Reaction: p-Y546,Y584-PTPN11 (in CSF3 dimer:2xp-4Y-CSF3R:LYN:p-Y-JAK1:p-JAK2:p-SYK:p-HCK:p-TYK2:SHC:GRB2:PTPN11) dephosphorylates KRAS
- in pathway: Signaling by CSF3 (G-CSF)
CSF3 (G-CSF) signaling activates ERKs (ERK1, ERK2) via RAS. One possible mechanism of RAS activation is the dephosphorylation of KRAS (the dominant isoform of RAS in hematopoietic cells) by phosphorylated PTPN11 (also known as SHP-2 or SHP2) (Kano et al. 2019, also inferred from dephosphorylation of the HRAS paralog in Bunda et al. 2015) bound to phosphorylated CSF3R. Dephosphorylation of RAS increases the association of RAS with its downstream effector RAF. Inhibition of PTPN11 in mouse cells indicates that this pathway accounts for most but not all activation of ERKs in response to CSF3 (Jack et al. 2009, Zhang and Friedman 2011). Guanyl nucleotide exchange factors SOS or VAV bound to GRB2 may also be responsible for some activation of RAS in response to CSF3, but this has not yet been demonstrated.
Reaction - small molecule participants:
Pi [cytosol]
Reactome.org reaction link: R-HSA-9674816
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Reaction input - small molecules:
Reaction output - small molecules:
hydrogenphosphate
Reactome.org link: R-HSA-9674816