Amino Acid Metabolism: Protein Degradation

Question 1

3 ways to breakdown protein and amino acids

Answer 1

1. Lysosomes
2. Digestive enzymes
3. Ubiquitin/Proteasome

Question 2

Properties of protein, kcal, how its regulated and syntheses

Answer 2

Energy Production (4 kcal/gm)
Regulation of Glucose Levels
Fatty Acid Biosynthesis
Ketone Body Synthesis

Question 3

Digestive enzyme: Amino acids come from digestive enzyme, name four

Answer 3

Pepsinogen
Trypsin
Chymotrypsin
Carboxypeptidases

Question 4

How are amino acids transported, in digestive enzymes

Answer 4

Sodium-dependent amino acid Symporters Transport AA across the intestinal epithelia.
Active Protease Catalytic Triad, 3 chains held it together by disulfides to protect it from harsh environments

Question 5

Where are amino acids transported to?

Answer 5

amino acids are relatively soluble

Transported in blood to other tissues

Question 6

Lysosomes: breakdown and recycling of cellular components. Describe ph, membrane characteristics and acidic hydorlases

Answer 6

Lysosomal Hydrolases:
Optimal activity at pH 5
Lysosomal Membrane Proteins: Most are heavily glycosylated to prevent breakdown
Transport Proteins: Protein Import and Export of Products Proteins for membrane fusion: Allow vesicles to fuse
Acidic hydrolases: Lipases, Amylases, Proteases, Nucleases
Lysomal protein pump

Question 7

Lysosomal Substrates process

Answer 7

Degrade cellular materials
Recycle damaged organelles
Starvation response

Autophagy engulfs around proteins in intracellular

Question 8

Ubiquitin-Proteasome System,the major protein degradation system. Try to name the major components, seven.

Answer 8

Proteasome is a macromolecular machine designed for protein degradation
Proteasome is the major route for the degradation of intracellular proteins
Protein quality control

Also has thiorse in the macromolecule!
Removal of damaged or misfolded proteins
Cell Cycle
Progression Destruction irreversible – inactivation complete Transcriptional Regulation Immune Response Surveillance for Foreign Antigens

Question 9

How is ubiquitan similar to tied knots? Where can it be found? Length and nature?

Answer 9

It has the basic knot to which it is an ubiquitan subunit.
Ub - 76 residue protein (8.5 kDa)
Found only in eukaryotes
Very Highly Conserved
Covalently attached to proteins including other Ubn’s to build a poly-Ub chain

Question 10

What is Ubiquitylation of a Protein?

Answer 10

Communicates a change in Protein Location, Conformation, Activity, Binding partners, or Stability

Question 11

How is ubiquitin more than protein degradation?

Answer 11

It has numerous signals.

Question 12

K 63

Answer 12

Target damage DNA

Question 13

K 11 linked

Answer 13

Target cell cycle

Question 14

K 48

Answer 14

Target protein degradation

Question 15

Two ways AMPK is regulated

Answer 15

1. activity is allosterically regulated by AMP levels and phosphorylation.
2. AMPK enzyme levels are also regulated by Ubiquitylation

Question 16

Ubiquitylation does..

Answer 16

Protein Conformation 
Ligand Binding 
Enzyme Activity 
Protein-Protein Interactions 
Cellular Location  
Protein Stability/Lifetime

Overall changes the landscape of proteins

Question 17

Phosphorylation does..

Answer 17

Protein Conformation
Ligand Binding
Enzyme Activity (Activates AMPK)
Protein-Protein Interactions

Question 18

Draw Ubiquitin-Transfer Pathways please

Answer 18

:)

Question 19

E1: Ubiquitin Activating Enzyme

Answer 19

•First forms a Ubiquitin-AMP intermediate with release of PPi •Then a covalent E1~Ubiquitin thioester

Question 20

E2: Ubiquitin Conjugating Enzyme

Answer 20

•Carries activated Ubiquitin as a covalent thioester conjugate •Share a conserved core domain of ~150 amino acid residues

Question 21

E3: Ubiquitin Ligase

Answer 21

• Catalyzes the transfer of Ubiquitin to a Lys residue on a target protein
• Humans have more E3 Ubiquitin ligases than Kinases

Question 22

How does Deubiquitinases (DUBs) catalyze the removal of Ub

Answer 22

Ubiquitin E3 ligase –covalently modifies proteins with Ub

Deubiquitinase – hydrolyzes isoamide bond between Ub and a target protein, or between linked Ub subunits

Human Genome ~ 100 DUBs

Question 23

How long does ub has to be in order to be broken down by k 48?

Answer 23

Ub chain needs to have at least 4 Ub subunits
chains can grow much longer

Rate of Protein Degradation by the Proteasome is quicker in shorter ub chains

Question 24

Three parts of Ubiquitin-Proteasome System

Answer 24

19S Particle: Composed of a Lid and a Base
20S proteasome
b-subunits are THR proteases with 3-different specificities

Question 25

Describe 19S Particle: Composed of a Lid and a Base

Answer 25

Base: ATPase subunits responsible for protein unfolding and a-Ring channel opening
Lid: Help remove Ub from captured substrates

Question 26

20S proteasome

Answer 26

stacking of 4 heptameric rings inner b-rings form the proteolytic chamber outer a-rings form an entry gate

Question 27

b-subunits are THR proteases with 3-different specificities:

Answer 27

cleave on carboxyl side of acidic, basic, or hydrophobic residues

Question 28

Mechanism of Proteasomal Protein Degradation (4 steps)

Answer 28

Recognize, unfold, and digest proteins (green) - requires ATP

Recognition signal is a Poly-Ubiquitin Chain (orange)
Ubiquitin is not degraded but is released and recycled
Present in nucleus and cytosol (free and attached to ER

Question 29

How cells let the immune system know they have been invaded by a foreign pathogen in Major Histocompatibility Complex (MHC) class I antigen presentation pathway

Answer 29

Pathogens produce proteins that get destroyed by the proteasome. The peptides are displayed on the cell surface bound to the MHC

Question 30

What is Ubiquitin Like Proteins (Ubls)

Answer 30

Post-translational modification of Proteins with Proteins

Ubiquitin and Ubls share a b-grasp fold topology

Each Ubl has its own dedicated E1, E2, and E3 system

Question 31

Ubl: Atg8 (& Atg12)

Answer 31

Essential for growth and expansion of autophagosome membranes

Question 32

Ubl: SUMO (small-Ub-related modifier) Protein interactions:

Answer 32

Nuclear transport, transcription, DNA repair, and more

Question 33

Nedd8

Answer 33

Covalent activator of Cullen Ubiquitin E3 Ligases

Question 34

Autophagy

Answer 34

Breakdown and Recycling of Cellular Components Cytoplasmic components are sequestered in autophagosomes and recycled via the lysosomal pathway

Question 35

What Induces Autophagy

Answer 35

Starvation 
Energy 
Depletion 
Stress 
Infection 
Bacterial 
Toxins 
HIV

Question 36

How to Inhibit Autophagy

Answer 36

Nutrient
Abundance
Insulin
Microbial Virulence Factors

Question 37

Autophagy: Process of Self-Cannibalization

Answer 37

Cells capture their own cytoplasm and organelles Breakdown products are input into cellular metabolism
Energy
New proteins or membranes
Replace outdated or damaged cellular components

Starvation: provides an internal source of nutrients
Survival
Only mechanism to degrade large cellular structures
Ubiquitin signaling and Autophagy are closely linked

Question 38

Ubiquitin modification is a key…

Answer 38

signal for targeting proteins, organelles, or even invading microbes for autophagic destruction