1/Shp2 and presents Shp2 to IGF1R, resulting in dephosphorylation of the receptor.[19] In a reverse direction, when a receptor tyrosine kinase is activated, integrins co-localise at focal adhesion with the receptor tyrosine kinases and their associated signaling molecules. The repertoire of integrins expressed on a particular cell can specify the signaling pathway due to the differential binding affinity of ECM ligands for the integrins. The tissue stiffness and matrix composition can initiate specific signaling pathways regulating cell behavior. [...] Depending on the integrin's regulatory impact on specific receptor tyrosine kinases, the cell can experience: cell growth, cell division, cell survival, cellular differentiation, and apoptosis.
Curated by: Marta Iannuccelli
Description: (from Wikipedia) Integrins play an important role in cell signaling by modulating the cell signaling pathways of transmembrane protein kinases such as receptor tyrosine kinases (RTK). While the interaction between integrin and receptor tyrosine kinases originally was thought of as uni-directional and supportive, recent studies indicate that integrins have additional, multi-faceted roles in cell signaling. Integrins can regulate the receptor tyrosine kinase signaling by recruiting specific adaptors to the plasma membrane. For example, β1c integrin recruits Gab1/Shp2 and presents Shp2 to IGF1R, resulting in dephosphorylation of the receptor.[19] In a reverse direction, when a receptor tyrosine kinase is activated, integrins co-localise at focal adhesion with the receptor tyrosine kinases and their associated signaling molecules. The repertoire of integrins expressed on a particular cell can specify the signaling pathway due to the differential binding affinity of ECM ligands for the integrins. The tissue stiffness and matrix composition can initiate specific signaling pathways regulating cell behavior. [...] Depending on the integrin's regulatory impact on specific receptor tyrosine kinases, the cell can experience: cell growth, cell division, cell survival, cellular differentiation, and apoptosis.
Curated by: Marta Iannuccelli
37 Seed Entities
Organism: 
|
Name | Primary ID |
|---|---|
| MEK1/2 | SIGNOR-PF25 |
| Av/b3 integrin | SIGNOR-C177 |
| A6/b4 integrin | SIGNOR-C174 |
| GRB2 | P62993 |
| Cell_growth | SIGNOR-PH33 |
| ELK1 | P19419 |
| ITGB1BP1 | O14713 |
| CyclinE/CDK2 | SIGNOR-C16 |
| PI3K | SIGNOR-C156 |
| CDKN1B | P46527 |
| ILK | Q13418 |
| WWTR1 | Q9GZV5 |
| PTK2 | Q05397 |
| TEAD | SIGNOR-PF22 |
| YAP1 | P46937 |
| LATS1/2 | SIGNOR-PF43 |
| A1/b1 integrin | SIGNOR-C159 |
| ITGB1 | P05556 |
| Apoptosis | SIGNOR-PH2 |
| RAF1 | P04049 |
| Proliferation | SIGNOR-PH4 |
| FOXO3 | O43524 |
| A6/b1 integrin | SIGNOR-C164 |
| TLN1 | Q9Y490 |
| ITGB4 | P16144 |
| ECM | SIGNOR-ST20 |
| ERK1/2 | SIGNOR-PF1 |
| SRC | P12931 |
| Kindlin | SIGNOR-PF48 |
| G1/S_transition | SIGNOR-PH50 |
| HRAS | P01112 |
| DOK1 | Q99704 |
| SOS1 | Q07889 |
| ITGB3 | P05106 |
| AKT | SIGNOR-PF24 |
| RTKs | SIGNOR-PF38 |
| PXN | P49023 |