How is Ubiquitin attached to the target proteins?
Ubiquitin is a tag/ recognition for the proteasome/ degradation
Covalent isopeptide bonds
The carbonyl group of ubiquitin is attached to the (additional) epsilon Amino group of Lysin in the target Protein
It’s a dehydration: H2O is cleaved off
How are the target cells poly-ubiquitinated?
A Ubiquitin contains multiple Lysin AA
Therefore several Ubiquitin proteins can be attached to the first one -> chain of Ubiquitin
What are characteristics of the Proteasome/ what are the functions?
contains 4 layers of protein rings
Hydrolyses proteins
Trypsin, chymotrypsin and caspase like activity
the trypsin and chemotrypsin like activity means an endoprotease which cuts the protein (endo= in the middle) after Lysin and Arginine)
The caspase like activity means a Cystein enzyme, cutting after Aspartate
Ubiquitin also contains AA where the enzymes cut. Why is Ubiquitin not degraded by the Proteasome?
Ubiquitin is very compactly folded. Therefore it is recycled to target other proteins
What happens with degraded AA?
Immuno recognition
MHC1 (major histo compatibility complex): presents the AA on the surface of the cell
T-cells can monitor if something went wrong
Cell shows what proteins it has made
What are the classes of ubiquitin ligases?
Ubiquitin ligases are enzymes that can form a thioesther bond (via cystein) with Ubiquitin
There are 3 classes of Ligases for specification
E1 Ligase
less than 5 different because not really specific
Transfer Ubiquitin to their own cystein group (via ATP)
E2 Ligase
dozens because semi-specific
Transfer Ubiquitin from E1 to their own cystein (without ATP)
E3 Ligase
hundreds because very specific, different half lifes-> different E3
Binds to E2 and the target Protein-> transfers Ubiquitin to the Lysin of the target protein
Examples
P53
most suppressive Tumor protein
Most frequent mutation (in Tumor)
Can induce apoptosis
Has a short half life to keep it checked and prevent cell death
It’s a TF which recruits TF2D, RNA Polymerase 2 (-> synthesis of mRNA)
To keep p53 in check: whenever p53 is active, it will induce MDM2 which is an E3 Ligase : makes sure that Ubiquitin is transferred from the E2 Ligase on p53.
-> p53 induces it’s own Degradation = negative feedback loop
(First recruits TF2D/ Mediater -> RNA Pol 2)
Hypoxia
= low supply of oxygen
Happens if angiogenesis is insufficient =blood vessels are no longer formed sufficiently
Two options: die by necrosis or Tumor can make sure to get blood supply
Tumors use HIF 1 alpha (=hypoxia inducable factor) TF: induces genes like Epo (Erythropoetin), and VEGF (vascular endothelial growth factor)
Enough oxygen: HIF1alpha undergoes Prolin hydroxylation
-> protein hydroxylases (PHD) uses Oxygen to hydroxylate prolin residues within HIF1alpha
VHL (von Hippel Lindau) protein =E3 Ligase: can recognises hydroxylated HIF1alpha and transfer Ubiquitin to HIF1alpha
-> HIF1alpha gets degraded
Oxygen is running low: No hydroxylation of HIF1alpha -> can’t be recognised by VHL -> no ubiquitination -> accumulation of HIF1alpha -> works as a TF for EPO and VEGF -> formation of blood vessels
Last changeda year ago