3.0
NF-KB Canonical
Pathway ID: SIGNOR-NFKBCView in NDEx
Description: The NF-kB family of transcription factors plays important roles in the immune system. Two signaling pathways lead to the activation of NF-kB, known as the classical (canonical) pathway and the non-canonical (alternative) pathway. The common regulatory step is activation of an IkB kinase (IKK) complex consisting of catalytic kinase subunits (IKKalpha and/or IKKbeta) and the regulatory non-enzymatic scaffold protein NEMO (NF-kB essential modulator also known as IKKgamma). Activation of NF-kB dimers is due to IKK-mediated phosphorylation-induced proteasomal degradation of IkB, enabling the active NF-kB transcription factor subunits to translocate to the nucleus and induce target gene expression. The canonical NF-kB pathway is induced by several signals including antigens, TLR ligands and cytokines such as TNF. It uses a wide variety of signaling adaptors to engage and activate the IKKbeta subunit of the IKK complex. IKKbeta phosphorylation of classical IkB proteins bound to NF-kB dimers such as p50-p65 results in ubiquitination (Ub) of IkB and proteasome-induced degradation.
Curated by: Elena Santonico
Description: The NF-kB family of transcription factors plays important roles in the immune system. Two signaling pathways lead to the activation of NF-kB, known as the classical (canonical) pathway and the non-canonical (alternative) pathway. The common regulatory step is activation of an IkB kinase (IKK) complex consisting of catalytic kinase subunits (IKKalpha and/or IKKbeta) and the regulatory non-enzymatic scaffold protein NEMO (NF-kB essential modulator also known as IKKgamma). Activation of NF-kB dimers is due to IKK-mediated phosphorylation-induced proteasomal degradation of IkB, enabling the active NF-kB transcription factor subunits to translocate to the nucleus and induce target gene expression. The canonical NF-kB pathway is induced by several signals including antigens, TLR ligands and cytokines such as TNF. It uses a wide variety of signaling adaptors to engage and activate the IKKbeta subunit of the IKK complex. IKKbeta phosphorylation of classical IkB proteins bound to NF-kB dimers such as p50-p65 results in ubiquitination (Ub) of IkB and proteasome-induced degradation.
Curated by: Elena Santonico
25 Seed Entities
Organism: 
|
Name | Primary ID |
|---|---|
| FAS | P25445 |
| NfKb-p65/p50 | SIGNOR-C13 |
| TNFRSF1A | P19438 |
| Proliferation | SIGNOR-PH4 |
| TRAF6 | Q9Y4K3 |
| Inflammation | SIGNOR-PH12 |
| TNFAIP3 | P21580 |
| ITCH | Q96J02 |
| UBE2N | P61088 |
| RNF11 | Q9Y3C5 |
| FADD | Q13158 |
| UBE2V1 | Q13404 |
| TRAF2 | Q12933 |
| TRADD | Q15628 |
| TAB3 | Q8N5C8 |
| SCF-betaTRCP | SIGNOR-C5 |
| MAP3K7 | O43318 |
| FASLG | P48023 |
| NFKBIA | P25963 |
| TAB2 | Q9NYJ8 |
| RIPK1 | Q13546 |
| TNF | P01375 |
| IKK-complex | SIGNOR-C14 |
| TAX1BP1 | Q86VP1 |
| CYLD | Q9NQC7 |