KLF2 |
Binding KLF2 and inhibiting its transactivation |
Not discussed |
[51] |
KLF5 |
Degradation in a ubiquitin-independent way |
Not discussed |
[52, 53] |
Smad2 |
Degradation |
Inhibition of TGF-β signaling |
[49, 50] |
Smad4 |
Degradation |
Attenuated TGF-β signaling |
|
CK2β |
Ubiquitination and degradation |
Inhibition of TGF-β-induced EMT |
[59] |
CXCR4 |
Limitation of degradation |
Enhancement of cell migration and bone metastasis in breast cancer |
[48] |
LATS1 |
Ubiquitination and degradation |
Promoted proliferation of breast cancer cells |
[56] |
TβRI |
Polyubiquitination and degradation |
Inhibited TGF-β cytostatic signaling, and exhibited carcinogenic properties |
[54] |
TAP63 |
Ubiquitination and degradation |
Restrained apoptosis and sensitivity to doxorubicin and cisplatin in colon cancer cells |
[45] |
DeltaNP63 |
Ubiquitination and degradation |
Increased doxorubicin-induced apoptosis in breast cancer cells |
[45] |
ErbB4 |
Ubiquitination and degradation |
Tumor inhibition in breast cancer |
[55] |
p27 |
Ubiquitination and degradation |
Promoted leukemic cell growth |
[46] |
RNF11 |
Ubiquitination, not degradation |
Enhanced proliferation and survival of cancer cells |
[64] |
Ezrin |
Ubiquitination, not degradation |
Increased Met level and further promoted proliferation of cancer cells |
[15] |
PTEN |
Polyubiquitination |
Promotion of cancer development |
[19] |
EGFR |
Ubiquitination and stabilization |
Enhanced NSCLC stemness and inhibited its chemosensitivity |
[67] |