FTM 44 - Fibrous Proteins

Question 1

What are the primay fibrous structural proteins of the ECM?

Answer 1

Collagen and Elastin

Question 2

What are proteoglycans?

Answer 2

Protein strands with gel-forming sugars that are negatively charged

Question 3

Broadly define what the ECM is and what it does.

Answer 3

A complext network of macromolecules that fills the spaces between cells and holds cells and tissue together and maintains the body’s three-dimensional structure.

Question 4

What is the basement membrane essentially?

Answer 4

A sheet of ECM

Question 5

Explain how the ECM is dynamic.

Answer 5

The ECM undergoes a constant remodeling by MMP (matrix metallo-proteinases) which include collagenases.

Question 6

What affect does the ECM have on cellular processes?

Answer 6

Question 7

How does the ECM protect against cancer and other microorganisms?

Answer 7

It prevents of limits their movements.

Question 8

What can dysregulation of MMPs lead to?

Answer 8

The spread of cancer that was being kept in place

Question 9

What is the most abundant fibrous protein and percentage of protein mass does it make up?

Answer 9

Collagen is the most abundant and it accounts for 25-30% of total body protein mass

Question 10

How many different types of collagen have been characterized?

Answer 10

At least 28

Question 11

Describe the basic structure of a collagen molecule.

Answer 11

A triple-helix of three protein α-chains which are tightly wound around each other to form a rigid rope-like structure.

Question 12

How long is each collagen α-chain?

Answer 12

About 1,000 amino acids

Question 13

Discuss the three most commonly found amino acids in collagen.

Answer 13

Question 14

What is the purpose of the proline and hydroxyprline residues in collagen?

Answer 14

They provide kinks in the α-chain that allow for tight winding. Hydroxyproline residues also stabilize the triple helix by hydrogen bonding with glycine residues on othe other α-chains in the helix.

Question 15

Discuss the important of lysine in collagen.

Answer 15

Question 16

What sugars can lysine be glycosylated with in collagen?

Answer 16

Glucose and galactose

Question 17

Collagen is fibril forming, network forming, and ________________.

Answer 17

Fibril-associated

Question 18

What is the mnemonic for memorizing where each type of collagen is found

Answer 18

Question 19

Answer 19

Question 20

What are three common structural roles of collagen?

Answer 20

Question 21

Why is Vitamin C important to collagen synthesis? What are some alternate names for vitamin C?

Answer 21

It is required by prolyl and lysyl hydrxylase to hydroxylate proline and lysine residues.

Vitamin C is also known as ascorbic acid and ascorbate

Question 22

Why is iron important to collagen synthesis?

Answer 22

Same as Vitamin C, it is required by prolyl and lysyl hydroxylase to hydroxylate proline and lysine.

Question 23

What causes scurvy and what are its symptoms?

Answer 23

Scurvy is caused by a Vitamin C deficiency leading to decreased staility and tensile strength of collagen.

Symptoms include bleeding gums, hemorrhages, and poor wound heeling

Question 24

The biosynthesis of collagen begins at the level of ______ ___________.

Answer 24

Soluble procollagen.

Question 25

What cells synthesize procollagen?

Answer 25

Fibroblasts, osteoblasts, and chondroblasts

Question 26

How many different collage genes are there and how many of those are expressed? Name those genes and what they code for?

Answer 26

There are >40 collagen genes but only 2 are expressed: COL1A1 which codes for α1-chains and COL1A2 which codes for α2-chains.

Question 27

What and how many α-chains are present in a collagen triple helix?

Answer 27

Two α1-chains and one α2-chain

Question 28

What is tropocollagen? What does it do?

Answer 28

After procollagen is secreted by a cell its N-terminal and C-terminal propeptidases are cleaved by procollagen peptidases, producing tropocollagen.

Extracellular covalent cross-linking with lysine or modified lysine residues form mature collagen fibers.

Question 29

List the 10 steps to the formation of type 1 collagen.

Answer 29

1. COL1A1 and COL1A2 genes are transcribed.
2. Translation occurs on RER into prepro-α chains that are fed into the RER lumen where the signal sequences will be removed forming pro-α chains.
3. Selected pro and lys residues are hydroxylated.
4. Hydroxylysine residues are O-glycosylated with glucose and galactose.
5. Two α1 chains and one α2 chain assemble into a triple helix and intrachain and interchain disulfide bonds form at the unwound C-terminal end. Procollagen has been formed.
6. Procollagen is packed into a transport vesicle and sent to the golgi
7. The golgi then sends the procollagen into the ECM
8. The N-terminal and C-termal unwound propeptides are cleaved by procollagen peptidases, producing tropocollagen.
9. Tropocollagen spontaneously associates with other tropocollagen to form a collagen fibril (each overlaps its neighbor).
10. Lysine and allysine residues of different α-chains covalently cross-link to form ​mature Type 1 collagen.

Question 30

Why does a collagen triple helix always contain 2α1 and 1α2 chains. Why not 2α2 or 3α1/2?

Answer 30

For helix winding to begin the chains must be covalently linked at the carboxyl ends by disulfide bonds in specific way. This can only occur with 2α1 and 1α2 chains.

Question 31

What prevents the procollagen helix from unwinding?

Answer 31

The cross linking of the N and C terminal chains

Question 32

What keeps the procollagen molecule soluble in the cytosol?

Answer 32

The N and C terminal propeptides

Question 33

How is the extracellular crosslinking of the tropocollagen molecules performed?

Answer 33

Question 34

Why is copper important to collagen synthesis and what occurs if it is deficient?

Answer 34

Copper is required by lysyl oxidase to deaminate lysine. This allows for tropocollagen cross-linking to occur. Copper deficiency reduces collagen cross-linking.

Question 35

What are the collagenopathies we need to know?

Answer 35

Ehlers-Danlos Syndrome

Osteogenesis Imperfecta

Question 36

What is Ehlers-Danlos Syndrome and what can cause it?

Answer 36

Question 37

What causes the classical form of Ehlers-Danlos syndrome and what are its symptoms?

Answer 37

Question 38

What causes the vascular form of EDS and what are its symptoms?

Answer 38

Question 39

What is Osteogenesis Imperfecta? What causes it? What is another name for OI? How many types of OI are there?

Answer 39

Question 40

What is the mildest and most common type of OI? What is its scienticif name?

Answer 40

OI Type 1

Osteogenesis Imperfecta Tarda

Question 41

What are the symptoms of OI Tarda (type 1)?

Answer 41

Question 42

What is the most severe form of OI? What is its scientific name?

Answer 42

OI Type 2

Osteogenesis Imperfecta Congenita

Question 43

What are the symptoms of OI type 2?

Answer 43

Question 44

Things to know about OI types 3 and 4

Answer 44

OI type 3 is considered severe

OI type 4 is deforming but with normal sclerae

They can cause straight bones to develop bends, scoliosis, and dentiogenesis imperfecta.

Question 45

Describe the basic structure and function of elastin.

Answer 45

Elastin has a high cross-linked insoluble amorphous (no clearly defined shape) structure. It is the major protein in elastic fibers which allow the flexibility in blood vessels, lungs, ligaments, and skin

Question 46

What do we need to know about elastin synthesis?

Answer 46

Question 47

What is unique about the way elastin cross-links? What is the result of this link?

Answer 47

Question 48

How does elastin manage to reform after being stretched?

Answer 48

The hydrophobic effect

Elastin structure has alternating domains of hydrophilic sequences rich in lys and ala and hydrophobic sequences righ in gly, val, and pro.

Question 49

Why the hydrophilic sequences of elastin rich in alanine?

Answer 49

Alanine is needed to separate the lysine residues from one another and it is small enough that it does not counteract the hydrophilicity of lysine.

Question 50

Discuss the importance of lysine, hydroxyproline, and hydroxylysine in the cross-linking of elastin.

Answer 50

Lysein residues are used for cross-linking just like in collagen, however, hydroxyproline and hydroxylysine are rarely seen in elastin.

Question 51

What is the elastinopathy we need to know? What causes it? How does it inherit?

Answer 51

Marfan Syndrome

It results from a autosomal dominant hereditary defect in the gene that encodes fibrillin-1, The gene for elastin is normal.

Over 300 mutations have been identified

Question 52

What are the main characteristics of Marfan Syndrome?

Answer 52

Long limbs

Arachnodactyly (fingers and toes are abnormally long and slender)

Lens Dislocation

Aortic root dilation

Abnormal formation of rib cage

Question 53

Answer 53

Question 54

Answer 54