Test 2 lecture 36-37

Question 1

ECM is made of

Answer 1

• *ground substance:**
• glycoproteins, proteoglycans and glycosamioglycans
• *Fiber components:**
• collagen
• elastin

Question 2

Collagen breaks into

Answer 2

reticular fibers: lungs, kidneys, lymph nodes

fiber forming:

Question 3

molecules that help ECM

Answer 3

integrin: bind ECM components together

Metalloproteinases: enzymes that degrade ECM

Growth factors and cytokines:

Transcription factors

Question 4

to be a collagen:

Answer 4

1. must be in the extracellular space and contribute to the structural integrity of the ECM;
2. contain at least one triple-helical domain;
3. must form supramolecular aggregates (i.e. fibrils (type 1 and 2), filaments (reticular fibers), networks) either alone, or in conjunction with other matrix components.

Question 5

To be classified as a collagen, the protein must contain at least one ____

Answer 5

triple-helical domain;

wrap around each other and form rope like structure

Question 6

To be classified as a collagen, the protein must be in the extracellular space and contribute to the ____ of the ECM

Answer 6

structural integrity

Question 7

To be classified as a collagen, the protein must form ____ (i.e. fibrils, filaments, networks) either alone, or in conjunction with other matrix components.

Answer 7

supramolecular aggregates

Question 8

type 1 collagen

Answer 8

present in bone, and other tissues (DICT, tendons and ligaments)

is a type of fiber forming collagen

Question 9

type 2 collagen is found in

Answer 9

cartilage

type of fiber forming collagen

Question 10

Collagen superfamily: >28 structurally and functionally distinct collagen types with unique ___ exist.

Answer 10

tissue distributions

Question 11

Some collagen types (e.g. ____) are homotrimers made up of 3 identical polypeptides or alpha “a” chains,

Answer 11

type II collagen in cartilage

Question 12

Some collagen are heterotrimers made up of combinations of 2 or 3 different a chains (____).

Answer 12

type I collagen in bone

is a heterotrimer of 2 identical alpha 1 chains, and 1 different alpha2 chain

Question 13

___ form cross-striated linear fibrils and are major structural components of connective tissues

Answer 13

fibrillar collagen

Question 14

two types of fibrillar collagen

Answer 14

Type 1- bone, skin, tendon, dentin, blood vessels, mesenchyme..

Type 2-cartilage, vitreous of eye

Question 15

type of collagen that forms non-linear aggregates; have varied function

Answer 15

non fibrillar collagen

Question 16

examples of non fibrillar collagen

Answer 16

1. BASEMENT MEMBRANE: Type IV
2. ANCHORING : Type VII
3. FACIT : Types IX, XII, XIV
4. SHORT CHAIN : Types VIII, X

Question 17

Formula for triple helical domain:

Answer 17

(GLY-X-Y)_n

Question 18

collagen alpha chains are coiled around each other into a ___ to form a rigid rope-like structure.

Answer 18

triple-helix

Question 19

___, the smallest amino acid and the only one without a side chain, is critical in every third position of the collagen Gly-X-Y sequence.

Answer 19

Glycine

Question 20

___ residues occupy the restricted space in the center of the triple helix of collagen

Answer 20

Glycine

Question 21

Why can only glycine work in center of triple helix of collagen

Answer 21

Any other amino acid in this position disrupts the helix. (would be too big)

Question 22

In collagen, the side chains in the -X and -Y positions are directed ___, at the surface of the protein, where they participate in intra- and inter-molecular interactions.

Answer 22

outward,

Question 23

____ have large (~1,000 aa’s per chain) triple helical domains with virtually no interruptions or “imperfections” in the Gly-X-Y repeats.

Answer 23

-Fibrillar collagens

Question 24

These collagens form straight rope-like structures and laterally associate into quarter-staggered arrays.

Answer 24

Fibrillar collagen

Question 25

___ have either imperfections and/or large interruptions within the Gly-X-Y repeats.

Answer 25

non fibrillar collagen

Question 26

These type of collagens are often kinked, and form different supramolecular aggregates.

Answer 26

non fibrillar collagen

Question 27

Triple-helix structure and stability depends on ___,___,___ and ___ residues.

Answer 27

proline, hydroxyproline, lysine, hydroxylysine

Question 28

____, are rigid or cyclic amino acids that limit the rotation of the polypeptide backbone, and participate in inter- and intra-chain bonds.

Answer 28

proline, hydroxyproline, lysine, hydroxylysine residues

Question 29

Supramolecular organization of fibrillar collagen

Answer 29

quarter-stagger array to form fibrils.

hole zones, visible as bands or cross-striations

Further ordering of fibrils depends upon the strength needed in the tissue. (e.g. In bone, type I collagen fibrils are arranged in layers perpendicular to those in the adjacent layers; in cartilage, type II collagen fibrils randomly criss-cross).

Question 30

Fibrillar collagen molecules align in a ____ to form fibrils.

Answer 30

quarter-stagger array

Question 31

quarter-stagger array of fibrillar collagen leaves gaps or ___, visible as bands or ____ under an electron microscope.

Answer 31

hole zones

cross-striations

Question 32

mutations in type 9 collagen causes

Answer 32

early onset OA

Question 33

early onset OA is caused by mutations in

Answer 33

type 9 collagen

FACITS

Question 34

How is collagen formed

Answer 34

1. Transcription and translation
2. Intracellular modifications (cotranslational and post-translational modifications)
3. Extra Cellular modifications

Question 35

type of intracellular modifications when making collagen

Answer 35

• *Cotranslational and posttranslational modifying enzymes:**
  1. Removal of signal sequence

2. Hydroxylation of some pro and lys residues
3. Glycosylation of some lys residues

In the RER or golgi, the α chains fold into trimers:

-Chain association and disulfide bonding in the carboxyl domain

-Trimerization

-Translocation and secretion of procollagen

Question 36

extracellular modifications when making collagen

Answer 36

Removal of amino (NT) and carboxyl (CT) propeptides (in fibrillar collagens)

Lateral associations into ordered supramolecular aggregates

Intra- and inter-chain lysine-derived cross-link formation

Question 37

Upon synthesis on membrane-bound ribosomes, each αlpha chain contains a hydrophobic ___ , that is cleaved off the αlpha chains as they enter the rough endoplasmic reticulum (RER).

Answer 37

signal peptide

Question 38

As αlpha chains, enter the rough endoplasmic reticulum (RER) ____ occurs

Answer 38

trimerization

Question 39

After trimerization occurs in the RER, the ___ and ___ are cleaved in the ECM

Answer 39

N-terminal propeptide and C-Terminal propeptide

Question 40

What happens to fibrillar collagen polypeptide when it enters the RER?

Answer 40

Removal of signal sequence

Question 41

Proline (Pro) and Hydroxyproline (Hypro) represent ___ of the triple helix. These cyclic residues provide ___ by limiting rotation of the polypeptide backbone.

Answer 41

~30%

structural stability

Question 42

Hydroxyproline is generated by ____ modification, and is essential for ___.

Answer 42

posttranslational

thermal stability

Question 43

Proline hydroxy groups form ___ which maintain the structure of the triple helix at body temperature.

Answer 43

water-bridged hydrogen bonds

Question 44

Trimerization of alpha chains does not occur without ____

Answer 44

Hydroxyproline.

Question 45

Hydroxyproline will ___ the melting temperature of collagen

Answer 45

increase

Tm (melting temperature) of a polypeptide composed of (Pro-Pro-Gly) repeats is
24°C,

while the Tm of a polypeptide composed of (Pro-Hyp-Gly) is 58°C.

Question 46

___ in the “Y” position are essential for intra-and intermolecular cross-links that stabilize the lateral associations of collagen molecules in fibrils.

Answer 46

Hydroxylysines

Question 47

Prolyl and lysyl hydroxylases are enzymes in the ER that ___ selected prolines or lysines while the polypeptide chains are growing.

Answer 47

hydroxylate

Question 48

hydroxylation of selected prolines or lysines occurs before or after trimerization of collagen fibers

Answer 48

before trimerization

Question 49

___ are enzymes that require ferrous iron and ascorbate cofactors; the ferrous iron is needed at the active site, and is maintained in a reduced state by the reducing agent ascorbate (vitamin C).

Answer 49

Prolyl and lysyl hydroxylases:

Question 50

Prolyl and lysyl hydroxylases need __ to work.

Answer 50

ferrous iron and ascorbate cofactors

oxygen and aplha-ketoglutarate co-substrates

Question 51

ascorbate is

Answer 51

vitamin C

needed for Prolyl and lysyl hydroxylases enzymes

Question 52

ascorbate deficiency

Answer 52

scurvy

The forming collagen aplha chains are underhydroxylated and do not form stable helices at body temperature. Supramolecular aggregates are also destabilized due to reduced cross-linking.

Question 53

In scurvy, The forming collagen alpha chains are ___ and do not form stable helices at body temperature. Supramolecular aggregates are also destabilized due to reduced ___ .

Answer 53

under hydroxylated

cross-linking

Question 54

make up of a forming collagen alpha chain

Answer 54

signal peptide

NT(amino terminal) domain-globular domain

TH domain- (Gly-X-Y)n

CT domain- globular domain

-everything except TH domain gets cut off TH will trimerize

Question 55

Proline hydroxy groups form ___ which maintain the structure of the triple helix at body temperature, ___ melting temperature of alpha helix of collagen

Answer 55

water-bridged hydrogen bonds

increase

Question 56

cofactors needed for prolyl hydroxylase and lysyl hydroxylase

Answer 56

ascorbate (vit C)

ferrous iron (active site kept in reduced state by vitamin C)

Question 57

Carboxyl (CT) domains of alpha chains are needed for proper chain alignment prior to ___ formation

Answer 57

triple helix

Question 58

3 alpha chains are first stabilized by interchain ___ within the CT, followed by a ___ folding of the chains into trimers, starting at the CT domain and proceeding to the amino domain (NT).

Answer 58

disulfide bonds

zipper-like

CT to NT back to front

Question 59

Most mutations in the CT domain prevent the mutant alpha chain from participating in chain association, and thus cause a reduction in the amount of trimeric molecules formed, leading to ____

Answer 59

“Haploinsufficiency”

Question 60

Trimeric collagens are translocated in secretory vesicles from the ER or golgi to the ___.

Answer 60

ECM

Question 61

Removal of amino (NT) and carboxyl (CT) propeptides by N-and C-proteases permits ____ of collagen trimers into fibrils.

Answer 61

lateral alignment

Question 62

lateral alignment of collagen trimers into fibrils happens after ___ are removed by ___

Answer 62

amino (NT) and carboxyl (CT) propeptides

N-and C-proteases:

Question 63

Defect is a deficiency in N-protease in the skin, resulting in the persistence of the NT domain, common in cattle and sheep- fragile skin and death

Answer 63

Dermatosporaxis

Question 64

Dermatosporaxis

Answer 64

autosomal recessive birth defect in cattle and sheep

extremely fragile skin and death

deficiency in N-protease in the skin, resulting in the persistence of the NT domain.

Electron microscopy shows branched, twisted collagens that prevent packing of collagen molecules into cylindrical fibrils.

Question 65

NT and CT are removed in the ___

Answer 65

ECM,

Question 66

Once NT and CT are removed in the ECM, collagen molecules align ___ in a quarter-stagger to form___.

Answer 66

laterally

fibrils

Question 67

Lysines, hydroxylysines and glycosylated lysines are modified by ___ to generate aldehydes that form covalent ___, joining one collagen molecule to the next in the same or another fibril.

Answer 67

lysyl oxidase

cross-links

Question 68

lysyl oxidase

Answer 68

modify Lysines, hydroxylysines and glycosylated lysines to form aldehydes that form covalent cross-links, joining one collagen molecule to the next in the same or another fibril.

require O₂ and copper( in cupric form)

Question 69

Cross-linking ___collagenous aggregates.

Answer 69

strengthens

Question 70

Cross-linking defect

Answer 70

lathyrism

Question 71

Lathyrism.

Answer 71

Cross-linking defects

A. Nutritional: copper deficiency in swine, chicks, sheep leads to blood vessel rupture.

B. Toxic: sweet peas and clover contain β-aminoproprionitrile (BAPN), which binds irreversibly with lysyl oxidase and prevents cross-linking. Collagen is extremely weak, and bones are brittle and misshapen.

Question 72

defect in CT domain disulfide bond formation

Answer 72

haploinsufficiency

Question 73

Ascorbate deficiency

Answer 73

scurvy

alpha chains under hydroxylated and can not form stable helices at body temperature-

no hydroxylation= no hydrogen bonds holding triple helix in place= kinks

Question 74

issues with removal of NT domain from alpha helix

Answer 74

dermatosporaxis

Question 75

disorder with cross linking of triple helix

Answer 75

lathyrism

prevents cross linking between triple helix, collagen fibril very brittle and weak

Question 76

BAPN is an inhibitor of

Answer 76

lysyl oxidase

prevents cross linking of collagen to produce fibril

Question 77

Supramolecular aggregate formations involving FACIT collagens are (collagen Types I & __) and (collagen types II & __).

Answer 77

type 1 (bone) and XII

type 2 (cartilage) and IX

Question 78

two type of type 1 collagen disorders

Answer 78

osteogenesis imperfecta

Ehlers danlos VII syndrome

Question 79

osteogenesis imperfecta

Answer 79

brittle bones, incomplete mineralization

Other symptoms may include poor or altered mineralization, osteoporosis, joint laxity, blood vessel rupture, blue sclera.

condition: variable: often lethal in utero, severely deforming or barely noticeable

Lethal: caused by glycine not being every 3rd amino acid in TH region, either deleted or substituted

Collagen type: type 1 (alpha 1 and alpha 2)

Question 80

ehlers danlos VII syndrome

Answer 80

loose joints and hyperelastic skin

condition: mild to moderate

Type 1 (alpha 1 and alpha 2)

error in the NT domain of collagen alpha helix

Question 81

Type I collagen

Answer 81

(fibrillar collagen):

1. Major protein of the ECM
2. Found in bones, teeth, tendons, blood vessels
3. Is a heterotrimer composed of two “α1” and one “α2” chains
4. Chains associate at the carboxyl domain and fold into triple-helical molecules
5. Triple-helical molecules self-assemble into fibrils, which provide tensile strength to the tissue, and serve as templates for mineral deposition.

Question 82

Based on location and type of mutation, the severity of the disease can be predicted. Mutations in the ___ usually result in less severe phenotypes than mutations in the ____ domain

Answer 82

carboxyl domain

triple-helical

Question 83

Haploinsufficiency

Answer 83

mutation in the carboxyl domain

this scenario results in a 50% reduction of trimeric collagens produced.

kinked- ends of alpha chains can not line up- trimerization can not occur

Question 84

Dominant interference

Answer 84

results from the expression of partially-functional collagen α chains that are able to compete with normal chains for binding at the carboxyl domain;

following binding, these hybrid molecules cannot form stable trimers.

lead to either a degradation or abnormal molecules interfere with the normal function

In general, mutations resulting in partially-functional molecules give rise to more severe phenotypes than mutations that prohibit the chains from binding prior to trimerization.

Question 85

In general, mutations resulting in partially-functional molecules give rise to ___ phenotypes than mutations that prohibit the chains from binding prior to trimerization.

Answer 85

more severe

Question 86

In haploinsufficiency ___ % of trimers are normal and ___ % are degraded

In dominant interference ___ % of trimers are normal , ___% are abnormal and ___ % are degraded

Answer 86

50% and 50%

12.5 normal, 12.5 abnormal and 75% degraded

Question 87

Unbranched polysaccharide chains composed of repeating disaccharide units

Answer 87

GLYCOSAMINOGLYCANS / “GAGs

Question 88

In GAG, 1 of the 2 sugar residues in the repeating disaccharide is an amino sugar (n- ___or ____); the second sugar is a uronic acid (___ or ___)

Answer 88

acetylglucosamine or acetylgalactosamine

glucuronic or iduronic

Question 89

Gags are usually highly negatively charged due to ___ and ___ on the sugar residues;

Answer 89

carboxyl

sulfate groups

Question 90

Gags are found in the ___ and on ___

Answer 90

ECM

cell surface

Question 91

6 gag groups are distinguished by

Answer 91

a) sugar residues
b) type of linkage between these residues
c) number and location of the sulfate groups.

Of these, all but HA are covalently linked to a protein core to form proteoglycans

Question 92

Of the 6 GAG groups all but __ are covalently linked to a protein core to form proteoglycans

Answer 92

Hyaluronic acid (HA)

Question 93

IN GAG: ___ bind with glucoronic acid- this is called a ___

and ___ bind with iduronic acid- this is called ___

Answer 93

n- acetylglucosamine (hyaluronan)

n-acetylgalactosamine (dermatan sulfate)

Question 94

Hyaluronan is a simple GAG, with a long chain of ~25,000 sugar residues and no ___.

Answer 94

sulfate groups

Question 95

Dermatan sulfate GAG has a high density of negative charges due to ___ and ___.

Answer 95

both carboxyl and sulfate groups

Question 96

Specific characteristics of each GAG:

Hyaluronic acid (HA):

Answer 96

1) simplest GAG
2) least negatively charged (no sulfate groups)
3) highest molecular weight (>10 6 daltons)
4) not made on a protein core

no sulfate group

5) serves as the backbone for the cartilage PG aggrecan.

Question 97

Chondroitin sulfate (CS) and keratan sulfate (KS):

Answer 97

1) are highly negatively charged
2) are components of the cartilage PG aggrecan

filled with water, very sponge like- compressive forces

Question 98

Dermatan sulfate (DS)

Answer 98

1) is a component of two bone PGs, biglycan and decorin

Question 99

Heparin (HN):

Answer 99

1) most negatively charged GAG
2) found in mast cells
3) has anticoagulant and antiproliferative properties
4) most commonly a component of the PG serglycin.

Question 100

Heparan sulfate (HS):

Answer 100

1) found on cell surfaces in PGs such as sydecan, glypican, and perlecan
2) proposed to regulate cytokine-mediated cell interactions.

Question 101

6 GAGs

Answer 101

Hyaluronic acid (HA):

Chondroitin sulfate (CS)

Keratan sulfate (KS):

Dermatan sulfate (DS):

Heparin (HN)

Heparan sulfate (HS):

Question 102

Linkage between a GAG chain and its core protein in a proteoglycan molecule.

A link tetrasaccharide is first assembled typically on a ___ residue. The rest of the GAG chain, consisting of a repeating disaccharide unit, is then synthesized, with one sugar residue added at a time.

Answer 102

serine

Question 103

how to make cartilage proteoglycan (aggrecan) biosynthesis

Answer 103

3- protein core of aggrecan.

(4-5) Protein core is transported from RER to golgi.

(6) In golgi, GAG chains are added to the protein core, one sugar at a time.
(7) On completion of glycosylation and sulfation, molecules are transported via secretory vesicles to ECM
(8) . Hyaluronan is made on the plasma membrane
(9) . In the ECM, aggrecan, link protein, and hyaluronan come together to form proteoglycan aggregates

Question 104

lysyl oxidase is dependent on ___, used to form cross links

Answer 104

Copper

Question 105

steps to make collagen

Answer 105

1. signal protein cut off
2. prolyl/lysysl hyrdoxylase and asorbate hydrolyses TH
3. CT bind together using disulfide bonds
4. TH trimer formed
5. secreted into ECM NT and CT cut of (Cross links formed (lysyl oxidase and copper)

Question 106

4 types of mature proteoglycans

Answer 106

aggrecan (cartilage- very negative, withstand compression (chondroitin sulfate and karatan sulfate))

decorin (smallest, found in bone, make sure distance between type 1 collagen fibrils stays the same(dermatan sulfate))

Serglycrin - made by mast cells, heparin chains

syndecan- cell membrane proteoglycan, heparan sulfate, cytokine metabolism

Question 107

how to make proteoglycan

Answer 107

1. In RER: protein synthesis (make core protein)
2. sugars added one at a time to core protein in the golgi
3. sugars become sulfated in the golgi
4. when fully made, gets packaged into secretory vesicles and moved to ECM
5. Hyaluronic acid, made on cell membrane is released into ECM and forms backbone for aggrecan to attach
6. link proteins bind these together