Lecture 6- Extracellular Matrix II

Question 1

Describe the general properties of ECM proteins

Answer 1

• LARGE
• MODULAR structure: made of protein domains –> MULIFUNCTIONAL
• MULT- ADHESIVE- bind matrix components and cell-surface receptors

Question 2

What are laminins?

Answer 2

Basement membrane glycoproteins

Question 3

Descibe the structure of laminins

Answer 3

• made of three chains: alpha, beta, gamma which form a cross-shape molecule
• Very Large
• Multi-adhesive
• Interact with surface receptors e.g. integrins, dystroglycan
• Can self-associate (in BM matrix) or associate with collagens and proteoglycans

Question 4

Mutations in laminin can cause which disorders?

Answer 4

• Muscular dystrophy

- epidermolysis bullosa

Question 5

Draw and label a molecule of laminin

Answer 5

1) Globular ends on alpha chain
2) Coiled-coil Domain
3) Self- assembly region- binds to other laminins
4) Integrin binding at tips of alpha chains and perlecan at bottom

Question 6

What causes congenital muscular dystrophy? Describe some of its features

Answer 6

• absence of a2 in laminin 2
• symptoms visible from birth
• Hypotonia (decreased muscle tension)
• Generalised weakness
• deformities of the joints

Question 7

What is fibronectin?

Answer 7

• connective tissue glycoprotein

Question 8

Which two forms can fibronectin exist as?

Answer 8

• insoluble fibrillar matrix
• soluble plasma protein
• both derived from the same gene

Question 9

Describe its molecular structure and some of its features

Answer 9

• Multi- adhesive
• Large multi domain molecule
• Interacts with cell surface receptors and other matrix molecules
• forms a dimer linked by sulphide bridges

Question 10

State three of the roles of fibronectin

Answer 10

1) Cell adhesion and migration in embryogenesis and tissue repair
2) Wound healing, promotes blood clotting
3) Forms mechanical continuum with actin cytoskeleton

Question 11

How does fibronectin link to the actin cytoskeleton?

Answer 11

Fibronectin — integrin — Actin

Integris integrate the extracellular and intracellular environments

Question 12

Briefly online the structure of proteoglycans

Answer 12

• Core protein covalently bonded to one or more glycosaminoglycan chains

Question 13

Describe the structure of GAGs

Answer 13

• GAGs = long, unbranched sugars made of repeating disaccharides
• one sugar is always an amino sugar
• may be sulphated or carboxylated
• Highle -vely charged
• occupy huge volume relative to mass –> hydrated gel resistant to compression

Question 14

What are the 4 main groups of GAG chains and what do they depend on?

Answer 14

• Hyaluronan
• Chondroitin sulfate and dermatan sulfate
• Heparin sulfate
• Keratan sulfate

– depends on sugar types

Question 15

Give three examples of proteoglycans and their associate GAG chain

Answer 15

• Decorin: DS
• Syndecan: HS
• Aggrecan: KS and CS

Question 16

• Describe the structure of Hyaluronan

- Where is Hyaluronan synthesised?

Answer 16

• Simple carbohydrate chain with no core protein (not a proteoglycan)
• insulated
• single long chain
• Synthesised at cell surface, not ER/ Golgi

Question 17

How are GAG chains and core proteins linked?

Answer 17

By a link tetrasaccharide

Question 18

What are the monomers of Dermatan sulphate and Chondroitin sulphate?

Answer 18

Dermatan: Iduronic acid and N-acetylgalactosamine-4-sulfate
Chondroitin: Glucuronic acid and N-acetylgalactosamine-4-sulfate

Question 19

Describe the structure of decorin and its function

Answer 19

• small proteoglycan
• binds to collagen fibers
• essential for fibre formation
• No decorin= weak collagen fibres = fragile skin

Question 20

What is the most abundant type of cartilage and where is it found?

Answer 20

Hyaline cartilage

- nose, larynx, trachea, bronchi, ventral end of ribs, articular end of long bones

Question 21

What is hyaline cartilage mostly made of and what is its function?

Answer 21

• aggrecans (which form aggregates with hyaluronans)

- cushion ends of long bones

Question 22

Draw and annotate a molecule of aggrecan

Answer 22

1) Chondroitin S. attachment region
2) Keratan s. attachment region below this
3) Hyaluronan binding region below
4) Attached to Hyaluronan
5) Link protein next to this

Question 23

Describe the GAGs associated with aggrecan and how they contribute to aggrecans properties

Answer 23

• Highly sulfated and also carboxylated
• Multiple negative charges from these attract cations e.g. Na+ which are osmotically active
• Retains large amounts of water
• When compressed water is given up, but reabsorbed when load is removed
• -> good for cartilage

Question 24

What is osteoarthritis?

Answer 24

• Excessive loss of ECM
• cushioning properties of cartilage over long bones lost
• Leads to rubbing of bones and joint stiffness
• Cleavage of aggrecan by aggrecanase and metalloproteinase
• Aggrecan fragments –> synovial fluid

STRONG GENETIC COMPONENT

Question 25

What are fibrotic disorders?

Answer 25

• Excessive production of fibrous connective tissue (mainly collagen)
• normal cells replaced by stif collagen matrix

USUALLY NON-GENETIC