Extracellular `Matrix

Question 1

What are the macromolecules making up ECM?

Answer 1

1. Protein
2. Carbohydrates

Question 2

What is ECM?

Answer 2

Extracellular matrix

Question 3

What are the 4 functions of ECM?

Answer 3

1. Physical support
2. Tissue properties
3. Influences cell growth/adhesion/differentiation
4. Organogenesis

Question 4

Which cells deposit ECM?

Answer 4

Fibroblasts

Question 5

What are the 3 components of ECM?

Answer 5

1. Collagens
2. Glycoproteins (multi-adhesive)
3. Proteoglycans

Question 6

What are the 4 types of collagens in connective tissue?

Answer 6

1. I
2. II
3. III
4. IV —> basement membrane

Question 7

What are the 3 types of multi-adhesive glycoproteins in connective tissue?

Answer 7

1. Fibronectin
2. Fibrinogen
3. Laminins —> basement membrane

Question 8

What are the 4 types of proteoglycans in connective tissue?

Answer 8

1. Aggrecan
2. Versican
3. Decorin
4. Perlecan —> basement membrane

Question 9

What are the 3 components of the basement membrane?

Answer 9

1. Type IV collagen
2. Laminins
3. Perlecan

Question 10

How do matrix components interact with cells?

Answer 10

Bind to integrins on cell surface (receptors)

Question 11

What are integrins?

Answer 11

Transmembrane cell adhesion receptors —> mediating cell-to-cell and cell-ECM interactions

Question 12

What are the 2 properties of tendon and skin tissue?

Answer 12

1. Tough
2. Flexible

Question 13

What are the 2 properties of bone tissue?

Answer 13

1. Hard
2. Dense

Question 14

What are the 2 properties of cartiledge tissue?

Answer 14

1. Resilient
2. Shock-absorbing

Question 15

Are connective tissue properties consistent around the body?

Answer 15

No —> vary depending on tissue function

Question 16

How does connective tissue vary its properties?

Answer 16

1. Different ECM components (eg. collagen types)
2. Different arrangements of collagen

Question 17

How do ECM abnormalities arise? (4)

Answer 17

1. Mutations affecting ECM proteins
2. Mutations affecting ECM catabolism
3. Excess ECM
4. Loss of ECM

Question 18

What are 5 examples of disorders resulting from mutated ECM proteins?

Answer 18

1. Osteogenesis imperfecta (Brittle bones) - collagen I
2. Marfan’s syndrome - fibrillin I
3. Alport’s syndrome - collagen IV
4. Epidermolysis Bullosa - laminin 5
5. Muscular dystrophy (congenital) - laminin 2

Question 19

What is an example of a disorder resulting from ECM catabolism issues?

Answer 19

Hurler’s syndrome - L-α-iduronidase

Question 20

What are 3 examples of disorders resulting from excess ECM deposition? (fibrosis)

Answer 20

1. Liver cirrhosis
2. Diabetic nephropathy
3. IPF (idiopathic pulmonary fibrosis)

Question 21

What does excess ECM deposition lead to?

Answer 21

Fibrosis

Question 22

What is an example of a disorder resulting from loss of ECM?

Answer 22

Osteoarthritis

Question 23

What are collagens?

Answer 23

Family of fibrous proteins

Question 24

Which organs are collagens essential for?

Answer 24

1. Bones
2. Tendons
3. Skin

Question 25

What is the most abundant protein in mammals?

Answer 25

Collagen

Question 26

What proportion of the protein mass of mammals is collagens?

Answer 26

25%

Question 27

What is the arrangement of collagen fibrils in skin/bone/cornea and why?

Answer 27

Successive layers at right angles
- High tensile force

Question 28

How many types of collagens exist in humans?

Answer 28

28

Question 29

How many genes encode the collagens in humans?

Answer 29

42

Question 30

What is the quaternary structure of a collagen molecule?

Answer 30

3 α-chains form triple helix

Question 31

What is the quaternary structure of type I collagen?

Answer 31

2 α1-chains and 1 α2-chain

Question 32

What are the 3 chains making up type I collagen molecules?

Answer 32

2 α1 + 1α2

Question 33

What is the tertiary structure of type II and III collagen?

Answer 33

3 α1-chains

Question 34

What is the primary structure of α collagen chains?

Answer 34

Repeated gly-x-y
- Usually glycine-proline-hydroxyproline

Question 35

Why is fibrillar collagen described as a left-hand helix?

Answer 35

3 α-chains coils left (anti-clockwise)

Question 36

Why must every 3rd amino acid in a collagen molecule be glycine?

Answer 36

Small enough to occupy interior of coil

Question 37

What are the 4 stages of collagen fibre synthesis?

Answer 37

1. α-chain
2. 3 α-chains in triple helix
3. Fibril
4. Fibre

Question 38

What is the difference between procollagen and collagen?

Answer 38

Procollagen has non-collagenous N- and C-termini

Question 39

How is procollagen turned into collagen?

Answer 39

N- and C-termini removed
- Post-secretion in fibrillar collagens
- Pre-secretion in non-fibrillar

Question 40

What forms between collagen fibres and why?

Answer 40

Cross-links (covalent)
- increases strength and stability

Question 41

What are the 7 steps of collagen fibre biosynthesis?

Answer 41

ER/Golgi
1. Pro-α chain synthesised
2. Hydroxylation of prolines and lysines (post-translational modifications)
3. Glycosylation of hydroxylysines
4. 3 pro-α chains assemble —> triple helix —> procollagen
5. Procollagen to cytoplasm via secretory vesicle and exocytosis

ECM
6. Propeptides cleaved —> collagen
7. Fibril assembly
8. Fibre assembly

Question 42

Where does collagen fibre biosynthesis occur? (2)

Answer 42

1. ER/Golgi —> procollagen
2. ECM —> collagen fibre

Question 43

How do collagen cross-links change with age?

Answer 43

Number increases with age —> joint stiffness

Question 44

What do prolyl and lysyl hydroxylases require? (2)

Answer 44

1. Fe2+
2. Vitamin C

Question 45

Which enzymes are involved in post-translational modification of collagen?

Answer 45

Prolyl and lysyl hydroxylases

Question 46

What type of bonding in collagen do hydroxylysine and hydroxyproline contribute to?

Answer 46

H-bonding

Question 47

Which amino acids contribute to interchain H-bond formation in collagen?

Answer 47

1. Hydroxylysine
2. Hydroxyproline

Question 48

When is collagen lysine and hydroxylysine modified? (2)

Answer 48

Post-translation in golgi/ER

Question 49

What does vitamin C deficiency lead to and why?

Answer 49

Scurvy
- vit C needed for hydroxylases —> under-hydroxylated collagens —> decreased tissue stability

Question 50

What is EDS?

Answer 50

Ehlers-Danlos Syndrome
- Group of inherited connective tissue disorders

Question 51

What are the 2 symptoms of EDS?

Answer 51

1. Stretchy skin
2. Loose joints

Question 52

When do mutations in collagen result is disorders? (3)

Answer 52

1. Change production
2. Change structure
3. Change processing

Question 53

What are the 3 types of collagen?

Answer 53

1. Fibrillar (I, II, III)
2. Fibril-associated (IX, XII)
3. Network-forming (IV)

Question 54

What is the function of fibril-associated collagens?

Answer 54

Regulate organisation of collagen fibrils

Question 55

What are the 2 fibril-associated collagens?

Answer 55

1. IX
2. XII

Question 56

Where is network-forming collagen found?

Answer 56

Basement membranes

Question 57

What collagen is network-forming collagen?

Answer 57

IV

Question 58

What category of collagen is type I, II and III?

Answer 58

Fibrillar

Question 59

What category of collagen is type IV?

Answer 59

Network-forming

Question 60

What category of collagen is type IX and XII?

Answer 60

Fibril-associated

Question 61

What type of collagen is in basement membranes?

Answer 61

IV

Question 62

What can be seen in a fibrotic lung?

Answer 62

Honeycombing (excess collagen)

Question 63

What are basement membranes?

Answer 63

Membranes separating different tissue layers

Question 64

What happens to the glomerular basement membrane in diabetics?

Answer 64

Fibrosis —> thickened

Question 65

Why can diabetes lead to renal failure?

Answer 65

Glomerular basement membrane fibrosis —> inhibits renal filtration

Question 66

What is the cause of Alport syndrome and why?

Answer 66

Mutation in collagen IV —> split and laminated glomerular basement membrane

Question 67

What are laminins?

Answer 67

Family of large, multidomain glycoproteins

Question 68

What is the quaternary structure of laminins?

Answer 68

Coil of 1α, 1β and 1γ chain

Question 69

What can the the N- and C-termini of α chains in laminins bind to?

Answer 69

• N —> integrins
• C —> integrins, dystroglycan and perlecan

Question 70

What can the the N-terminus of β and γ chains in laminins bind to?

Answer 70

Nidogen

Question 71

Why do laminins have stability?

Answer 71

Heterotrimeric coil structure

Question 72

What is the distinctive shape of laminins?

Answer 72

Cross

Question 73

What is the cause of muscular dystrophy?

Answer 73

LAMA2 mutation —> laminin-α2 deficiency (truncated protein)

Question 74

What is a heterotrimer?

Answer 74

Complex consisting of 3 different sub-units
- eg. Laminins

Question 75

What does LAMA2 gene truncation cause and how?

Answer 75

Congenital muscular dystrophy
- lamanin can’t bind to integrin (α7β1) or α-dystroglycan —> inhibits basement membrane assembly

Question 76

What are the 2 symptoms of muscular dystrophy?

Answer 76

1. Muscle weakness
2. Muscle degeneration

Question 77

Why do tissues have elasticity?

Answer 77

Elastic fibres

Question 78

Where are elastic fibres found? (3)

Answer 78

1. Skin
2. Blood vessels
3. Lungs

Question 79

What are elastic fibres made up of?

Answer 79

1. Elastin core
2. Surrounded by fibrillin-rich microfibrils

Question 80

What is the arrangement of elastin?

Answer 80

Random coil

Question 81

What are the 2 domains in elastin and how are they arranged?

Answer 81

• Hydrophobic and hydrophilic
• Alternating

Question 82

How does crosslinking occur in elastin?

Answer 82

Via lysine residues in the hydrophilic domains

Question 83

What is the cause of Marfan’s syndrome?

Answer 83

Fibrillin-1 mutations

Question 84

Which 3 systems are primarily effected by Marfan’s syndrome?

Answer 84

1. Skeletal
2. Ocular
3. Cardiovascular

Question 85

Which blood vessel does Marfan’s syndrome affect and how?

Answer 85

Aorta
- Fragmentation
- Disarray of elastic fibres

Question 86

What is fibronectin?

Answer 86

Glycoprotein in ECM

Question 87

What are the 5 functions of fibronectin?

Answer 87

1. Interact with cell surface receptors and ECM molecules
2. Regulate cell adhesion
3. Regulate tissue repair
4. Wound healing and blood clotting
5. Regulate migration in embryogenesis

Question 88

What is the structure of fibronectin?

Answer 88

2 sub-units linked by di-sulfide bridge at C-terminus

Question 89

What is the identifiable shape of fibronectin?

Answer 89

Omega symbol worm

Question 90

What do fibronectins link in cells and how?

Answer 90

Cytoskeleton to ECM
- Cell attachment sites to integrins on cell surface membrane —> integrins bind to actin filaments inside the cell
- N-terminus ends bind to collagen fibril in ECM

Question 91

What are proteoglycans?

Answer 91

Core proteins with attached glycosaminoglycan chains (GAG)

Question 92

What are GAG chains?

Answer 92

Glycosaminoglycan chains
- Polymer of repeating disaccharides

Question 93

What can affect the charge of proteoglycans and what does this do?

Answer 93

Sulfation and carboxylation
- attract more water and cations

Question 94

What are the 4 types GAG and where are they made?

Answer 94

1. Hyaluronan - membrane
2. Chondroitin/dermatan sulfate - ER/golgi
3. Heparan sulfate - ER/golgi
4. Keratan sulfate - ER/golgi

Question 95

Where is the proteoglycan hyaluronan found?

Answer 95

High viscous tissues
- eg. Fluid of eyes and joints

Question 96

What is the key function of the proteoglycan hyaluronan?

Answer 96

Protect cartilaginous

Question 97

What is the structure of hyaluronan?

Answer 97

• No core protein
• Cluster of saccharide chains

Question 98

Where is the proteoglycan aggrecan found and why?

Answer 98

Cartilage matrix
- Resist compressive forces

Question 99

How does the proteoglycan aggrecan resist compressive forces?

Answer 99

Lose water under compressive load —> gain water when load is reduced

Question 100

What is the leading cause of lower extremity disability in adults?

Answer 100

Osteoarthritis

Question 101

What is osteoarthritis?

Answer 101

ECM degradation at bone ends

Question 102

What is the cause of osteoarthritis?

Answer 102

Aggrecan cleaved by aggrecanases and metalloproteinases —> cartilage at end of bones no longer cushioning